>LACTIS1119B1_00010 asparagine synthase
ATGTGCGGATTTTTAGCGATCGACTCCAAAGAATTTGACTTGAAGACCTTTGACGAAGCCCTGGCCAAATGCCAGGATCGGGGACCGGACATGACCAGGGTCTTTGACGAGCGGGGAGTTACTTTTGGCTTCAACCGCTTGGCCATCATGGACTTGACGGACAGCGGGATGCAGCCCTTTGAAACCCTGGACTGCACCCTGGTCTGCAACGGGGAAATCTACAACTACCCGGAACTGAAAAAGAACCTGGAAACCGACTACGAATTTACTTCCAGCAGTGACTGTGAAGTTCTGATCCCCCTTTACCGCAAATACGGGATTGAGACGATGGTTAAGATGCTGGATGGGGAATTTTCCTTTGTCCTCTATGATCACCTCTCAAAGACGATTTACGCGGCTAGAGACATCATCGGTATCCGGCCAATGTTCTACGGCTTTACTAAAAAAGACGGCAAGATTGCTTTTGCCTCAACTGGCAAGAACCTGCTTGACCTCTGCCGCGAAATCCACCCCTTCCTGCCTGGCCACTACTATGACGGGGAAAAGATCGTGGCCTACCATGAACCAGACCTCACCCCCAAGATGAGTACTGACGATTTTGAGACTGCGACTCACAAGATTCATGACCTTCTGGTTGAATCAGTTGACCAGCGCCTGGCCTCAGACGCCCCGGTCGGCTACCTCCTTTCAGGCGGCCTTGACTCTTCCCTGGTCTGCTCGATCGCCGCCCGCCTGCAGCCAGATACAAAGATCAGAACTTTTGCCATTGGGATGGACCAAAACCCGATCGACCTTAAATATGCCCGGGAAGTGGCTGACTACCTGGGAACTGACCACACCGAGTTCATCATGACCAGAGAAGACGTGTTGGGTGTTTTAAGAGAAGTCATCTATACTTTGGAAACCTGGGACATCACGACTATCCGGGCTTCAATCGGGATGTACATTCTCTGCAAGAAGATCCATGAAACAACTGACTTGAAGGTCATCTTGACTGGTGAATGCTCTGATGAGCTATTTGGCTACAAATACACCGACTTCGCTCCAAGCCCGGAAGAATTCCAAAAAGAAGCAGCCAAGCGGCTCAGAGAGCTCTACATGTACGACGTCTTGCGGGCAGACCGCTGCATTTCCGCCAACTCTTTGGAAGGCAGAGTGCCTTTCGCTGACCGGGAATTCGTCGACTACGTCATGAGCGTGGATCCGGACTTGAAGATGAACCACTACCACAAGGGCAAGTACTTGCTCCGGAAGGCCTTTGAAGAAGGCGACTGGCTGCCCCGCGACATCCTTATGCGGGAAAAAGCAGCCTTCAGCGACGCCGTGGGCCACTCCATGGTTGATGACCTTAAGGAATACGCTGAAAGCAAGTACAGCGATGAAGACCTTGCTAAAGCAGGCGAAAAGTACCCATACCGGACGCCATTTACCAAGGAATCACTTCTTTACCGGGATATTTTTGAAGAATTCTACCCTGGCAAGGCTGACTGGATCAAGGACTACTGGATGCCAAACAGAAGCTGGAAGAGCCTGGAAAGCGTCACCGACCCAAGTGCCCGGGTATTGAGCAACTACGGGGCTAGCGGTGAATAA
>LACTIS1119B1_00020 oligopeptide ABC transporter substrate-binding protein
ATGACATCGGCAGAAATCATCACTATGGATCCATCGAAGGCGACGGACGCGACTTCTTTCACCCAGATGGAAAACACCATGGAAGGCCTGTATCAATTAGACAAGGACAACCAGGCCAAGGAAGCCCTGGCGACTAAGGCTGCCCAAAGCAAGGACGGTCTGACCTGGACTTTTGATTTACGGAAAGACGGCAAGTGGTCCAACGGGCAGGCAGTTACTGCTAAAGACTTCGTCTACTCCTGGCAGCGGACGGTTAACCCCAAGACCGCGTCTCAATACAGCTATATCTTCTCCGGCATTAAGAACGCGGACGCGATCGTGGCAGGCAAAAAAGCCCCGTCCAGCCTGGGCGTCAAAGCTCTTGGCAAGCACAAGCTGCAGGTTAAATTAGACCACAAGCTGCCTTATTTCAAGCTCTTGCTGGCCTTCCCGGTCTTTTTCCCGGAAAACCAAACTGCAGTTGAAAAATACGGCAGCAAGTTCGGTACTTCTTCTAAGACCACGGTCTTCAATGGGCCCTTTGTCCAAAAAGGCTGGACCGGAGCCAACCTGTCCTGGAAGATGGTCAATAACAAGAACTACTGGAACAAATCAGCCGTCAAACTGGCCCAGATTAATTTCATGGTTGAAAAGTCACCGTCAACGGCCTACAACCTTTACCAGGCCGGCAAGCTGGATACGGCAATTTTGAGCGCCCAGGCAGCCAAGAACCTGCAAAAGCAGGCCGGCTACGTGATCAGAAAGAACAACGGCACGACTTACATGCAGTTCAACACCAAGCTGGCTAAATTTAAGAGCACTAAGCTCCGTCAAGCAGTTTCCATGGCTTTGGACCGGAAGGCCCTGGCCAAGACCCTGGGCGGTGGCTTTACCGGCGCGACGACCTTTACCGCGGCTGATATGACCAAGGTGGACGGGCAGGACTTTACCCAGCTGGCTCAGGACAAGACGACCAAGCAAATTACCAGCTACCACAAGACATTGGCTCAGAAGACCTTTAAGGAAGCCCTCAAGGACTTGCAGCTGAAGAAATTATCCTTTACTTTGCTGACGGCTGATGACGACAGCTCAAAGGCGATTGGTGAATACATCCAGAGTGCCTTGGAAACGGCTTTTGGCAAGCAAGTCTCCGTCAAGGTGCAGAGCCTGCCGACCAAGTCCCAGTTTGCCAAGATGGACAGCGGCAATTTTGAAGCCTGCGTCAGCGGCTGGAATGCTGACTTCGCTGACCCGATTTCATTCCTGGACTGCATGACCTCAACTAACGGCTACAACTCCGGTAAGTGGTCAAACAAGCAGTATGACCAGCTGATCGCCAAATCCAAGACCGTTACTTCATCTAGCCAGCGGATGCAGCTTTTGGCCAAGGCAGAAAACATCTTGATGACCGACCAGGGGGTAACGCCGCTGGTTCAGTCCGGCAGTGCCTGGATGCTGAACACAAAGGTCAAGGCCTTGATCTACAACGGCAGCTACTACTTCGAATATGCCTACTTACAGTAA
>LACTIS1119B1_00030 hypothetical protein
ATGAAGGACTCAAATTCTTTTGTCTACAATGTCTGGCTGATCATTCTGCTGGTTGCTGCCTACATTTGGCCAATCTTCGGTCTGGTGCCGGCAATTTACCTTTTTATCAAGCGTAAACATGAACAGTTAGAGAAGATGCAAGGCTGGATTACTCTGGCCTTGATCTGGCAGATCGTGCTCTGGCTCCTAATGATCATTTTCTTAATCTGCTTTGTAGCTCTTGCTGGCTCGGCTGGCAAGTAA
>LACTIS1119B1_00040 hypothetical protein
TTGATCGACATCCAAAACATGAAGCTGGATGAATGTGAGGCCCTGTCGCATTGGATTGACCCCAGATACGGCTTCCTGTCTCCAGACAAGTTTATCCCTGCCCTGGAGGCCAACCGGGAAGTCTATAAGGTTGACTGCCACGTTTTAGAGGGCTATGGGCAAGACGCTGAGTTTTTACGGGAAAAGAAAAAAGAAATCTTCCCCATCAGCTTTAACATTTCCAGAACAGACCTGGAAGCCTGCAATATTTACCAAAAGATCGAAGACACCGTCGCCCGCTACGGGCTCAGCCTCGATCAAGTTCATATTGAGATTACGGAAAGTGCCCTTAATGACAGCAGCCAGGCCATGGTCGAAGCCGTCCAGCACTTCCATGACCTGGGCTACCAGGTCTGGATGGATGACTTTGGCAGCGGCTATTTTCCTTAA
>LACTIS1119B1_00050 hypothetical protein
ATGATCATGACCGTCTTCCTTTACCAGAAGCTAAGCCCCCTGGTCAGCATTAATGCCTTAAGCGCCTTTTTTCTGGCAACTGGATTGATCCTCTTGACCCTGATCCCAGTCATTTTTCTTTATCAGCGCCTAATTAACAAGAAGCCGTCCGTAGCCGCCTTCACTTACTGTCAATTTGTCATCGCCGCTGAAATTTTATCCCTCTTGGCCAATCAAACCTGGCAATGGGACTTTTTCACCATTATCTTAACCCTCTGTCTCTACTTTCTTTTTAAAAAAGAAATCAGCTACATCAGCCAGGAGCAGACCGTCATCACGGAAGACAGCCGCTTCTTCTGGTCCACCATACTCTGCATGATCCTGGTCGTAGCCCAGTCAGAATTTCCCCGCATGTTCCTTGATGGCAACAATTCGGCGGTCCCAACGCCAATCGCCTACGTGGTCAGCTTTTTAGCTATTATTTCCTGCATCATGTACATTTTCTTCATGAAATTCAATATCTTAAGCGTTAACCGCTATGAAAGATACTTGAAGAAATATGATGATGATCAGCTGACTGGGGCCAAAAGCCTCCACTATTTCATGGAGCATTATGAAGAGAGCCTCAAGCAGTTCGGCAAAAGCCAAAGTTTAAGTATTTTTTACAGCTCCCTAGTCAACCTGCATGACTACAACTTAACTAACGGCTACCAGGACGGCAGCAATCTCTTAAAACAGTTGCGGCCCGCAGCACTGGTGAAACTTTACTCTTCAAGGCTGGCTTAG
>LACTIS1119B1_00060 hypothetical protein
GTGGTTGCGGGCATAAAAGGTTGTAAACTGGGTTATCATGTGTCCTTCCTCGATATAATCTCGTTATTAACAGAACTGCTTATATGTAGAATTAAGCATATATTTCTGTCCAAAGCGGATGTTAAATTAGCCTCTTTCAACAAAATAAAAGGAAGCAGGGAAGTGGTGAAAGCGCTAATGTTTTGCCGTGTTAAAAATAAGTAA
>LACTIS1119B1_00070 phosphate ABC transporter substrate-binding protein
ATGTCACGCAAAAAAAACAAAGTCGCCATCGTTGCGCTTGTTTTGCTGGCAATCGTCATCGGCTGCGTCGTTGGCAGCTCCGAAGCCGATACCAAGGGAGTTTCCGGGACAGTTAACATCGCCGGGTCATCTGCCCTTCTGCCTTTAGCGCAGAACGCGGCCAAGACTTTCATGGACAAGAACCCGGACAGTGTCATCAACACTAACGGGGGTGGGTCAGGCCAAGGCCTGCAGCAGGTTTCTGACGGCACCATCGACATCGGGGACTCAGACTTGCTCGCGGATGAAAAGCTGGACAAGAAGTCAGCCAGCAAGCTGGTTGACCACCAAGTGGCCATTACCGTCATCGCTCCGATCATCAACAAGGATGCCGGGGTTAAGAGCCTGACCACTGAACAATTGATCAAAGTTTTCACCGGCAAGGTGACCAACTGGAAGCAGGTTGGCGGCAATGACCGCCAGATCGTCCTGGTTTCCAGACCATCTTCATCAGGTACCCGGGCAACTTTTGAGCAATACGCTTTGAAGAAGCACGCTAGCCAGTCAAACCAGTCTCTGGAAACTGACGACTCAGGTACTTTGATCCAAATGATCCAAAGTGTTTCCGGCTCAATCGGCTACGTTGCCCTGTCCTACTTGACTGGTGACCCGCAAGTCGGCATCGTGTCAATCAACGGTGTTAAGCCAAGCCTGAAGAATGTCTACAATGGCAAGTATACGGTTTGGAGCTATGAGCACATGTACACTAAAGGCCAGCCAAAGGGTGCGGCCAAGGCATTCTTGCAGCAGATGCTCAGCGAGGAATATGGCAAGAAGATCGAAGCCATGGGCTACGGCATAGCCTCCAAGCTGACGGCTGCCGCTAAAGCCACCCATACTAAGTAA
>LACTIS1119B1_00080 phosphate ABC transporter permease protein
ATGGACAAAGTAGTTCAAAAAGCAATTGCCAAAGACAAGCGCTGGCGCGCGGTCTACATCGCCTGCGGCCTCTTGATCGTTGCTTTGACCCTTTTGATGGGGGCCTTCCTGCTCTACCAAGGCAGCCAGACCTTCCTTAAGGCGCACCACAGCGTTTGGGAGTTCCTGTTTACCAGTGACTGGGCACCGCTTGACAAGACCGGCATGTTCGGGGGAAAAGTCGGGGCTGCCATTTACATCGTTGGTTCCCTGGAAACCTGCTTGCTGGGTTTGCTCATCTGCTTGCCGTTTGCGATCGGCTCAGCCGTTTTCATGACGGAAATTTCACCAAAAATCGGTGAAAAGTTCTTCCGGCCGGCAACCGAAATCTACGTCAGCATCCCATCCGTTGTTTACGGCTGGTTTGGCTTGACCAAGCTGGTTCCTATAATCAGAAACGCCTTCCACCCAAAGATGGGCGGTTTCTCAGTCCTGGCCGCCTCAATCGTTCTGGCCATCATGATTTTCCCAACGATCACTACTGTCGCCGCCGACGCCATCAAGTCAGTCCCGAATAGCTACAGAGAAGGGGCTTACGGTTTAGGGGCGACCCGCTGGCAAGTTATCGGCAAGGTTGTTTTGCCAGCCGCTTCCGGCGGTATCTTGACCGGGGTGGTCTTGGGTCTGGCCCGGGCCATCGGTGAAGCTTTAGCCGTAGCCATGGTTATCGGTAAGACCCGGTCCTTCGCGACCAGTCTCTTGTCACCAACCAGCAACTTGACCAGTGCAATTGCCGCTGACATGGGTAACACGGCCCAGGGCGGGGAATACAATCTGGCTTTGTGGTCAATGGCCCTCTTACTCTTCATCATCTCAATCGTTTTGATCGTTTTGATTCACAAGCTTGGCAATGGAAAGAAGGAAAAATAA
>LACTIS1119B1_00090 phosphate ABC transporter permease protein
ATGAGCCGTGCTAAAAGAAAAGACCGGCTGATGACGGGAATCTTCTACGCCATCGGCTGGATTATGCTGGCCTTCCTGCTCTACTTAACGCTGACCATCATCTTTGACGGCTTGAAAGGCTTCCAGTGGGACTTCTTGGGAGCAGCCGGCAACGGGATTTTCAACCAGTTTTTCAACACTATATACTTAGTTTTCCTCTCACTGCTGGTCTCAGTGCCAATCGGCATCGGGGCCGGGGTTTACCTGGCTGAATACGCTAAGGAAGGCAAGTTCCTGACAATCTTTGAAATCAGTATCGAATCCTTGTCATCCCTGCCATCTATCGTTATCGGCTTGTTTGGCTACTTGGCCTTCATCATGTGGACCGGGATGTCCTGGAATATCCTGGCCGGTGCCTTGACGATTTCAATTCTTTCAATTCCTCTGATCACTACTGAAACCAACAACGCCATCCGAGCCTTGCCGGTGGAATACAAGGAAGGTTCCCTGGGCCTGGGCGCGACCAAGTCAGAAACCATCCGCAAGGTCTTGATTCCGGCGGCCATGCCGCAGATCTTGACCGGGGTAATCATGGCTGCCGGGCGCGGTTTCGGTGAAGCCGCTGCGCTTTTGTATACTTCCGGCCAGTCAACTTACATCAACTGGCAGAACTTCTGGAAGGTTACCTCACCAACTTCACCGCTGAACCCGTTCCGAAGCGGTGAAACCCTGTCCCTGCACATCTGGGTCATGAGAACTGAAGGGGCCTTGAACCCGTCAGCCACTCAGATCGCCAACTTTACTTCAGCAGTCCTGGTCGTTTTGGCCCTGCTCTTCACTTTGGTTACGCGCCGTATCTCTGACAGAATGCGCAAGCGCAATAACGGAGGAAATTAA
>LACTIS1119B1_00100 phosphate ABC transporter ATP-binding protein
ATGATGGAAGACAAAATTACAATTGAAAAGCTGAACCTGTACTACGGTGATTTTCATGCCTTGCATGACATCAATATGCACATCCAAAAAAACGAAATCACTGCCTTCATCGGCCCGTCAGGCTGCGGGAAATCAACTCTTTTGCGGTCACTTAACAGAATGAACGACCTGGTTGAAGGCTGCCGGATTGATGGCTCGATCAAGCTAGACGGCACTGACATCTATAATGGTGACCTGGATGTGACCGTCCTGCGGCAAAGAGTCGGCATGGTCTTTCAAAGACCAAACCCGTTCCCGATGAGCGTTTACGACAATGTTGCCTACGGCCCGCGGATTCACGGGATTACTGACAAGAAGGAACTGGACGAAATCGTGGAAACTTCCCTCAAGCAGGCAGTTATCTGGGACGACTTGAAGGACCGGCTGAAGAAATCAGCCCTGGGCCTGTCCGGCGGTCAGCAGCAAAGGCTCTGCATCGCCCGGGCCCTCGCTGTCAAGCCGGAAGTATTGTTGATGGACGAACCGACCAGTGCCCTGGACCCGATTTCAACCTCTAAAATTGAAGAATTAGCTTTGGAACTGAAGAAGAACTATACGATCGTCATCGTTACGCACAACATGCAGCAAGCCGTGCGGATCTCTGACAAGACTGGCTTCTTCCTCTTGGGTGACCTGGTTGAATTCGGTGAAACTGACCAGCTCTTCTCCATGCCGAAGGATGAAAGAACTGAAAAATACATCACCGGCCGGTTCGGTTAA
>LACTIS1119B1_00110 phosphate uptake regulator
ATGAGAACAAGATTTGACAAGGAACTGGATCACTTGCATGAAGCAATGGAAGAAATTGGCCAGCTATGCAAGGAAAGCATTTCTGAATCAACCGACACCCTGTTTACGGGCAACTACCATGAAGCAGAGGACACGATTAACCTGCACCACCGGATTCACAAGGCAGAGCGTGACATTGAAGAAACCTGCCTGCGCCTTTTGATGGAGCAGCAGCCGGTTGCCACTGACCTGCGGATAATCAGTGCATCTTTGAAGGCGGTCTACGACCTTGAAAGAATCGGTGAAATTGGCGCAGACATTGCCGACCTGGTCCTTAACGAACACCTCACAGTCGCAAATGACATGCTGAACTTGAAGAGCATGTCCCAAATTGCTACGGGCATGGTCAACGACGCGGTAACGGCTTTGGCCAACCAGAATGTAGAACTGGCCAAGGCCGTAATCGACCGCGATGACCAGGTCGACGAAGGCTTTGACAAAGCGAAGGCATTTTTGATCAATAACTTTAACAAGGATGGTAATCCGGAATATTTGATCAATTTGATGATGGTCGCAAAGTACTTTGAAAAAATTGGCGATCACGCCGTCAATATTGCTAAATGGTCCTTATTTGTAACTACCGGCAAGACTGGCAGATAA
>LACTIS1119B1_00120 two-component system response regulator test
ATGACTGAAATTTGGTGCGTGGAAGACGACGAAAGCATCCGCGAAATCGAAATGTACACGCTGGAATCAATGAACTTCAAGGTCCGCGGCTTTGACGACGGACAATCTTTTTTCAAGGCCCTGGACAATAGCCGGCCGGATTTAGTGATTTTGGACTTGATGCTGCCTGATGAAGACGGCAGCGAAATTCTCCACCGGCTCAGGTCTACTTCCGCGACCGAGGACTTGCCGGTGATTGTCGCCAGTGCTAAGACGGCAGAATATGACAAGGTCAAGAACCTGGATTCCGGGGCGGATGACTACTTAACCAAGCCATTTGGAATGATGGAAATGGTTTCCCGGGTCAAGGCTGTTTTGCGCCGGACCAACCGTAAGAAGGAGGACAAGATCGAAAAAGACGGGATCAAGATTCTCTTGAAGCGGCATGAAGTTTTCGAAAACGGCCATCAGGTCGATTTGACTTTGAAAGAATACGGACTCCTGAAGCTCTTGATTACTCATCCGGGAACTGTCTTTTCCCGGGAAGAAATCATGGATCAGATCTGGGAGACTGGTTTTTATGGGGAAACGCGCACAGTAGACGTTCACGTGAGAACCTTGAGACAGAAGTTGGGTGAGGCTGGTAAGCATATCGAAACGGTGCGCGGGGTCGGTTATCGCTACCATGAAGCAGACTAA
>LACTIS1119B1_00130 two-component system sensor histidine kinase
ATGTTTAAGAAGATATTTCGGGCAAGTTTTTTACTGACTTCTCTGATTCTCTTATTTGCCGTACTCTTAAGCGCGATTGTCTTGAGCATTGACTTCGACCATACAGAAATGTCCGCCCTGGCTTCCCAGGCTGACCTGGCAGCCAGCGGGGTAAATACCAGCGGCAAGAAGTACATCAAGAACTTAAAAGGGGAGAACTACCGGATTACTTGGATCAATTCCAAGGGCAAGGTTCTCTACGACAATGAAGAGAATCCCAAAAAGATGGGCAACCACTCCCGCCGCAAGGAAGTCGCCGAAGCCATGAAAAAGGGGACAGGGACCAGCGAGCGCTACAGCACGACCTTGTCGACCGTAACCATGTATTATGCCGAGCGACTCAATGACGGCGGGGTCATCCGCATCGCGATCACCAGAAACTCCTTCTGGCGGATTCTGGTCAGATTTTTGTCGCCGCTTTTGTTAATCATGCTTTTATCGGTCCTGGTGTCCTGGTTCCTGGCCAAGACAATCTCGCAAACGATCGTCAAGCCGCTGAATGAAATGGACCTGGACAAACCCCTGGAAAGCAATGCCTATGACGAAATCAAGCCGCTTTTGACCAGACTGGACAGCCAGAACAAGCAGATCGCTGACCAGATGGAGCAGCTCCACCACCGGGAAAAAGAATTAAAGACGGTGACAGATGCCATGCTGGAAGGCTTGATCTTGATTGACCTGGATGACCAGATCCTCTTGTCCAACCCGGCGGTTGTCTCCCTTTTGGGCTTGCATGATACTGACCCCTTGCCAGATGATGTTAAGGAAATCATCGATAAGAACAGCCGCTTGGCCCATGCTGAGGGGATTGTGGAAAGAAACGGCCGCAATATTCAAATCAGTGCCAGCCCGATTACCAGCCGCAAGATTCTGAAGGGGACTTCGATCCTGGTGGTTGACGTGACGGAAGAATACCATGAAGAGCAGGTCCGGCGGGAATTCACGGCCAATGTGTCGCATGAACTTAAGACGCCCCTGCAGTCCATCATGGGGTCAGCTGAACTTTTGGAAAACCACCTGGTTAAAGAAGAGGACCGGGACAGCTTTTACAAGAAGATCCACGAATCTTCTGCCCAGCTTTTGACCTTGATTGACGACATCATCCGTTTGTCCCACCTGGATGAAAATCAACGCTTTGAAGAAATCAAGCTGAACTTGAAGAGTCCGGTGACTGAGGCCCTGGAAGCCCTGCAGAGTTCGGCTGACCGGCATAGAATCAAGCTGGAGACTAATTTGTCAGACACTATGATCCTGGCCAACTTCCGCCTGGTTTACGAAATTGCCTACAACTTGATTGATAACAGCATCCGCTACAACAAGGAAAAGGGCAAGATCAAGATTACGGTCAAAGAGCACCGGGGCCAGGCGATCCTGCAGGTGGCGGATACTGGCATCGGGATTCCCCAGGAAGCCCAGAACCGGATTTTTGAACGCTTCTACCGGGTGGATAAGAGCCACAGCCGCAAGACCGGGGGGACTGGCCTGGGCCTGTCCATTGTCAAGCATGCTGTTCAGCAGTGTCACGGGACCATCCGCCTGGAAAGCGAATTAGGCAAGGGGTCAACCTTCACGGTTATTTTCCCGGCCCTGCCAGCAGGAGCAGATGATGATAGCAAATAA
>LACTIS1119B1_00140 hypothetical protein
ATGAGCCAGGGGCAAAAGAAGCGGGTAGCCCTGGCCAAGTCTCTGACTGAAGAAGCCAGCCTCTACCTTTGGGATGAACCGGCCAACTACCTGGATCTTTTTAACCAGGACCAGCTGATCAAGCTGCTGGCAAAAGAGCAGCTGGCCATGCTTTTAGTTGATCACGACCAGGCCTTCATCGAAGTCGTCGCCAAAGAAAGAGTCAACTTGCGGCCGGTCTTATAA
>LACTIS1119B1_00150 NUDIX family hydrolase
ATGCAAGAACCTAAAATTTTACCTGACCAGAGCAAAACCCTGGCCGCTACCAAATATGTCAAACTCTACGACCTGGCTTATGAAAACGGGGTCCACTACTATGATGCTTCAAGGCGGGACAAAGACCAGCTCTTTGCCTTCAAGCAGGATCCAGAGCTGGGAAGCGCCCTGCCTGATGCCGTCTGCGCGGTCATCATCGTTAAGGAAGCCGGTCAGAAAGACAAGCTCCTGCTCTTTTACGAGTACCGGTACCCGGCTGGCAGCTACCTGCTCGGCCTACCGGCAGGCTTGATTGACCCGGCTGACCTGGTCAGCCCGGATCCAATCAAAACAGCTATGATCCGTGAAATCAAGGAAGAAACCGGACTCAGCATCGGCGAAAAGGACACGGTTGAAGTCATCAACCCCCTGGTCTTCACGGCTTCCGGCTTCAGCGACGAAAGCAACGCCATTGTCAAAGCCGTCATCCACGTTAATGACTTGTCCGCCCTTAACCACAAAGGAGCTGAAGGCACCGAAGTTTTTGGCGACTTCAAATTAGTTGACAAGGAAGAGGCCCGCCGCCTGCTCAAGGAAGGCAGAGACGACTATGGCCACTACCTGCCCCTGGTTGCCTGGGCAGCCCTGTGCTACTTTGTCAGTGACCTCTGGAAATAA
>LACTIS1119B1_00160 hypothetical protein
TTGAGTATTGTGGCCCTGGGCCTGTTAGTCGGGGGATGCAGCCAGGGGCAAAAGGCCAAGCAGACTAAGACGAAAACTGAGACCAAGACCAGCCAGAAGGCAAGCGGGAAAAAGGTTGGCATCAGCATTTGGCGGATGGAATAA
>LACTIS1119B1_00170 hypothetical protein
ATGCACAAAGGAGACCTCCCGGTTTTTGAATTCTGCCTGGTGGAAGACCTTGTCGTAGCAGTTGTGGAAGGTGCCGATAAAGGTAAAGTCAGCGGCCTGGCTCTTGATGCCCAGTTCTTCTTCCAGCTCTCTGATGATGGTTGCCAGGGGCTCATCTACGGCAGCGATGTGGCCGGCAGAAGAGGTGTCAAAGCAACCTGGGTAGGAGTCCTTATTGGCGGACCTTTTCTGCAGGAGGACTTGCCATTTGCCGGCTTTTTGCCGGATGATCCAAACTGA
>LACTIS1119B1_00180 C4-dicarboxylate anaerobic carrier
ATGCTTTTTCATCGCAGTGGGAGCAAGAAAAAGAAACGCAAGCATGAATTTCCGACCGCTTATTCGGTCATCATCATCGTTTTGGTGCTCGTCCAGCTTTTAACCTTTTTCATCCCGGCCGGCAACTATGCCACGGTCTCTTATGACCAGTCGGCCAAGGATTTTGCCATTACCATGCCGTCCGGCAAGGTCAAGCACGAACCAGCAACGCAGAAGACCCTCGACCGCTATAAAGTCAAGATCGATGCCAAGAAATTAATCGACGGCACCATCTATAAACCTGTGGCTATTCCAGATTCCTACCAGAGAGTCAATGTCAAGAAGCCTAATTTCCGGGAAGCTGTCGTCCAGTTTTTGACTTCCCAGGTCCAAGGGATTGCCGATTCAATCGACATTATCACCTTTATCTTGATCCTTGGTGGGATCATCGGGGTTGTCTACGCCAATGGGGCCATCAACTCGGGGATGCAGGCCCTGTCTGAACATATTAAGGGCAAGCAAATCCTCTTGATCGTCATCGTCATGGGCCTGATTGCCCTGGGCGGGACTACTTTTGGCCTGGCCGAAGAAACCATGGCCTTCTACCCGATGCTGATCCCGGTCTTCTTGGAGGCCGGCTATGACACGATGACCGTGGTCGCCACCATCTTCCTGGGCACCACTTTAGGGACTTTGGGTTCAACCATCAACCCCTTCTCAACGGTTATTGCTTCAAACACGGCCGGGGTCAACTTCGCCCGGGCCCTGCCTTTGAGAATCATCATGCTCCTGGTTTCCCTGGGGGCCGGGATGCTCTACACCATCATCTATGCTGAAAAAGTCCGCAAGGACCCAAGCAAGTCCCTAGTCTACGACCAATATGAAGAAAGCAAGAAGAAGTTTCTTGCTTTTGACTCACAAGCTGACAAGGGCGACTTCACCTGGCGGCAAAAACTGACTCTGCTCACCTTCGTGGCTGGCTTTTTAGTCATGATCTGGGGTGTCCAGAACCGGGGCTGGTACTTCACGGAAATCGCGGTTGTCTTCCTGGCCGTTTCCTACCTTCTCTTCCTGGTTTCCGGCTTAAGTGAACACCGCTTCATGGAAAGCTTTGTCAGCGGCGCGGCTGACCTTTTAGGGGTTGCCTTGACGGTCGGCCTGGCCCGGGCGCGGGCGGTCTCCATCGTGATGGATGAAAGCCACACCAGCGACACGATCATGTACTTCTTCAGCAAGCAGATCACCGGCATGAACAAGCTGGCTTTCGTCTGGGTCCTCTTCTTGATCTACATCGTCCTCGGCTTCTTCATCCAGTCATCATCTGGTCTGGCCGTCCTGTCCATGCCGATCATGGCGCCGCTGGCCAATATCGTCGGCGTCGACCGGGCCAGCGTGATCGATGCCTATAACTGGGGGCAGGGCTACATCGGCTTGATCGCCCCAGTTGGCCTGATCTTGATGTCCCTGGCTATGGTCAATATCGGCTTTGACCGCTGGTTTAAGTTTATATGGAAGCAACTGGTCATCCAGTTCGTGATCTGCCTGATCTTCCTGGGAATCGGCCTCCTGGTCTACTAA
>LACTIS1119B1_00190 energy-coupling factor transporter ATP-binding protein
ATGCAAATTAAGATTAAAAGCCTTCATTATAAATACCCGGAAACGAATTTTTCCCTGGACATCCCGGACTTGACTCTTTCTCCCGGCTTGATCTGCCTGGTCGGACAAAACGGGTCCGGCAAATCCACTCTCTTGAAACTTTTGGCTGACCTCCTGCCATCTGGGGATGCCATTAAAGCAGACGGACAGGCTTTGTCTGAATATCTGGCCTCCGGCCGCTTGAGCAAGATCGCCTATGCCTTTCAGGATCCCAATGACCAACTTTTTAACTCCAGCGTGGAAAAAGAACTGGCCTGGTCCATGAAGCAGGCTAAACTGCCGGAAGACGAAATCGCCAGAAGAACGGAAGCCGCCCTTAAAGAATTTGGCCTGGCAGAATTACAGGACTTAAACCCTTACGACCTGTCTCTTTCCGGAAAGAAATTATTGACTATCGCCTCCGCCTTAGTCCTTGACCCGGAGGTCTGCCTGCTGGACGAGCCCTTGATGAGCCTGGATTATCCAGGCCGCTGCCTGGTCACCCGCCTGCTTGAAAAACGGCTGGCCCAGGGCAAGACCGTGATCATGATCACCCACGACATGGACTGGCTGGCCGAAAATTGCCAGGAGGTTTATGCCATGAGCCAGGGCCAGCTGGTCTACCACGGCCCGGTTCACCAGCTCTTTAGTGACCAGGAGCTTTTGGACCGCCTGGGCCTTTTGCCGGCCAAGACCTGGCAGCTCAGCCAGCTGCTGGGGCTTAAGCCGGAGGTCCTTTCGTTAAAATAA
>LACTIS1119B1_00200 energy-coupling factor transporter ATP-binding protein
ATGTCTAACAATTTTCAACTGACCATCAGCCAGCTCAGCCTCCGCTACCTGGGCTTTGAAAATCTAGCTTTAGAAAATATTTCTGCCCAAAGCCGCGGTAAGCGGATCGGCATTATCGGGCCCAGCCATGCCGGCAAAAGCAGCCTTTTGGCCCTTTTAGCCGGAATTGCAGGAAAAATGATTCCCGCCAAGTTTTTCGGTTCAGTCCGGATCAACGGAGAAGAGCTAGAAGCTTGGCGAAGCCAGCATGAAATTGCCCTCCTTTTGCAAGACCCGGCCAGTCAGCTGTCTGGTTTAGCCGACACCGTTTATGATGAATTAGCCTTTTCCCTGCTCAACCAGGGCAAAAGCGATGAGGAAATAGAAAGTGCAGTTAAGCGGGCAACTGACCAGCTGGACTTGACCAATTTGCTGGACCAGTCGCCAAACCAGCTGTCTGGCGGCCAGACCCAGCGGGTAGCCATTGCCACTGCCCTGGTCACTGAGCCCGACCTGCTTTTGCTCGACGACCCGACCAGCCAGATGGATCCCTTGGGCCGCCAGCACTTTTTCAGCTGGCTGGAAAAGCTTTCCTGTCCATTCTTGCTCATCTCCAATGAACTGGATGACTTAGCTGCCCTCTGCGACCAAATCTGGGTCATAAAAGACGGCTGCCTCTTGATGGCGGACTCTCCACAAACGGTCTTCAACCAGCTGGATGACCCGGCTTTCGATAAGCCTGCTGCCTGGAAAATGGCCAAAAAGCTGGAGCTTAAACTCGATGGCTGCTACCCGGTCAATGCCCGTGAACTAAAGGAAGCTGCCGAAAATGCAAATTAA
>LACTIS1119B1_00210 energy-coupling factor transporter transmembrane protein
ATGAGAAATAACGCGGAAGACCTGGCCCTGCCCGCCTGGCAGGCAGCCATTGACCCCATCAGCAAGCTGCTCTTGATCCTGCTCTTTACGCTCGCTGCTTTCGCCGCCGGCAATCTGCCCAGTGCGCTGATCATCCTCGCTGCCAGCTTTATCCTGGCCCTTCTGACCAAAAATCTCCATACCCTTTGGGGAATGTGTGCCTTCAGCCTCTTCCTCATCCTGACCATGCTCTTGATCCAGGGGCTCTTTTGGCCGGGCAACCATACCGCCGCCTTTTCCGTTGCCTCTTTGACCTTTTACCAGGAAGGACTGGACCACGCGGCTCTCTTAGCCTGCCGGATTTTGACCATTATTTTTTCCAGCAGCTTTTTCATCCAGACAACCACCATTTCAGAAAATGCCCGCTACCTGGAAAATTCCGGTTTGTCCTACCAGCAGGTCTACGTCCTCATGTCGGTCTGCTATATCCTGCCGCAGATGCAGGAAAACCTGCGCAAGATCCAGCTGGCCCAGAAGGCCCGGGGGATCGCACCAGCCAAGTCCCTGCTCTCCCGGATCAAAAATCTCTTTCCCGTCCTTTTGCCCTTGATCGTCAAGAGCTTCCAGCAGGCCATGAACCGGTCGATCGCCCTGCAGCTGCGGGGCTATGCCAGCCCTAAGCGGCGGGCGGCATGCTTGACAAATGACTACTGGAAAGACAAATTCTGCCACCGCCTGCTCATTGCCAGCTGCCTGGTCCTTTTAGGAGTAAAAGCATGTCTAACAATTTTCAACTGA
>LACTIS1119B1_00220 energy-coupling factor transporter substrate-binding protein
ATGGATTCTAAAGAAATCAGTTCTAAAAACAAGGCCAGCTTCTGGTCCTTCAAGCTTTCCGCCCACGCCATGACCCTAATTCCGGCCGCCGTCGGGATCAACTATGTTGCCAAGGCCTTTGCTGAAGGGTTGAAATTGCCGGTCTGGCTGGGGTCACTTGGGACTTTCCTGGCCAGCATGCTGGCTGGTCCTGTTGCCGGGGCCATCAGCGGCTTTATCAACAATGTCATCTACGGTTTGACCCTGTCACCTGTTTCCACCGTTTACGCTTTGACCAGCATCGGGATCGGCCTGGCAGTTGCCTGGCTGAACCAGCGGGGCTTTTTCAAGCGGCCGGTTACCGTCTTGCCAGCAGCTATTTTGATTGCCCTGGTTTCCGCCGTGATCTCCACCCCGCTCAACGTCATTTTCTGGAGCGGACAGACCGGGATCGCTTGGGGGGATGCCCTCTTTGCCTCCCTGGTTGCCAAGCACGTGAACATCTGGATTGCTTCATTCCTTGATGAATTTGTTCTTGACCTTTTGGACAAGACGGTCGTCGCCTACCTGGCCTTTTTGATCTACAAGCAGCTGCCAAAGCGCCTGGTCTACTTTTTCAAGGGGACTGAAAAATGA
>LACTIS1119B1_00230 hypothetical protein
ATGGAAATAATCAAATTCACGGAGCAGCAAAGAAAAGACTATGAGCAGCTGCCGACTAGCATGGCAATTTACCAAATAATTGACGGCAAGGCTAAGACCTTGCTGGTGACAGATGAATTGTGCAGATTGCTGCGGATCAGCCGGGAAGACTTGGTCGCTAACCTGGACAAGAGCATGTTTGGTTTTGTCCACCCCGATGATATCGGCCGGATGGCTTATTTTGGCAAGAATTTCGCGGCTCACACAAATGAGAAATACGATGTTTTCTTCCGCTGGAAGACACCAAAGATGGAGGATTACCATATTTTCCACTCCTGGGCCAACCATGTGCTGGTTGATGGCGTCAGCCTAGGCTTCTTCTTTTGCAGCGACATGGAAGAATCCGGCAAGAACAACCAGATTTTAGATACCCACTACCAGAAGTATGCCAATGACCAGATGTACCAGGACCGGTTGACCAACCTGCCCAACCGCCGTTTCCTGGAGATTTTCGGCATGGAAAAAGTGGCCAAGCTGCGTTTAGCCAAGAAGCAGCCGGTCTGCATTACTCTCAATATTGCCGGCATGAGCGTCTACAACAACCTTTATGGCTTGAAAAAGGGTGACCTGCTCTTACGGGAATTAAGCGAGCTTTTGGTTAGCGAAATCAAAGAGGGGCATGTTTACTACAACAAGGATGACCGTTTCTTGATCTTAACGATAGCTGAGGGTATCGATGAAAAGATCAAGGAAATCCACGAAAAATTTGTCAACCTGGCCCATGAAGACTTTGAAATGCCTAATCTGGTTGAAAAAATCAACAACCTGGTTACCGGAGCAGGTCTCTCCCGGTCTTTGATCAAGATTGAAATTACGGAGAGGGACCTGTCAAACAACACTATCCGCTTGAAAGAGCAGATCGATCAGCTGCGCTCCTACGGCTTTGAAGTTTGGATGGATGACTTCGGCAGCGGCTATTCCTCTCTCAACGCCTTAAACTACTATAGCTTTGACCTGGTCAAAATCGACATGGTCTTTGTCCGCCACCTGGATGACGGACAGTTAAACCGGCTTTTGATTCCGGAAATCGCCAAAGTTGCCCATAAACTGGGTTTGAAAGTACTGGCTTAA
>LACTIS1119B1_00240 GGDEF family protein
ATGGGAATTGCCGTTTCCAGTTTGATCGCGGTCATTGGCTTTTTAGGCATATTTGACCTCAATTCAGATTATGCAAATATCTCGGTGCTTCCAGTAATTGCCAGTGAATGGGTCTATCTTTTCCTGCTATTAGCCAACCTGCCCAACCTGTTTTTGATCCTTTGGCTGCAAAAACACCCGAAGACTACCGAGCTTGAAATCCGGATCTGCTTTGCCAACCTAGTGGTCAATGCCATCTTGTCTGGTTTTACCTTGTACAGTACCCAGGAGGGGAGCAACTACTTTTTTGAACTGGTCTTGATGATGATGGTCATCTGCGTCTTTCCCTACTATAAAGCCGGGCATGGCTTATCTTTAGTGGCTTTGAGCCTGCTTATGATCTTAGCAATCATTCTTGTCAACCATGTCCAGGTTGCCTGGCAGGATGCCTATGACCTCTTCCTCTTTTACGTTATCGGCCAGGCCTGTATTGTCCTGCGCCGGTACTGGTTTAGGCAGAGCTCTTGGTACAATTACATCCTGCACCAGGCCAACGGGACGCTTTTTGTCAGCAGCCGGACCGATGAATTGACCGGCCTGTATAACCGCCTGGCCTTGCGGGAAGACTTCCCCAACTACAGCAAGCAGGAGGTTGGCGTGGCCATGATTGATTTAGACGACTTCGAGCGCTTTAATGACAATTACGGACATGCATACGGGGACCTGTTCTTGACTAGACTGGGCCGGTATTTGCAAAAGGACTGGATGAATGAGCATTTGCGTTGCTACCGCTATGGCGGGGATGAAATCTTGATTATTGCTTCTGGCTTAGAAGATGGTGATTTTGTTAAAAAATTGCAGATTTTTCAAGCTGAATATGCTAAACTAAACCAGCAATTAGAAGAGCCAGCCACCTTGAGCATCGGCTATGCTACCGGCGCGGTTGCCAATGAAGAAGAGTTGCGGAAAATGATTCAGCTGGCTGATAACTATCTTTACCAAGCCAAAAGACAAGGCAAGAACCAGGTGGTTGGCGCAGAGAAGAAATGA
>LACTIS1119B1_00250 hypothetical protein
ATGTACAGCTACATCCTGAAAGAACAAATCAAGATCTACCGCTACTTGACGGTTGACGCGGTCAACGCCGCTTTGGCGGACTTGCGGCAAAAAGGCATCAGCCTGGAACTGGAGAGCACGGTCGGGACGGCAGGCAACTTCGTGACCCAAAACGACGGGGTGGTGGACCTGGACTACCAGTTAAAGCTGGTCAAGGCGGCCGAAGAAGATCCGGCGGCCCTTCTGGCTAAAATCAGCGCCGGCTTAACTGCCGGTCTGGCCAGCAAGTTCGAAGGCGGCCGGGAAAACAGCCAGGCTTTAACCTTCCTGCACCGCGCTAAGAAGAGCGGCAAGGTCAACTTTAAGTTAGACTTGACCATCATCAAGGAAGAAGACGGGGATGAATACCGCCTGGTCAAAACTGACGGGGGCAAGTGGAGTGAAGCCTTTAATACCCGCTTTTTGACCATCCAGGAAGAAACGATTAAGGACTGGGACCAGTGGGAAGACTTGCGCGAGGATTATCTTCGCCTTAAGAACGCAGATCCGGCTGGTCTGTCAGTCGACCTCTACCGGCAGGCAGTCAACCAGATCTACGGTTAA
>LACTIS1119B1_00260 haloacid dehalogenase
ATGAGTTTGGAGAAAAAGATGGAAGAAAAGAAAAAAATCAAATTAATCGCGACTGACATGGATGGCACCCTGGTCAATGACGCCAAAGAGGTGCCCGCTTCATTTGCCCCTTGGGTCTTAAGCCACCCGGACCAGCAGATGGTGATCGCCAGTGGTCGGCCATATTACACCAATGAAGAGCTTTTCAAGGCGATCAAAGACCACTTGATCTTCATTGGCGACAATGGCGGCTTGATCTACCAGCAGGGGCAAGTCTTGGCCAAGGCCGGCATTACAGCGAAAGAAGCAAAATTCTGCCTGGACCTCTTTAAAGATGAGCCCCTGGCCAATCCGATTCTCTGCGGGGCCAGCCAGGCAATCTGCCACGACCCTAAAGGTGACCGGAACTTTTTAAAGCAGCTGGATACTTACTATATCAAGCGCCGCTATGTTGAAGACCTTGAAGCTGAAGTAAACAGCGATGAAATTATCAAATTCACTGTTTATATCGAAGGCGGGGCCGCTGAAAGCATCTACCGGCAACTGCCGGAAATGCCGGGCAACTTAAGCGCGGTTTTGGCCGGGCCGGAATGGATCGACATCGTTAACAAGGACGCCAATAAGGGAGCAGCGGTAAAGAAGATCGCTGACCTTAAAGGAATCAAGCAAGATGAAGTTCTGGCTTTTGGCGACTACTTAAATGACCTGACCATGTTAGAAGCGGCCGGGACCAGCTACGCCATGGTCAACGGCCACCCGGACTTGAAAAAGATCGCTGACCGCATTGCCCCAAGCAACAATGATGAAGGAGTAATGCAAATCCTGCGAAAATTGTTTGATTAA
>LACTIS1119B1_00270 hypothetical protein
ATGGCAGAAGAAGAACTCAATGAAGAATTGTTTCACCGGAGCATGAGTTTGCAGCGGCAACTGGCCCAAATGGGAATGCGGTATGAGAAGCTGCACGGCGGCGTCCGGGGGCAGAACCGGACTTGGCCCTGCTCAGCAAGAATGAGGGGATGA
>LACTIS1119B1_00280 hypothetical protein
TTGGCCCTGCTCAGCAAGAATGAGGGGATGAAGCAGGCGGAACTGGCCCGCTTTGCCAGAGTAAGGCCATCCTCAATCAGTGAAGTCGTGGACCGTTTGGAGCGGCATGGCTTGATTGAACGGCGCCGGGATAACAGCGACCACCGGGTTTTCCGCCTCTACTTGACTGAAAAGGGCAGAGAGCAAAACGAACGCAACCACTCCAGCTGGCTGGGCTTTGTTGGCGACTTGATGAGTCCTTTAAGTGACGATGAAAAGGCGGAATACCTGAACATCTTGAAGAAACTGGACAAACAGGCATTATTCTTAGAAGAACGCATGGAAGAAGATGCCAAAAAAGAGGGTGAAAACCATGCTTAA
>LACTIS1119B1_00290 hypothetical protein
ATGAAAGAAATCACTTTAAATCAGCTTTATGACATCATGTATTACCATCTTGATCCAAATGGATGGTGGCCTGGCCGCTCTGATTGGGAGGTGATTTGGTCGACAGTTTTAATTCAAAACTTAAACTTCCCATACCAAAAAGAACTATGA
>LACTIS1119B1_00300 dihydroneopterin aldolase
ATGTATACGATCAGAGTTCAAAATATGCAGTTTCATGGGCACATTGGCGTCCTGCCGGAAGAAAAGAAGGTTGGCCAAACCCTTCAAGTTGATTTGGAAGCGGTCATTAATGCAGTGCCGGTTGCCGATCAATTAGCAAGCACGGTTAGTTATGGAGACTTCTATCCGATTGTTGAAAAAATTATTGATGAAAATCACGTCAATCTGGTTGAAACACTGGCTCAGAAAATTTTAACTGCTATTAAGCAATTGGATAGTCGGATTCAGACGGTCACTGTTCGAATCCGTAAATTAAACTTACCGGTTGACGGCGTCTTTAATAATGTGGAAATCGAGATGAAACAATCATGA
>LACTIS1119B1_00310 GTP cyclohydrolase I
ATGATGGAAAATGTCATTTTAAGTTTAGGTAGTAATATCGGTAATCGTGAAGACTATATTAACAAAGCCGTTGCGCTGTTGGGAAACGACCCGGCTATTTTGATTGATAAAGCTTCAAGTTTTTATGAAACTTCACCGGTTGGTAATGTGAACCAGCGGGCCTTTATAAATATTGCGCTTAAAATCGCAACAACTGATTCACCGGAAGACTTGTTAACCAAAATCCACCAAATCGAATTGCATTTGCACCGGACCCGTGATGTACATTGGGGACCGCGGACATTGGATGTTGATATTATTTTTTGGGGTGATCAAAAGATTAAGACTGAGTCGCTGATTATTCCGCATCCGGAAGCATTCAACCGTTTATTTGTGCTGGTACCAACACTGGAAATCGTGACACCTGAATTTCCATTTTATAATCAAATTAAGGCTCAAATTCAAAAACTTCAAAAAGCAGATCAAACAATTCAACTTGTACAAAAGCAGACGCAATCTAAACAAGTCGTTGAAAGCGCAATTCGTCAAATCCTGAATGCGATCGGAGATGATCCGGATCGACCAGGACTGGTGGAGACACCGGATCGCGTCGCCCGGATGTATAATGAAATTTTTTCGTCTGAGGGGTTGGATAATTTTGAAGACTATAAATTGTTTAATACCAAAGAGACTGATAATTCAAAAATGGTGATGGTGAAAAACATTCCGTTTTATTCAATGTGTGAGCACCACATGATGCCGTTTTGGGGGAAAGCCCACATTGCTTACGTACCTGATCACGGGAAAATTATTGGCTTAAGCAAAATCCCGAGACTGGTTGATTTTGTATCACACAAGTTGGGCCTTCAAGAGAAGCTGACTGATGATATTGTTGCCCAAATGAACCGAATTCTGGCACCCAAGGGAGTGGCGGTTATTGTTGACGCCCGGCACATGTGTGTTGAAATGCGGGGAGTTAAAAAGGCTGATTCATTAACTCGGACGATTCGTTTTTCTGGTGTTTTTGAGACCGACCAGGCGTTAAGAATAGCATTTTTAAACTCGATAGGTGATGTTAATGGGAAAACAATCTGA
>LACTIS1119B1_00320 folylpolyglutamate synthase
ATGGGAAAACAATCTGAACTTAATGCTGCCGAGTTTCCAACGTTTCTGTATGATCAGGGCGATCGGATTGGTTTGCTCAAACGGATTTTAAAAGCACTTGGCAGTCCCGATCAGAAATTTAAAATTATTCATATTTGCGGTACTAACGGAAAAGGTTCTACGGCAATGATGATTACCGCAATTCTTAAACAAATGGGTCACCGGGTTGGGCTATTTACCAGTCCCTATATTGGCGAAATTTACAATGGCATTCAAATTGACTTTAAAAATATTCCCAGTCGAATCTTCGAAGAAAAGATCTCGGTGATTGAAAAATTACTGAGAACAGCAGCTTTTGCAAACGTTAAAGTTTCCGAATTCGAAGCGCAATTTTTAATTTCAATGTTGTATTTTGCCGAACAGCGGGTTGATTACGTTGTTTTGGAATGTGGCCTTGGTGGTGAACTTGATGCAACAAATGCCGTGGCCACAACAATGTACTCAATTTTTACCAAGATTAGCTTGGATCATGTTGGCATTTTGGGAAATAATATTACAGAAATTGCAACTACTAAATCTAAAATTATCAGGCACCATAACGTTACGATTACGGCTCAGAATCAGTCGCTTGAAGCGTTGAAGGTATTAGAAAATGAAGCTGTGTCAAAACAGGCTGTTTTTTTGAACGCTGATCGGGTCACAATAACTACCTCGCAACAATCAAAGCGTAGCAAACAGGTTCATTATCGAGCTTTGCTCGGGCACAGTGAGCAAAGCGGTACTTTTCGCTTTGGCTTGGCCGGGACCTATCAGCTTGAAAACTTGGCAACGGTATTGACTTGGTTTTTCGATTTTGTGAAACGAACGTCATTTCAACAGCGACTGGATGATATCTTGGCTCATTCTTTGGCTGAATTGGTTATACCGGGACGTTTTGAAACGGTTCAGCAAAAGCCAAAAATCATTTTGGACGGTGGCCATAATCCTGACGGCATCAGTGCATTTGTTGAGACAGTTCAGAAACTGTATCCAAATGCTCCCAAGCTGATTGTTAATGGTTTTTTAAAGGATAAATCTTATGAAATAGCGGTTCAAAAACTGCTTACTCTCAAAAACAGCTCGTTTATTATCACGCAGCCGGAAAATCAGCAGCGCGAACTTTCACCGGTTAAATTGGCGGATGTTTATCAAAAATATACCAACCGGCAATTTCCAGAATTTACTTCTCCGGTTAAAGCAATTAAGCAAGCTATTATGACGGCTTCACCAACTACTGTTATCTTAGTTGTTGGTTCATTTTATCTATTAAATCCGATTCGAACATATCTACTATCTAGGAGTGAGCATAATGGAAATTAA
>LACTIS1119B1_00330 dihydropteroate synthase
ATGGAAATTAAAAAAATAAACAATCGTCAACAAACATTCAGCGGCAACGTCACCATTTCTTTTAATGCGAATACAGAAGAATTACCCAAATTAATTAATCTGTTAGCTGACCAGACTGCAAATCTTTCGATTTCGTCATCGCTAGTCATCGCGACATTTACGCAAACGGAATTGGCAGCTGTAATTAAAAGTTGGCCAGAAGTGTTTGGCGCTGAAAACGGTACGCTGCAGCAAATCCAGGCAGCTTCTCAAATCCATTTTAAGGGTCGGGGATTTGACTTTGATATTACGACCAAACCAATTATTTATTCGATTTTAAACTTGACGCCGGATTCATTTTACGATGGTGGGAGAAACGCTTCAGTCGATGGGGTTCTGAAACGAATTGAAGCAGACCTGGCAGCCGGAACTGCCATCTTTGAAGTCGGTGGCAAATCTTCCAAGCCACACTTTGATGATATTAGTGCTGAAGAGGAGTGGGGGCGAATTAAACCGTTTTTGGACGCTATTCACAAGCGTTTTCCAAATATTGTTTTGGCAATTGATTCCAATACAAACGCGGTTATTGAAGAAGCACTAAAAAATGGTATTCAAATTATTAACGACATCGATGGCTTTAATTCTCAAGCGAAACTGAATTTAGTTGCTAAATACAAACCTGCTGTTGTAACGATGTTTAATGGTCGGAACTTCAATGAGCAAACGGAAACCTTATCAAAAACAATGATGGATTTCTTTACACATACAATTAGCGATTTAACAGGCGTTGGGCTTGAAAAAGAAAACATTGTGATTGACCCGGGCGTTGGCTTTTCTGATCATAATACGTTAGCTTTTGATCTGATTAAGATGAAATTAACGAAATTAATGGCAGAATTTCAAACACCGATTATGATTGCAATTTCGCGAAAAAGTTTTGCTAAACGGCTGTTTAATTTGGACTCAGCGGATGATCGATTGATTCCAACGCTGCTATTTGAAGCATTTATGACGGTTCTTGGCGGTCGGGTTATTCGGGTACATGATGCAAAAGAAACTCGTCAGCTAATCGATGCTTTTGAGTTGCTAAAAGATCAGCTGTTGCTAAAGTAA
>LACTIS1119B1_00340 dihydroneopterin triphosphate pyrophosphatase
ATGCCTCAAGATCCTTATTTGTCAGTGCTTATTAAGGCGATCGACCAACTTGCTGAGTTGCCGGTTTCATGGTTACCAGATAAAAAGTTGGTTCAAATTAAAGGAATTTTGACCGATCAGCAACCGGCTGGACTTCGAAATCGAAAATCCAAGGTCCACTTGTCTGCCAGTGCGATGGTCTTTTCAAAAAATTCCGGCTTTTTTATTCGTCATCCGTATCTACGAACAACACTGCTGCCGGCCGGCCACGTTGAACCGGGTGAGCTGCCGATTAACTGCGCAGTTAGGGAATTTCATGAAGAAACCGGCTATCAGGTGAAGCTTGAAAGTGGTCAGCTGATTGATGTTAACCTGATTGCAATTCCAGCTAATCCGGTTAAGGGTGAGAGTGCACATCAACACGTCGACTTTCGCTTTCACTTTTTAATTGAACCTGGTACTCGAAGCAATCCCGAATTACCGGTTTCTTTATTAACGCAAGCCCAAGCACCGACAGAGTTTGCAAAGTATTTTGCACTTATCAAATCAGGTGATTAA
>LACTIS1119B1_00350 hypothetical protein
ATGAAAGATTGGACTAAAGAAGAATTAGATGTTTTAAACAAGATAACTACTGTCCAAAACCATCCTAATGATGAGGGCCAGAGTTTTCAAGACTCCCCTATTTGGGTGGTAACCAACAATAATCACGTTTATTTAAGAGCTGGTAAAGGCAAAGAAAGCAAATGGTACAAGTCGGGTTAA
>LACTIS1119B1_00360 MerR family transcriptional regulator
ATGACTGATCTAACTATTACAGATGTTAGTGAAAAATACCACTTAAAACCAGATACCCTTCGCTATTACGAACGGATTGGCTTAATCCCTGCTGTTCCTCGTAAAAAGAATGGCAATCGTTACTATAACGAAGGATTACAAAAGTGGATCGAAATGATTGTTTGTCTGCGGCATTCTGGAATTACCGTAGAAGCATTGGTCGATTACGTTAAGTTAATTGAGCAAGGCGATTCTACCCTGCAAGCTCGTGAAGATTTATTAAAAGAGCAGCTTGCTTTACTTGAAACTAAAAAGAAAAATTTGAATCGTTCAATTAAACGTTTAGAGCATAAAATTTTTCTTTATGAAAGCGGAGAAATCAAGCAAGGTAAAAGTTATTTTGAAGAATATAAGATTTTAGATGATTAG
>LACTIS1119B1_00370 polar amino acid ABC transporter permease protein
ATGAATTGGTCAATCATACAACAAGCGTTGCCATTATTTGCCCATGCATTTGGACTCACGATCTGGTTATCGCTAATAGGGATAATAGGTTCGATTATTGTTGGAATAATCGCTAGCTTAACACAATATTTTAAAATACCGGTAATTAGTCAGATCATGACAGCATATGTTGAACTAGCACGAAATACGCCACTTTTAATTCAATTATTTTTCTTGTACTACGCTTTTCCTGTTATCGGAATAAAAATGTCCGCTGAAGTTTGCGGTATTATCGGTTTAATTTTCCTAGGTGGAGCATACATGGCTGAGGGATTTACTGGTGGTTTCAATGGTATCTCTACTAGCCAAATTAACAGCGGAAAAGCATTAGGAATGAGCCGTTTTCAATTAGCGCGCTATGTTGTTTTCCCACAAGGCTTTGCATTAAGCTTGCCTGCTTTAACAGCTAATATTATCTTTTTAATTAAAGAAACATCCATTTTTTCAGTAATTGCAATCCCTGAATTAACCAATACAGCCTTAGATTTAATCGGCATGTACTACCGTTCCAATGAATACTTACTGATGTTGGTTATTGCTTATGCAATTATCTTGATCCCAGTAATTCTTTTATTAACTTGGCTTGAAAGGAGAGTTCGTTATGGTGCATTCGGGAATTAA
>LACTIS1119B1_00380 amino acid ABC transporter permease protein
ATGGTGCATTCGGGAATTAACGTTTTATTTGAAGGGAGCAATTTTGCTCGTTTAATGGCAGGTCTTTGGACTTCCATTTGGATTGCAGCTATTTCCTTAATAATTGGTTTAGCTATTGGAACTATTTTTGGTATTCTTAGAACTTTGACTAATAAAATCATTCGATTTGCTTTACGAATTTATCTAGAATTCTTCAGAATAGTACCTACAATCGTTTTACTTTACTTGGTCTATTATATTTTGCCACGAACTTTTCATGTTAACTGGCCAGCAACTTGGATGGCAGTTCTGGCATTTTCACTATGGGTAGCAGCAGAATTCAGCGATATTGTTCGCGGAGCAATCGAATCAGTACCTAAGAGCCAGCGTGAATCGGGACTGGCATTAGGCTTAAGCAAAATCCAATTATTTAGATATGTATTATTGCCACAAGCAGTTAAGTTAGAGCTTCCTGCAACAATCAACTTAGCAACCAGAGTAATTAAAACCACTTCACTTTTACTGGTCATCAGCATTATGGAAGTAATTAACGTTGGCCAGCAAATTATCGAAGCAAATAATCAGCAAAATCCAACTGGTGTTTTCTGGGTTTATGGACTGATATTTATCTTATATTTTGTCCTCGACTATCCATTATCAGCTTGGGCTAAGAAATTAACTAAGGAAAGCAAATAG
>LACTIS1119B1_00390 glutamine ABC transporter ATP-binding protein
ATGACAGAAGAAATTTTAAAAGTTGAGCATTTAGATAAGTTTTATGACGACCGTCAAGTTTTACATGACATCAATTTTTCGTTGAAAAAAGGTGAGGTATTAACATTACTTGGACCATCAGGTTCTGGTAAAAGTACTTTGCTTAGAACTTTGAATGGGTTAGAGGATTATAAAAAGGGAGCTATCTATTTCCATGGAAAGAAAATTAATCCTAGTCCAAAAGAATGGCAAATGCTGCGACAAAAAATCGGTATGGTTTTTCAAAGCTATGATCTTTTTCCGAATCTTACTGTGATAGAAAATGTTTTGCTTGCCCCAGTGAAAGTACAAAAACGAAATGAAAACGAGGTTAAAGAAGAAGCAATTAAACTGCTAAAACAAGTGCGATTAGATCAATATCTAAATGCTTATCCTAGAGAATTATCAGGCGGTCAAAAGCAGCGAGTAGCCATCGTTCGTGCATTAGCAATGAGGCCGGAAGTAATGCTTTTGGATGAAATCACTGCATCCCTTGACCCAGAAATGGTACGCGGTATTGAAGAAATCGTTGAACGCCTTTCTAAACGTGACCATATGACGATGATTATTGTTACCCACCAAATGAACTTTGCTTCTAGAATTGCGGACGAAGTACTTTTCTTAGAAAATGGACATATTTTAGAAGATACTCCAGGAAAAGACTTCTTTGATCATCCTCAGACGCAAAGAGCTAAAGAATTCTTAGACAGCATGGATTATTAA
>LACTIS1119B1_00400 amino acid ABC transporter substrate-binding protein
ATGAAAAAGAAAAATATTTTTAACATTATTATGGGTATTGTTGCTCTAATAGTCGTGGTAAGTGCCGCTTATTTTGGTTTTACACAACCTAACTTAAACAGCGGTACTGCTGGCAGCCGTTGGAGCAATGAGAATGGCGTCTCAGAAATCAAACGTCGTGGTTATATCAGAGTTGCAGTTTTTGGTGATTTACCACCATATGGCTGGGTAAATGATCAAGGCAAGAGAGTAGGCTATGATGTTTACTTGGCTCGCAGAATTGCCAAAGATTTAAACGTTAAAATTCGTTTTATACAAGTCAATGCCAACAATCGTGTAGATACTTTAAATTCAAATAAAGCGGATATCGTTTTAGCTAACTTTACAGTAACTCCTGAACGTAAAGATGTAGTTGATTTTGCAAAACCATATATGAAAGTATCAGTTGGAGTAATTTCACCTAAAAATGCTCCAATTAACAGTGCGCAAGAATTGAAGGGCAAGAAGTTAATCGTTACCAAGGGAACAACTGCCGAAAACTATTTTGCAAAGCAATCTGGAGTTAATTTATTAAAGTTTGATTCTAAGACGCAGCAATTCAATGCATTGAAGAATGGTCGTGGTGCAGCTTTAGCTGATGACAATTCTTACCTTTATGCTTGGGTTAAGAAAAATCCTAAGTATGTAGTTGGCATTAAGAGTATTGGACCTCGTCAGTATGTGGCCCCAGCCGTAAAGAAGGGCAATCGTTCACTGCTTAAATGGACAAATCATGAGATTACTAAACTAACGAAGGAAGGCTTCTTTGCACAGGATTATCAAAAAGAATTAGCGCCTTACTTTGGTAAGGATATTAAGCCAACTGATATTGTGTTGAGATAA
>LACTIS1119B1_00410 AraC family transcriptional regulator
ATGGATAAAAATTGTTCCATAAACGCTGTATGTAATAATTTAAATATTTCTCTAAGTTATTTATATACATTGTTTATTAAAAAATCAATCTTTCCCCACGATCTTTTTTTAAAGCAATTAAGAATAAATGAAGCAAAGAAAAAATTATGTAATACAGAGGCTTCTATTGGACAAATTGCTAAAGAAGTAGGATTTTTAAATCAATTTAATTTCACACGTTCTTTTAAAAATAGTTTAGAGTTAAGTCCTGAAAATTATCGTAAAATATATAAAAATAAATAA
>LACTIS1119B1_00420 hypothetical protein
GTGATTTTCCCCTTGATGAACTTTGTTAAAAATGTCGGCTATCTCTTGATTGCCGTCTTTGGGGTCATCGACGTGATCAACGGCGCCATCAGCCTGGGCAATGTCCAGGCTTTTCTCCAGTATTCCAACCAGTTCTCCCAGCCCTTGACCCAGCTGGCCAACATGTCCAGCACGATCCAGCAGACCATTGCTTCTGCCGAAAGAATCTTTGCCGTTCTGGATGCTGAAGACATGGATGAAACAGTCCACCCGGCGTAA
>LACTIS1119B1_00430 hypothetical protein
TTGCGCAGCCATATCGCCATGGTTTTGCAGGATACCTGGCTCTTTACCGGGACAATTTTTGCCAATATCAAGTACGGCCGGGAAGATGCCAGTGATGAAGAGGTTTACCAGGCAGCCCGCCTGGCCAGGGCCGACAGCTTCATCCGCCAGCTGCCGGATGGCTATGAGACCCTGTTAAACGAAGAAGGGACAAATATTTCCCAGGGGTAA
>LACTIS1119B1_00440 hypothetical protein
TTGACGATTGCCTGGGCCTTTTTAGCTGATCCGGAAATTCTCATCCTGGATGAGGCGACCAGCTCGGTTGACACCCGGACGGAAAGCTTGATCCAGAAGGCGATGGTCGATCTGAAGCAGGAAAGAACCAGATTCGTGATTGCCCACCGCCTGTCAACCATCCAGGATGCCGACAAGATCATCGTGATCAACCACGGCCAAATCGTCGAAAGCGGCAACCACCAAAGTCTCTTGGCCAAGGGCGGCTTTTACGCTGACCTCTATCAGAGCCAGTTTTTGGGCCAGGAAATCTGA
>LACTIS1119B1_00450 glycerol-3-phosphate acyltransferase
ATGTTTGCAATGAAATTTGCATTACTATTAATTTTAGCATACTTAATTGGTTCTTTTCCGACCGGTGTTTTGGTCGGCAAGCTCTTCTACCACAAGGATATCCGGGATTACGGGTCGCACAATATCGGGACCACCAACACCTTCCGGGTCCTGGGCCCCAAGGCCGGCACCCTGGTCTTCCTGGTTGACTTCTTCAAGGGGACCCTGGCCACCTGCCTGCCCCGGATCTTCCACTTGGGTGGCCACCACTTGTACCTGATTTTCGGGGCAGCGGCTATTTTCGGCCACGCCTTCTCAATATTCCTCAAGTTCAAGGGCGGCAAAGCCGTGGCCACCACGGCGGGCTTTCTTCTGGGCTACAATGTCCAGTTCTTCGGCCTCTGCGCCTGCTTCTTCATCCCCCTGCTCTTAATCACCAGCATGGTGTCCTTGAGCAGCTTGATTTCAGTCGTCTTGATCTTTATTTCCAGCTTCTTCTTCCATGATACCTTCTTGACAGTCATGTCAGGAGTCCTGGTTGTCCTCATCTGGTGGAGCCACCGGGCCAACATCAAGCGGATTATCGCCGGAAATGAGAACCTGGTTCCCTTCGGCCTTTACTATCATGTTAAGCAAAAGCAGGACAAGGACAAGAAGGAGTAG
>LACTIS1119B1_00460 DNA topoisomerase IV subunit B
TTGCCAAAGAACACCTATGATGATTCTTCAATTCAAATTCTGCACGGGCTGGAGGCAGTCCGCAAGCGGCCGGGGATGTATATCGGGTCAACCGACATCCACGGCTTGAACCAGCTGGTCTACGAAATCGTCGACAACTCCGTCGACGAAGCCATGGCTGGTTTTGGCCAGGAAATCAACGTGACCATCCACGAGGACAATTCCGTGACCGTGCAGGACTTCGGCCGGGGGATGCCGACAGGGATGCATGCCTCAGGCCGGCCAACCATTGAAGTCATCCTTACTGTCCTACATGCCGGCGGCAAGTTCACGGAGCAGAATTACAAGACCTCCGGCGGTCTGCACGGGGTCGGCTCTTCCGTGGTCAACGCCCTGTCCAGCTACATGAAGGTGCACGTGGTGCGTGACGGCAAGGCCTACGAGGAAGAATTCAAAAATGGCGGTCACCCAATCGGCACCCTCCGCTGCCTGGGGGCGACCAAGGAAAAGACCGGGACCACGATCACTTTCAAGCCGGACCCGATGATTTTTTCAACGACTAAGTACAACTACGAGACCATCCAGGAAAGAATCCGGGAATCGGCCTTCCTGCTTAAAGGAGTCAAGTTTACTTTGACGGACGAGCGGACGCCAAACCACCACGACGTCTTCCAGTATGACGACGGGATTGAAAGTTTCGTTTCCTACCTCAACGAAGGCAAGGGGACGATCGGCAAGGTCTTCTGCTTTGAAGGCAGCCAGGACGGGATGGAAATCGAATTTGCCGGCCAGTACAGCGATTCATACTCAGAGAACTTTGTTTCCTTCGTCAACAATGTCCGGACTGCTGACGGCGGCTCCCACGAAGTCGGGGCCAGAAGCGGCTTTACCCGGGCCTTTAACGACTATGCCAAGAAGCAGGGGCTTTTGGGCAAGAAGGACAAGAATCTGGAAGGGTCCGACTACCGGGAAGGGCTCAGCGCCGTTTTGAGCGTCAAGATCCCGGAAGAACTGCTGGAATTTGAAGGGCAGACCAAGGGTAAGCTGGGGACTCCCCAGGCCAGAAGCGCGGTCGACAGCATCGTTTACGAGAAATTGTCTTACTATCTGCTGGAAAACGGGGAATGGGCTCAGGACCTGGTCAAGAAGGCCCTAAGGGCCCGGGATGCCAGAGAGGCGGCCAAGAAGGCCAGAGATGAGTCCAGAAACGGGAAGAAACGGCATAAGAAGGAAGTCCTGTCCGGGAAATTAACCCCGGCCCAGTCCAGAAACCCTAAGAAAAACGAGCTTTTCTTAGTCGAAGGGGACTCAGCCGGCGGCAGCGCCAAGCAAGGCCGGGACCGCCGCTTCCAGGCCATCCTGCCTTTGCGGGGGAAGGTTTTGAATACCCAGCGGGCCAAGCTGGCGGATATTTTCAAGAACGAAGAAATCAACACGATGATCCATACGATCGGAGCCGGGGTCGGGACTGAATTCAAGGTTGAAGACTCCAACTACGACAAGATCATCATTATGACTGACGCCGACGACGACGGGGCCCACATTCAGATCCTGCTTTTGACCTTCTTCTACCGCTACATGCGGCCGATGATCGAAGCAGGCAAGGTCTACATTGCCCTGCCGCCGCTTTACAGAATCAGCAAGAAGCAGACCAACCTTTACGCCTGGACCGATGAAGAACGGGATGAGGATGAAAAGAAGGTGGGCAAGGGCTATGCCCTGCAGCGCTTCAAGGGGCTGGGGGAAATGAATGCTGACCAGCTCTGGGAGACGACCATGAATCCAGAAAGCCGGATGCTGATCCGGGTCAGAATCGACGATGCCCAGTTGGCTGAACGCCGGGTAACCACCTTGATGGGTGACCAGGCTTCCGCCAGAAGAAAGTGGATTGAAGAAAACGTCAAGTTCCGCCTGGGCGAGGAAGAGTCGATCTTAGACAAGGTAAATGATTAG
>LACTIS1119B1_00470 DNA topoisomerase IV subunit A
ATGCCAGAAACTCACGAGCGGATTCGTGAAATGCCTTTGGAACAGGTCATGGGCGAACGCTTTGGCCGCTATTCCAAATATATTATTCAAGAACGGGCCTTGCCGGACATCCGCGACGGGCTCAAGCCCGTGCAAAGACGGATTCTTTACGCTATGTACCGGGACGGCAATACGGCTGACAAGCCTTTTAAGAAGGCAGCCAAGGCCGTCGGTAATATCATGGGTAACTATCACCCGCACGGCGACAGCTCTATCTACGGGGCCCTGGTCTTCCTGTCTCAAGACTGGAAGATGAGAGAGCCATTGATCGAAATGCACGGCAACAACGGGTCCATGGACGGCGACAGTCCCGCCGCCATGCGTTATACGGAATCCCGCCTGGCCAAGATTTCCAATGTCCTGCTGGAGGATATCGACAAGGAAACCGTGCCAATGGTGCTCAACTTCGACGACACCGCCTATGAACCAACGGTTTTGCCAGCCCGCTTCCCTAATCTTCTGGTCAATGGGTCAACTGGGATTTCTTCTGGTTACGCCACGGAAATTCCGCCCCACAACCTGGGCGAGGTTTTAGACGCCACTATCCACTTGCTCAAGCACCCGGATGCCAGCCTGGAAGACCTGATGACCTTTGTCAAAGGGCCAGACTTCCCGACTGGCGGGATCGTCATGGGCAAAAAAGGCTTGCGGGATGCCTACAAGACCGGTAAGGGCCGGATCCAGGTTCGGGCTAAGACCCATATTGAAGAGATCCGGGGCCACCGCCAGCAGATCGTGGTGACGGAAATTCCTTACCTGGTCAACAAGGCCCAGCTGGTTAAGAAGATCGATGAAATCCGGGTCAGCCGGGAACTGGACGGAATCAGCGAAGTCAGAGATGAAACTGACCGCCACGGTCTCTCTATTGTCATCGAACTTAAGAAAGACGCTGACGCCCAGAACATCCTCAACTATCTCTTGAAGAATACTGACCTCCAGGTTTCCTACAACTTCAACATGGTGGCCATTGCCCACATGACTCCAGTCCAAGTGGGCCTTAAGCGGATCCTGGCCGCCTACCTGGAGCACGAAGAAGAAGTCGTAACCAAGCGGACCCAGTTTGACTTGAAGAAGGCCTCAGACCGGCTGGAAATCATCCAGGGTTTGATCAAGGCCATGAGTATCTTGGACCAGGTGATCAAGGTCATCCGGGCTTCTAAGAACAAGGCTGACGCCAAGAAGAACCTGGTAGCGGAATTTGCCTTCACTGACCGGCAAGCCGAAGCCATCGTCTCCTTGCAGCTTTACCGCTTGACCAATACTGACGTTTTGGCCCTGCAGGCTGAAGAAGAAGAACTGACGGGCAAGATCGCAGCTTACGAGAAGATTTTGGCGGACCCGAAAGTTTTGCAAAAGGAAATCATCAAGGAACTCCGGGCCGTCAAGAAGGAATTTGGCTCAGACCGGCGCAGTGAAATCAGCGATGAAAAGGCCAGAGTCGAAGTTGATGAAAAGGCCTTGATCACGGAAGAATCAGTCCGGGTTTTGATCAGCCGCGACGGCTACATCAAACGGTCCTCAATGCGGTCCTTCCAGTCAACTGAAGCCGGCGACAATGGCTTGCCGGAAACTGACCGGGTGGTTTATGAAGGGAGCCTGTCGACTTTGACCAACCTCTACCTCTTCACCAACCACGGCAATTTGATCTACCGGCCGGTGCATGAGCTGGTTGAAAGCAAGTGGAAGGATGTTGGCCAGCACTTGTCCCAGGAACTGGGCCTGGCGGCTGACGAGAGCATCATCCGGGTCTTTGCCTTGGAAGCTTTGGATGATCCAAACCTGGCCTTCCTGTTGGCCACAAACGACGGCTTTATCAAGCAGGTGGCCCTGGCTGACCTGCAGCCAACCAGAACCTACAAGTCTCGGGCAATTATGGCCATGAAGATGAAGGGGGAAGACTCCCGCGTCATTACTGTGGACCTGGTCAAGACAAGTGAAAAGCGAGAAATCACCCTCTTTACCAACCAGGCCTTTGCCCTTAAATATGACATTGGTGAAGTTCCGCAAGTCGGGGCCCGGGCAGCTGGGGTCAAGTCAATCAACTTGAAGGAAGACGATTATGTCGTTGCCTGCCTGGTCACTGACCCGCAATATGAAGACCTGCTCAAGGTGGGTCTGGTAACCCAAAGAGGGGCCTTCAAGCAGATGCCGCTGAAGCTGATCGGCAAGACCAGCCGGGCCAAGCGGGGCGTATTGGTTTTGCGGAACCTGAAGACCAAGCCGCACCGGATCGTGGCCTTGAAGGCTTACGGGCAAAACCATGAGCTGATCTTGATCACTTCCAGCCTGCGCAAGCAGGTCATCCGGACCAGCGACCACCCAGTCGGCGACCGGCAGAGCAACGGTTCCTTCGTCATTGATGTTAAGACAGACGGAGAGGCTAAGGAACTGCTCATGGGCCGGCCTTTACCGGACCATGCCAGGGATGTCGGCCGCTTGCTCTAA
>LACTIS1119B1_00480 manganese-dependent inorganic pyrophosphatase
ATGGAAAAAGAACTGATTTTTGGTCACAGAAACCCAGATACTGACGCAATTGGCACGGCGATTGCCTACTCATACTTCCAAAACCAACATGGCTACAACACTGAAGCCGTTGCTTTGGGTGAAGCCAACGACGAAACTTCTTTTGCCTTGAAGAAGTTCGGCTTTGAAGCACCACGCGTGGTTAAGACTGTCGCAAATGAAGTCAAGGCCATCATGCTGGTTGACCACAACGAACCGCAACAAAGCGTTGAAGACCGGGACCAAGTCAAGGTTACCCACGTCATTGACCACCACCGGATCAGCAACTTCGCGACGATCGACCCCTTGTTCTACCGCGCTGAACCAGTAGGCTGCACTTCCACTGTTTTGTGGGAAATGTTCAAGGAGCAAAACATGGAAATTCCAACCAACATTGCTGGTATCATGCTCAGTGCCATTATTTCCGACACCTTGCTTTTGAAGTCACCAACCACTACTGACATCGACAAGGAAGCAGTTGAAGACCTGGCTAAGATTGCCGGCGTTGACTATAAGGAATACGGTTTGGAACTGCTTAAGGCCGGCACCAACATCGCCGCTAAGTCAGTTGAAGAACTGATCGACCTGGACGCCAAGAGCTTCGAACTGGGCTCAAAGACTGCCCGGATCGCTCAAGTCAACGTTGTTGACGTCCCAGAAGCCCTGGAACGCAAGGATGCCTTCCTGGCAGCCATGGAAAAGGATGCTAAGGCTAACGGCTACGACTTGTTCATGCTGGTAATTACCAACGTTTTGGACTCTGACTCAGAAGTTCTCTTCATCGGGGATGACGAAAGCAAGTCTGCCTTTGCCAAGGCCTTCGGCAAGGAACTGGTTGACTCAGAAGCCCACCTGCCAGGCGTTGTTTCCCGGAAGAAGCAAATCGTTCCGCCATTGACCCGGGCATTTGAAGCTTAA
>LACTIS1119B1_00490 isopentenyl-diphosphate delta-isomerase
ATGTCACAAAGATCTATAAGAAAAGAAGAACATCTGGCTTTGACACAGATGTTTTTTAATGCCCAAAAAACGAATTCCTTTGACCAGGTCCACCTGCTCCGCCCGGCCCTGCCTGAAAGCCAGGTTAACCTGAACGCCGTCAAGACGACCTGGTTTGGCAAAGAGTTAGCCGCCCCCTTCTTCATCAACGCGATGACTGGCGGGTCGGAAAAATCCAGGCAGATCAACCGGCAGCTGGGTGAAATTGCCAATAAGCAGCAAATTGCCCTGGCCTTGGGTTCAGCCAGCATCTTGACCAAGGAAGAAGACCAGCTGGAGTCTTTTTACGTAGCTAGAGAAGCCAATCCAGACGGCCTCTTGTTTGCTAATGTTAATCCTTTAACTCCAGCTAAAGCGGCTGCCAAGATCGTCAAGGATCTGCAAGCAGATGCCCTGCAGATCCACCTTAACGTGGCCCAGGAGATCCCCATGCCTGAAGGCGACCGGGACTTTGTCTGGCTGGACCGGATGCTGGAGATTAAAGAAGCAGCTGGCGTACCAGTCATCGTCAAGGAAGTCGGCAGCGGCCTGGATCCAGTCAGCCTGCAAAAATTGCAGGCAGCTGGCTTTAGCTGGTTCGATATCGGGGGAGCTGGCGGCACCAATTTTGCCCAAATCGAAAATTCCCGCAACCCCCACCCCATGGTGTATTTGAACGACTGTGGCCTGCCAACGGCCCTGGCTGCCCTTTTGGCAGCGCCTTTGACCAAGCAGCTGATCGTCTCTGGCGGGGTCAGAAATCCGCTGGACGTCTTCAAGGGCCTAGCCCTGGGCGGCAAATTTGTAGGCGTGGCCAACCACTTCCTCCACACCCTTTTAAATGAGGGCCTGGATGGCCTGGATGAAGAAATCGGCCGCTGGAAGGAAGAACTGACCTACCTTTTTGCCTTATATGGACAAGGCTGTCTGCCAGTCAAGCAGCCATATTACTTAGACTTGGAACTGAAGAATCAGTTTGACCAGCTTAAGCAATATGCTGGCAAATAA
>LACTIS1119B1_00500 phosphomevalonate kinase
GTGATTACTGAAAAAGCGCCAGGCAAACTTTACATTGCCGGGGAATACGCTGTCTTGGAACAAGATTGTCCAGCCATTCTGGTCGCCCTTGACCAATACGTCAGGGTCTCAATCAAGCCAAGCAGCAGCGACACCGGTTTGATTCACTCCAAGCAATACTCCCAGGACTCCATTCACTGGGTCAGACGGGGGTCAAAGATAGTGATCGACAACCGGGACAATCCATTTGAATACATTCTGTCCGCAATTTCTTTCACTGAAAGATACTGCCTGGAACAGAAGGTCAAGATGGACGTTTACGACTTGTTTGTCAATTCTGACCTGGATTCCGCAGATGGCAAGAAGTATGGCCTGGGTTCTTCAGCCGCGGTCACGGTCGCGACGGTCAAGGCAATCTTGCGCTTTTACGGTGTCCAGGCAAGCAAGGACCTGATTTACAAGCTCTCCACAATTTCTCACTACTCAGTCCAAGGCAACGGCAGCGCCGGCGATATCGCGGCCAGCGTCTACGGCGGCTGGATCGCCTACCAGACCTTCAACAAGCTCTGGCTGAAAGAAGAACTGGCAAGCAAGTCCCTGTCAGCAGTGGTCGGTGAAGCCTGGCCAGGTCTTAAGATCCAGCAGCTGGTTCCGCCGAAGGGCATGAAGCTCTTGATTGGCTGGAGCCAGCAGCCGGCTTCAACTTCCCGCCTGGTTGACAAGACTAACGCCAACAAGAACAACCTGCGGACTGAGTACGCCAAGTTTTTGGCAGACTCACGCAAGTGCGTTTTGCAGATGATCCGCGGTTTTGAAGAAGCCAACATCGCTTTGATTCAAAAGCAGATCGGCATCAACCGCCGCTTGCTGCAGCATTTTGCCGCTATCAACAATATTGCTATCGAAATTCCCCGCTTGACTGAGCTGATCGAAATCGCCAACAAGTTTGGCGGCGCGGCCAAGACCAGCGGCGCGGGCAACGGCGACTGCGGCATCGTCATCGTCAACAAGGACACCGATATTGACCGCCTCCGCAAGGAATGGGTCAAGAACAACATCCTGCCCCTGGAATTTCACATTCACCAATCTGAATTAACTTACTAA
>LACTIS1119B1_00510 diphosphomevalonate decarboxylase
ATGAGTAAAACTGCCCGCGCCCATACCAATATCGCCTTGATCAAGTACTGGGGCAAGAAGGACGCCAAATTGCGCCTGCCGCTCATGTCCAGCCTGTCCATGACCCTGGATGCCTTCTATAGCGACACCAAAATCTCAGACAGCGAGCAAATGTCTTTTAAATTAAACGGCCAAGCCGTTTCCGGTCCAGCCGCTGACCGCGTTTTCGCCTACCTCCGGGCCATGCAGGACCGCTTCGGAGTCAAGGGAAATTTGGCGGTTGAATCGGTCAACCAGGTGCCAACCGCGGCTGGCCTGGCCTCTTCCAGCTCTGCCTTCGCCTCCATGGCAGCGGCTTTTGCCGACCACTACCAGTTAGGCGTTGACCGGCGGGAATTGTCCAGAATGGCCAGGATGGGATCGGGCTCAGCTTCAAGATCTATTTTCGGCGGTTTTTCCGTCTGGCAAAAAGGCGATAGCGACCAGACTTCTTACGCCTACCCGTTGGATGAAGAGCCGGACATGGACCTGCGCCTTTTGGCTGTTGAAATCAACGACCAGGAAAAGAAGATTTCTTCAACCAAGGGGATGGAAATGAGCAAGAGCTCCCCCTTCTACCAGGTCTGGCTGGACAGAAATGACAGTGAGATCAAGGAGATGGAAGAAGCGATTAAGCAGGCTGACTTTAGCAAATTGGGTTCTCTGGCTGAATTAAATGCCAGTGAGATGCATGCTTTAACCTTCACCGCTGTCCCCGGCTTTACCTATTTTGAACCGAATACCATCAAGGCCATCAAGCTGGTCCAAGACCTGCGCCAGCAAGGGCTGGAGTGCTACTACACCATTGACGCCGGCCCGAACGTCAAGGTCCTCTGCCAGGGACGAAATTCTAAAGATATTATTAATTGCTTTGAGTCTTCCTTTTATCGTGTTAAGATTATTGAGGCAGGTTTTGGTCCAGCAGTCACTCTGTTGGACTAA
>LACTIS1119B1_00520 mevalonate kinase
TTGCAGACTTCATGTACTGCTCATGGAAAAGTAATTTTGATCGGCGAGCATTCTGTTGTTTACGGCTATGACGCCCTGGCTATGCCAATTCAGGCCCTGCACATCAAGACGACCGTCAGTGATTATGCCGGCCCGGTCTGGATGGACACCAAGCTCTACCAGGGTCCTTTTTTTGACGCGCCTGCTGACTATAACGGCCTTAAGTATGTCGTCAAGGAGCTTTTGACTAGAAGCGGGAAAAATCCCCAGATCAAGCTTACCTATACCGGGGAAATTCCCATGGAGCGCGGACTTGGCTCCTCAGCTACCGTCGCTTACGGTACTACCGTGGCCTTGAGCCAATACCTGGGCTTGAAGTTAAGTGCAAGTGAAGTTATGGACATCACCAACCAGGCAGAAACGATCAACCACGGCAAGGCTTCCGGCCTGGACGCGGCCACGGTCAATTCCGATTACCTGGTCTTTTTTAATAAACAAAAGGGCGTAAAAAAGCTCTCCTCAAAATTAGGTGCCAGCCTTTTGATCATGGACACGGGCGATTTGGGCAATACCAGAGAAGCCGTCACTATGGTCGCCAAGCTTTTAAATGAGTCACCTGACGCGCAAGTTAGAATGCGCAAGCTGGGACAACTGGCTGACGAAGTCAAAGCTGCCTGGCTTGAGCAAGAACCGGAGACCGTTGGTAAATTCTTCAATGAGGCCCAGGAGCTTTTAGCTTCCTTTAACTTGTCGACAAGCAAGATCGACCGGATCTGCCAGATTGCTGATAAAGGCGGAGCTTTAGGCTGCAAGTTGTCTGGCGGCGGCCTGGGCGGAATCGTCATCGCCCTTTGCAAGGATGCCGCTTCTTGCGAAGAGATTGCCCAGGCTTGCCAAGCAGAAATCAGTAACTACTGGATTGAAGAGATTTAA
>LACTIS1119B1_00530 ATP-dependent helicase/nuclease subunit B
ATGATCAAAATTATAACCGGCAGACAGTCCGATCCCCTGCAAACTGAGATCATCGGCCGGGCTGCCCGCAATTATCTGGCCCAGCCCGGCAAAGATACCTTTATTATTGTTCCAAACCATATCAAGTTTAACACAGAAGTTGCCGCAATAGGCAAAGTCGCCCAACTTCAAGGGCGGGAAGAGACCAGCGTCAAGAACCTGCACGTCCTGTCCTTCTCCCGTCTGGCCTGGTTTTTCTTTAAAAAGGCCGACCTGCTCATGCCTGAAAGCCTGGATGACGCTGCCGCGGCCATGATTTTGGAGCAGATCATCGACAAGCGCAGAGATGAACTGCTGCTTTTCAAAAATTCCCACGCCAATTCCGGCATGATTAAGCAGGTCTACAGCACGATCCTGCAGGTTCATACCGGCCAGCTGGACCTGGGCAATCTTTTGGAGCGGGCAGCCGACCCGGCGGTGGCCTTGGACCTGGATAATGAGACCAGGGACAAGCTGCACGACCTGGACTTGATCTACCAGGACTTTTTAGAAATCGTCAGTGAAAAGCACTTCGCCACCAAGGATGAACTGAACATCCAGCTGAACCAGCTTTTGGCCAGCCGGCCGGACCTGGTCAGCCAGGCCAGCTTCTACGTGACTGATTTCTCCCATTTTTCCATTCAGGAAAAAATGACCATGCAGCTGCTGGCAGCTTTTGCCAGCGAGATGACCTTCGCCTTCAAGACGGCTGACGGCAGCGTGATTGAGCCGGCCGCCGGGGAATACGACTATGTGGTTCAGAAGACGATCAAGGACTTGACCGGCTACTTTTCAGCCCATGACTTTGCCTGGGAGAGAGAAAAAATCGCCAGTCCAGTCAGTCCGGCCAGGGACTTGAACCAGGCCTGGCAGGGACAGGGCCAGCCGGATTTAGATAACCTCCAGCTGGTTAAAGCAGATTCCCGCTACGCTGAAGCATATTTCGTGGCCCGGACCATCTATGACGAGGTGGCTTTAAAGGGCTGCCAGTACCGAGACTTTTTGGTCCTGGCCCCGAATTTGCAGGAGTATGAAACTTACCTGGCTCCGATTTTGCGGCAAAACCAGATTCCCTTCTTTGACGACCTGCAGCAGCAGATGAAGTACCACCCCTTGGTGCTTTTGCTGGAAAATTTGGGCAAGCTCCTCCAGCAGGCAGGAGACACGCCAGCTCTTTTGAGCATCATGAAGACCCGCCTCTTGATCCCTGACTGGTATTTAGAAGGGGATGCAGAAGCCGGGGAAGCCGCGTATTTGCGCGACGTCGACCAGCTGGAAAACTTTGCCCTGGCCCACGGAATCAAGTACAGCCTTTGGCAAAAGCCACTCAAGGACTTTACCAAAGCCCAGGTCATCGCCCTAGACCAAGAACAGTACCAAAAGTGGCTGGACCGCTTGGACAAGCTGCGGGACTTCTTTGTCAGCAAGATCTCCCGGCTTGCCCGCCAGCTGAAGAGTGAAAAAGACAGTATGACCGCCGTCAAGCTCTTTTTTGACTTCTTGGTCAAAAACGGGGTCAGCGCCCGCCTGGAAGCCTGGCGCTTAAAGGCCAGCGAGAGCGGAGACCTGCAGCAGGCCCAGCAGCCGGAGCAGTGCTGGAATCTGCTTTTGTCTTTGCTCAAAGACTACCTCTTGGTCAACCCGGAAAACTTTGCCTGGGCTGACTTCTTTAAGATGCTGACGGCAGCCTTTTCCCAGGCCAATTTCGCGACGATTCCGGCCAGCCTGGACGCCGTCACCTTGTCAGAATACGGGATGGTGCAGACCAGCGGCTACAAGCAGGTCTTCATCATCGGAGCAGCCAATGGCAGCCTGCCGCAAATCAACGACCAGCCCAACTTTTTGACTACGGAAAACCTGGCCAGCCTGGCAGACTTTTTTGACCAGGAGGCCTACCTGGAAGACAGTCAGCAGCTGCGCAACCTGGACCAGGAATACCAATTTGGCAATGCCCTGGCCCTGGCCTCTGACCGGGTCTACATCTCCTATCCGGTGATCAATTCCAATAATGACCTGCTGGATCCTTCCATTTACTACAAGCGCCTGCTGAAGCTGGTTAACGGCCGGGAATACCGGCAAAGGGACCTGCCAGATACCGCTGAAAAAGACCGGACTGAATTTGCCCGCCAGCTTTTGCTCTTTTTGACCAGTCCAAGGGCCAGCTTAGGCTACCTGGCCTATGCTGAGGAAAATTCCGCCCAAAGCCCGCTGGTGGCCAAGCTGGTCGAACTCAGCCGGCAGTATGAGGAAGAAAAGGCTGAGGAAATCGCGGAAGGGATGGCCTATGACAATAACCCGCAAGACATCTCAGAAGACCTGGCTGAGCGCCTGTACGGCAAGGACCTGTTGTCTTCAGTCTCCCAGCTGGAAAGCTACTACCAGAATTCTTTTGAATACTTCCTTAACTATGGCCTCCGCCTGCGGCCCCGGGCAGAAAATGAGCTGAATGCCATCCAGTCCGGTAACTACTTCCACCGGACCTTTGAGCTTTTGCTCAAGGAAATGCAAAAGAAAAATATCGAAATTGACAAGCTCAGCGAGCTGGACTTGGAGCTTTTGCTCAAGCAAGTCAGAAGCAAGATCCTGCAAGAACCACTCTACCAGCAGTTCTTGCGTGATCCTTTCAATGAATATCTTTTCAAGGCCTTTGACAAGACGACCAGTAAGGTGGCCCAAAGCTACCGGCGCAAGCAGCAGGAAAACAAGATGCGGGCTACTTACGGGGAACTGGCCTTTGGCCCGGCTGAAAAGCTGGCCGGCCTGGTCTTGCCTTTGAAGAAGTTTGCCGGCCAGCGGAAGATCAGCCTCCGGGGCAAGATCGACCGGGTCGACCTCTTTAATGGGGACCAGCACGTTTTAGGCCAGCTGATCGACTACAAGTCTTCCGACCACAGCTTCAACCTGGCCCGTTTTGCCAGCGGGGTGGACCTGCAGATGATCGCCTATTTGGACGTTCTGGAGAAGAACCAGGACCTCCTGGCCGGCGGGCGGCAGTTTGACCTCCTGGGGGCCTTTTACCAATATGTCACCCGGAAGCTGAATTCCATCAACTCCTCATCAACTGGCGCCTTGTTTGACAGCAAGCTGCAGCTGAAAGAGAACCTTTTGGGCGGGGAAGACAAGTTGAAATTGTCCGGGGTCTTTATCAGTGAGCCAGCCTGGTACCAGGAAGTCGACAAAGCCCTTGAGAAAAAGGCAAGCAGTCCGGTTTACCGGGGCCTCAAACTGAACAAGAGCGGCGGCTTTGGCAAAAAAGACAACTTCTTCAGCCAAGATGAGATGCAGGAGCTGCTGGAATACGTCGAAGCCTTGATTGAGGACGCGGCCAGCGAGATTTTAAGTGGGAAGATTGCCTTGAATCCTTTCCGGCAAGGCAACAATACCGGCCTGGCATTTAGCGACTACAAGGATATCTTCTACTTTGACCAGCAGCTACCAACTAACTCTTACCGGGACCTGCCAAGCCTTAAAAAGGCAGATCTGCTGGCTTTGGTAGAAAAGCGGCTGCGGCAGAGGAGATAA
>LACTIS1119B1_00540 ATP-dependent helicase/nuclease subunit A
ATGGCTGTAAAATATACACCAGACCAGGCCAGGGCCATTGAAAGCCGGGGGCAGGACATTTTGGTTTCAGCCTCTGCCGGCTCAGGCAAAACCAGTGTTTTGGTTGAACGGGTCATCCGGGAAATCATGGACGACCACTTGGAGGTTAACCAGCTCCTGGTCATTACCTTTACCCGGGCGGCCGCCAGTGAAATGAAGCAGCGGATCAAGCAGCGCCTGCAGGACCGCCTGCAAGAAGAAACAGATGCCAGCCAGGCCGACTTTTTGCGCCGGCAGCTGGCTGAAATCGATACCGCGATTATTTCCACGATCGACTCTTTCTGTTTGGACGTCATCCGCCGCTTTTACTTCGCGATCGACATCGACCCGGACTTCAGCATTTTGACTGACGCCACCCAGATTGAGCTTTTAAAGGAAAGAGCCTTGAGGGATGTCGAAAACGGCTACCTGCAAAATGAGGACCAAGCGAAAAAAGACCGTTTCCTGGCCCTCTATGATGCCTTTGCCGGCGACAGCAACGCCAATTCAGCCAGAGACTTGCTTTTGGATTTATACCAGTTTGCCATGGCCCGGCCCAACTACCGGGCTTGGCTGCAAAAGCTGGCTGACCCTTACCAGCTGGAGACCAGCGACGTCGTTGACAGCGCCCTCTGGCAGGAGAAAATCAAGCCTTACCTGGAGGAAGAATTTTCCAACCTGGCGGACAAGCTGACGGCTTTGATGGCCGAAGCCGACTTTGACCATGAAAAGTTTGCCAAGTACCAGCCAGCTTTTACGGCTTTTGCCACCAGTCTGGCCAGCTACCGGGAGAGCCTGGCCACAGATGATCCCTTTGACCGGCAAAGAGAGCTGCTGGCGGCCTGCCAGTTTGACGGGACCCTGCGGACTAACAAGGAGATCGCCGACTTTGTCGAGGAGGCAAAGGAGGTTAAAGAAGCTGGCAAGCAGCTGGTCTTCAATGTCTATACCAGTTTTTACGCAAGCAGCAATGCTGACCAGCAGGCCCTCTTAGCCAAGGGGGCAGAAATCGCCTCCGCGGCAGCAGAAGTTGAACTGGCCTTTATTGACCGCTTTAACGAATTGAAGCGGGCTGACCGGGTCCTGGACTTCAGCGACATGGAGCAGTTGGCCTATGAAATTCTGACCCAGGACAGTTCAAACTCTGACCTGGCCCGGGCCTACTACCAAAGCCGCTTCAAGGAAATCATGGTCGATGAATACCAGGACACCAACGCCCTGCAAGACGGCTTGATCCAGCGGCTGAAAAAAGCGGGTAAGAACAACCTCTTCATGGTCGGGGACGTCAAGCAGTCAATCTACGGATTCCGCCAGGCGGAACCCAGCCTGTTTATCGCCAAATACGATGAATATGGCCAGGAAAATTCGGCTGGCAAGCAGCGGATTATTTTTGCCGAAAACTTCCGCTCCAGCCAGCCGGTCACCCAAGCTGTCAACTTGATCTTTGACAGCCTCTTAACCAAGGACTTCGGGGGGATTGACTACCAAAAAGAAGGGCAGCTGAAATTCGCGGCTGGCTATGACCCAGAGGCGGCCCTGCCGACTGAAACAGAAGTCCTCTACCAGGAAGATTCATCTGCAACAGATGATGACGGGGAATTGAACCAGGGTGATTTAGCCATGGTCATCAGCCGGATTCAGAAGCTGATCGCTGACCAGACGCCAATTTTTGACCCGAAGACCGGGCAGACCCGGCCGGTCAGCTATGGGGACATCGCCATCTTAACCCGGTCCAAGACCAGCAACCTGGACATCAAGCAGGAATTTGACCGCTACGGGGTCCCGCTCTTTGTCATGGATGTCCAGAACTACTTCCAGACCTTTGAATTGACGGTCATCATGTCCTACTTGAAGATCATCGACAACCCGGACCAGGATATTCCCCTGGTGGCGGTTTTGCGGTCTCCGATTTTTAACTTCTCCAGTTCAGATCTGGCCGAAATCCGCCTGGTCAACAAGAGCGTCAGCTTCTACACGGCTTTAAGAACTTATGCTAAAAAAGATACAGATCTGGCTGCCCGCTGTCGGGACTTTTTGGCCCAATTGCAGGACCTTCGCGACTTTTCCTTGAGCCACCGGATTTCAGAACTGCTCTGGACCATTTACGAGCGGACCAGCTTTTTGGAAATCGTGACGGCCATGACCAACGGCCAGCAGCGCCGGCTCAACTTGACTGCCTTGTACGAAAGAGCCAGCGCCTACGAAAGTTCGGGCTTCAAGGACCTTTACCAGTTCATCAACTTTATTGCCAGAATGCGGAAGAGCCAGAAGGACCTGGCCCAGCCGATCCTGAGCGAAAATGCCGACAACTCAGTCAAGCTGATGACCATCCATGCCTCAAAGGGGCTGGAATTCCCGATCGTCTTTGTCTTGGGCCTGGAGCACCGCTACAATTACCAGCAAGACATTACCGGCAGCTATGTCTTAGATGCCAGCGGCCTGGGCCTGTCCTTTGCCTATCCCTTTGATGAAGCGGAATACCGGGCAGATACTTTGGCTAATGCCTGGCTGAAGATTGCCAAAAAGCAGAAGTTGCTGGAAGAAGAAGCCCGCCTGCTTTACGTAGCTTTGACCCGCGCCAAGCAGAAGCTGATTTTGGCGGCAAATATCAAGCTGCCAGCCAGAACCGACCTGGCGGGCTTGGAAGAGAAGTGGGCCAAGGAAATTTCTGCTGGCCGCCTGCCCCTTTTGGATAAGATGAAGGTAGCCAAGCCCCTTGACTTTTTGGCCCCGGCTTTAGCCCGCGCCAAGCAGGTGAAGCGGCTGGGTGAAAAAGCCGTCAGCGACCTGGCGGCAGGTCAAGAAGGCAGTCTGGTCTTTGTCCACTTTGACCCCAAGAAAGACCAGGCCCAATTGCCGGATAGTGAGGCCGTGGCGGCCAGCGGGGCAGACTTGACGGAAGATGAAGCAGCCGTCTTTAAGCAGGCAGAAAAGCTCTATGCCTTCAGCCAGGGCGGCTATCCTTACTTGGATGCCAGCCGGACCACGGCCTACCAGGCGGTGTCTGAAATCAAGAAGGTTTTTGGCGACCCGATCGAAGACGAACTGGCTGACTCCCACATTTCGGAACTGCAGTCAGCCAACCGCTACCTGCAGCCGATCGATACTGAACCTGACTTCCTCTTCCAAAATACGGTCAGCTCAGCTGAACTGGGGACAGCCAGCCACCTGGTCTTGCAGTATTATGACTATGCCAAAGGCGAGAAGGATGCCATTGACAGCTGCATTGCCGGCCTGGTGGAAAAGGGCCGGCTGAGCCAGACCTTGGCCAGCAAGCTGGACCGCGAAGCCTTGTCTTGGTTTGTCAAGAGCGACTTTGCCAAAGACTTTTACCAGCAGCCTGACCGCCTCCACCGGGAGGAAAATTTTGCCACCATCCTGTCGCCGAAGACTTTATTTAAGGATTTTAGCGATTTTCCAGGAAAAATTTTGGTTCACGGGACAATCGATGGCTATTATGAAGCGGAGAATGGTATCATTTTATTTGACTACAAGACTGACCACGTGAACCCGCGTAAGCAGGAGGAAGCAATTCAGAAGCTGAAAGAGAAGTACCAGGGCCAGTTGCGCCTTTATGAGCGGGCCTTGAATGAATCTGGCCGGCTGCCTGTTTTGAAAAAGTACCTGGTGCTTTTGAGCTGCCGGGAAATTGTTGAAGTTGATTAG
>LACTIS1119B1_00550 ATP-dependent helicase
ATGGCGGATTTTTTTGCCGGCGAAAGCTTCGCGGTTGTTGACTTGGAAACGACCGGGACGCGCAAGGAAGAGGGGGACCGGATCATCCAGTTTGGCTGCGCCATAGTCAAAGATGGTGAAGTGGTTAAAACTTATTCCTTCATGATGAACCCCCACCGGAAAATTCCCCTGGCCGTGACCAATTTGACCGGGATCGACCAGAAGATGGTGGCCGGCCAGGCTGATTTCAAGCACTATGCCCCGAAGATTCGCGAGATCCTGCAGGATACGGTTTTCGTGGCCCATAACGTCAATTTCGACTTTCCTTTCTTGAACTACGAATTGACCAATGCCGGCTTTGAGGCCTTGACCTGCAAGGCGGTTGACACGGTTGAACTGGCCAAGATCGCCTTTCCGACCCTGCCTTCTTACAAGTTGCGGGACTTGACGGCCAGTCTGGAGATCAAGCACGCCAACCCCCACAAGGCGGATTCTGACGCCTATGGGACAGCCGTCTTGCTCTTGAAGATCATCGATAAGCTGGCTTCTTTGCCCCAGGCAACTTTGAATGTTCTGGGCTCTTTGGCCAGTGGCCTTATCCGGGACACGGGGGACGTGATCAAGGTGATTGCTGACCAGTCCCGGCAAAGCAGGCGCAAACTGCCCAAAGACAAGATGCAGGTCCGCAACCTGGTCTTAAAGAGGCAGGAGATTCCGGCGGTTGAACATGGGGAAAATGGGCATTTTCCAGTTAAAGACACGGACAAACGCAAGCTTTTTAAAGGCAAGATCAATTACCGGCAAGCCCAAGTGGACCTAATCGACCGCTTGCACGACTTTGTCGAAGATGCCGGGCAAAGGGTCATGCTGGCTGAAGCGCCAAACGGGACAGGGAAGACTTTTGCCTACCTTTTCGCCTACGCCTACCAGCTCTATTCCGGCAAAAAATTAGTAATTGCTACACCGACCAAGGTCCTCCAGCAGCAGCTCCTAGACCAGGAAATTCCCCAGCTCCTGAGGGTTACGGGTCTTGGCTTAAACGCGGAAATGGTCAAGTCCAGCAGCCACTACCTGGATTTAGACGGTTTTGCCCAGACTCTCTACCAGAATTCGCCCAACAAGGCGACCTTGCTCTTGCAGATGCAGATCCTGGTCTGGCTGACAGAAACGACAACTGGGGACATGGATGAATTGCAGCTGACCAGCCAGCAGCTGCCGATTTTTAACCAGCTCAAGCACCCGGGGGATGCCCGGGTGGCCAGCCAGTTTGCCAGCGTTGACTTCTGGAACCTGGCCCGCCGCCGGCAGGAGCAGGCCAACATTTTGGTGACTAACCACGCCTACCTGGTCAACCACTACATGGACTCCATCTGGGGGCAGAATCCTTACCTGGTGATTGACGAAGCCCACCGCTTCAGCGAAAACCTGCAGACGGCCCGGATGGACTCCCTGCGCCTGGAAGCAATTTGGGGCAGCATCAGTCACCTGCGCAATTTGCTCTACTTTACGGACAATAACCTGCTCAGACAAAGCGAGGAAAATGTCCAGCTGCAGTTCATGCTGGACCTCTTGGACCAGGAAAGCCTGGACTTGATTCACAGCTTGAACCGGATGCAAAAGTACCTCTACCAGCACAAGGGGCAGGCGATCAGCCAGGTTGTTTTGCCCAACAAGAGACTGCAGCTGACCATCCAGGGCCAGGATCTCTTCCCGGAAAACTCTCAGTTCCGGCCACTTCTTAGACAGTTCCAGCAGCAATTGGAGCAGGTCCGGATCCATACCAACCAGATCCGCTACTTGCTGGAGCAGGAAAAGGACCGCTTTTTAACTGATGAGGAATCTTTGCTGGAAGAATTGAATGACCAGGTCGACCTGCTGAAATTCTACACGGGAAAGAGCTACCAGCTGGCTGACCTCTTGAACCAGCCGCTCTTGGATCATTTGGGCTTCGTGGTCAACGTGACCAACCCCGAAGATGCTCTCAGCAGCAACCTCTACTGGCTCAGCCTGGACAGTTCTGAAGAATTGCATAAAATTTACAACCGCTTTGACCATATCAGCATGATCAGTGCGACAATAACTAATGACGGCAATTTTGCCTTTGCCAAGCAGTTCCTGGCCCTGCCAAATTTGGGTGTCTCCTGCTACAAGGGCAAGGCCAGCTTCCCCATGGCTGACCATCTGGAGATTCTGGCCATGGACGAGGGGCAGCCGGAACCAGACAGCCCGCGTTTTTTGGAAGAATTGAAAAATATCCTGACCAAGGACTTAAGCGGGCAAAAGCACGTTTTGTGCCTGTTTACCAATCTGGACTTGATCAAGCAGCTCTACTTTGAACTGCTGAATGATCCCCGGGTTAAGGACTATGAGCTCCTGGCCCAGGGCTTGACGGGGTCAAATGAGCGGATCACCCGCCGCTTTGTCATCGCTGAACGGTCAATCTTGCTGGGGGCGGACAGCTTCTGGGAAGGGGTGGACTTCCACAATTGCGGGATTGACCTGGTTATCGCGACCCGCCTGCCATTTGAGTCCTCGGACCTGCCGGAGGTTAGCCTCAGGCAGCACTACCTGGCTCAAAGAGGCTGGGATGTCTTTCAAGAGGACTCTTTGCCCCGGGCGGTTCTCCGCCTGCGGCAGGGATGCGGCCGCTTGATCCGGGGCGAGGATGATTATGGGCAGTTTTTGATCCTGGATCCCCGGATCTGGACCAAGAGCTATGGCCCGGCCTTTAGGTCCAGCCTGCCGGCTCCGGTGCAAAGGGTTAAAGCGAGTGAGTTAAAAAAGAAGTTGAAGTTCGAGAGGAAAAATGCTTAA
>LACTIS1119B1_00560 hypothetical protein
ATGCTTAACGAAAGAGTCAAAAATTTCTTGCAGTATCTGGCCTGGCTGTTCTTCTTCCTGTTTTTGCTTTACGCGGGAACAGTGGCGGTTGTTGCTAGGGCAGCCAAGCCGTACAGTCAGCAGAAAGAGAAAGTCGCCAAGCTGGTCAAGCAGACTTCCATGAAGCAAATTGACAAGTACTACCATTTGAGCCGGGGCGTCAAGTCATATTCAGCCAGCGGGAAAACCAGTAAGGGTAAGGCGGCTTACTTCATCTACCTGCCGGGTAAACATAAGGCCTACTATTATTCAGCTAGTGACGGCGTCAGCGAAAGCACGGTCAAATCCAGCTTTCAGAAGTCTTACCCAAAAAAGGCCATCAAGGAAGTCAACCTGGGCTGGTATCAAAAGCAGGCCGTCTGGGAAGTCACGGCAGTCAACGCAGACGGCAGCTACTGCTATGCCATCTACAAGTTCAAGGATGGCCAGCTCCTGTCTCTGGTCGATAAGTTATAG
>LACTIS1119B1_00570 DNA replication protein DnaD
ATGGCAAGTTACAATTTTTACCGGCAGCTGGGGGTGACCAGCATCAGCAATGGCCTGATTGCCTACTATGCCCGCCTGGGCTTGACTGAAGCGGAACTGGCCCTGGTCTTGCAGCTGGAAGCTTTCTTTCAAAGGGGAAATTACTTCCCCAGCAATGAAAAAATCGCGGCCAATACCAACTTCAGCGTCAGTGACGTCACCCTCTTGATCCAGAGCCTGCTGGACAAGGGCTGCCTGTCTCTTAGGCAGGCCAAGGACGCCAGCGGGAAGATCAGCAGCTGCTACAGTCTGGATGAGCTCTATGACAAGCTGGACCAGTATTTAGACCAGCATGTCCAGGTCAAGGACATGAACGGGGAAGTGCTAGAAGAAGCTAAAGACAGCTTGAATAACGATCCAATGAGTGACCTGGCCCGGGAGTTTGAGATTGAATTTGGCCGCTACCTGACCCCGATTGAGCGGGAGGAAATCCAAGACTGGCTGAATTTGGACCACTACGCCCCGGAGATTATCAAGTTGGCCCTGCGGGAAGCAGTCTTGTCCCGGGCGATGAGCTTCAAGTATGTTGACCGGATCCTGCTGAACTGGCAAAGAATGAATTTGAAGACCGCCAGCGAGGTCCATCAGTATCTGGAGAGAAACCGTTAA
>LACTIS1119B1_00580 endonuclease III
ATGGAAAAAGACGAAAAGCTCTTGAGTGATGAAGAAGCAAGAAATGTTTTGAAGCAGATTGACGCCATGTTTCCGGAAGCAAAAGGGGAGCTGAACTGGGACAACCGCTTCCAGCTTTTGTGCGCGGTCCTGCTCAGCGCGCAGACGACAGACAAGATGGTCAACAAAGTGACCCCCCAGCTCTTCGCGGATTTTCCGACCCCGGAAGCTATGGCGGCGGCCAGCCAGGAGGAGATCGAGGCAGATATTTCCCACCTGGGCCTCTATCATTCTAAAGCCAAGCACCTCAAGGAAATGGCCCAGACCCTGGTCGCTGAATATGGCGGCCAGGTGCCGGGCAAGAAGGAAGACCTGGTCAAATTAGCCGGGGTTGGCAACAAGACGGCCAATGTCGTTCTGGCTGAAGGCTGGGGAGTTCCGGCAATCGCGGTCGACACCCACGTGTCCCGGATCGCCAAGAAGTTCAAGATCGTGCCGGAGAAGGCAACGCCTTTGCAGGTGGAAAAGCGGCTGGAGGAGCTGCTGCCAAAGGATGAGTGGATCCATACCCACCATGCCATGATCTTCTTTGGCCGCTACAAGATGCCTGCCCGGGCCAAGAACCCGGATCCCTACAGTTATTTAGATTAA
>LACTIS1119B1_00590 haloacid dehalogenase
ATGATAAAATTGATTGCCTTCGATATGGATGAAAGCTTCATGCCGCGGAAGGGATTTTATGAACGTGAGCGCTGGGCACGCGATTTTGACCTGCTGCGCGCAAAAGGCATCCGCGTCTTGCCTATTTCGGGAGACCAGTACCAGCAAGTAGCGGACTTATTCCCGATGAAGGATGAAATGACGATTGGCGGCTTGAATGGTTCGGTGATTTTTGAAAAGGGCCAGCTGATTAAAGCAGACGAGATTGACCGGTCCATGGTTCAAAAAATAATGCAAATAATTGCGGAAAACGGCCTGGCACAACGGACCATGCTCTGCGGGATCAACTATTGTTATTTCTTGGAACAGGCTGATCCGGCTTTTCGCGAAAGAATGAATTTTTATTTCTCGCATAATCAGAATGTATCTAGCTTCCTGCCTTTGCCTGATGACAAATTCACAGAAATCGTGATAGTGCCAGGCACTGGCCGCATGGACGAAACTGAGGAGAAGCTTAAGGCAGTCTGCGCGGAAAAACTACAGATTTTTAACTCGGGAGTAGCCAGCATCGACATTCTGCAGCCCGAAGTGTCAAAAGGTAATTCGCTTAAATGGCTGGCAAGCCGCTATGATCTTTCGCCTGAGGAAATCATGGCTTTTGGTGATGGCCTTAACGACATTGAAATGCTGAAATTCGCGGGCCATTCCTACGCGATGAAAAATGCCCGCGAAGAGGTCAAGGAAGCAGCCAAGTTCGTAACAAAACTGCCGGCTGCGGAGAATGGCGTCCTGGACACGATTGAAAAAGAAGTTTTGGGAATGTAA
>LACTIS1119B1_00600 hypothetical protein
GTGGTCGACTTTTACGGCTCCGTCTCCGTCATGCGTGAAGACAGCAACCCAACAACTATCAACCACTTGCAGGCTGACAGTCCGGAAGGGATGGAAATGGGCCATGTTGACTTAAGAGAGAATTCTGACCTGCGCCGGAAACTGTCAGTTGAGTGCAATATCAGCAAGGATACCGACATTCCGCCAGTATTGATCATTCATGGCACGAAAGACCGGACGGTCAACACAATCGGCAGCACTGACCTTTATCTGAAATTAAAGGAGTGCGGCAAAGAAGCCTCCTACATCTTGATCAAGGGTGCTGACCACGGCGGCGGAGAATTCACCTCCCCAGCTGTTTTAAAGGAACTGGATGCTTTCATTAAACATGTTTTAGCCTAG
>LACTIS1119B1_00610 hypothetical protein
ATGGAAATTAAGAAATGGTCTTATCCGGATTTTCCGGAATACCAAACCGACTTGCCAGACGTAAAATGTATCGACAGTACCGGTGATGAAGTCAGAGTCCTCTACCACCCAAACGTTGAATACGCAGATTATGGCGGACAGAAACTGACCTTGCAGGTCTTGGAGCCATCTACACGGAACCATCCGGATGACTTGACTTACCCGATCTTTGTTTACGTCCAAGGCTCAGCATGGATGAAGCAAAATGTTTACCGCGACCTGCCCCAGATGGCAAAAATCGCCGCTCTTGGCTATGTTGTTGCGGTTGTTGAATACCGGGGCAGCGACGTGGCTTCCTTCCCGAAGCCGATTCTTGATGCCCAAAACGCCGTACGCTTCATGAAGCTGCACGGGCCCGAATACCAGGGCACCCAAAGCGGGTTATTTTAG
>LACTIS1119B1_00620 D-lactate dehydrogenase
ATGACTAAAATTGCCATGTATAATGTCAGCCCGATCGAAGTGCCTTACATTGAAGACTGGGCTAAGAAAAACGATGTCGAAATTAAGACGACCGACCAGGCCTTGACCAGCGCGACTGTAGATTTAGCTGAAGGGTGCAGCAGCGTTTCCCTTAAGCCACTTGGCCCGGTTGACGAAGAAGTTGTTTACCAAAAATTGAGCGAATACGGGGTCAAGTGCATCGGCCTCAGAATCGTTGGCTTCAACACCATCAACTTCGACTGGACCAAGAAGTACAACTTGCTGGTCACCAACGTTCCGGTCTACTCCCCGCGGGCGATCGCTGAAATGACGGTTACCCAGGCCATGTACCTCCTGCGCAAGATCGGGGAATTCCGCTACCGGATGGACCATGACCATGACTTTACCTGGCCAAGTAACTTGATCAGCAATGAAATCTACAACTTGACTGTCGGCTTGATCGGGGTCGGTCACATCGGCAGCGCCGTGGCAGAAATCTTCTCAGCCATGGGGGCCAAGGTCATCGCCTATGACGTGGCTTACAACTCGGAATTTGAACCATTTTTGACCTACACCGACTTTGACACGGTCTTGAAAGAAGCTGACATCGTCTCCCTCCACACTCCCCTCTTCCCATCAACGGAAAACATGATCGGGGAAAAGCAGCTGAAGAAAATGAAGAAGTCTGCCTACTTGATCAACTGTGCCCGGGGCGAATTAGTCGACACTGGAGCCTTGATCAAGGCCTTGCAGGATGGCGAAATCGCCGGTGCCGGCCTGGACACTTTGGCTGGGGAATCCAGCTACTTTGGCCACACTGGCCTGACGGACAGCGAAATCCCAGAAGACTACAAGACCCTGGCCAAGATGCCAAACGTTGTCATTACTCCGCACTCAGCCTTCTACACGGAAACTTCCATCCGCAACATGGTGCAGATCTGCTTGACTGACCAATTGACCATCGCCAAGGGCGGCCGGCCAAGAAGCATCGTTAACCTGTAA
>LACTIS1119B1_00630 dipeptidyl aminopeptidase / acylaminoacyl-peptidase
ATGGACGCAATTAAAATTGAGGACTTTTTGCACTATGCCAACCTGGGCAAGCTCAAGGCCAAGGGTCAGAACCTTGTCTGGGTCAAGGGCCTGCCAGATGCCAGCAAAAAAGACAAATACCTCTACACATTAGAGACCTTGCAAGACGGGCAAGTCAGCCCCCTTAGCTCCTTTGGCCAGGAAAGAGACTTCGTCTTTCTCGATGAAAACACGGTTTGCTTTGCCGGCAACCGGACCAAGGAAAAAGACAAGACCTTTATCTACCAGCTTTCTTTAAAGGGCGGTGAAGCAAGGGAAATCGCTGCTTTAGAGGGAGAAGATTTCGCGCTTGAAAATGTCTTAGCAGATGGCCGCCTGCTCCTCAGCCGGCGGGTTGACTTGCGCGAAGCTGAGAAAAAGCAGGATCCGGATGAAAAAGACTATGTGGTCTTAGATGAGTTCCCGGCCTACTTCAATGGCGACGGCATTATTTCCAAGTTCCGCGACCGCCTCTTTCTTTTTGACCCCGACAAAAAGGAGTTGGCCGAACTCTTAAAAGATGACCCATACTTCAACTTTGACTTCCACTATGTCGATGGCACTGACCTCTACTTCACCGGGGATTCTTACACTCAATCCAAGGCCCACAAGTCCGCCCTCTACCAGCTGGACTTAAACAGCCTGGAATATTCTCAGCTTTTGCCAAAAGAAGAGTGGTCAATTTTTGACATCTGCGTCTTAAAGGGCCAGCTCTACCTGGTGGCCACTGATGAAAAGCGCTATGGCTCGGAAGAAAATCCCCAGTTTTACAAGTATGACCCGGAATTCAAAACTCTTTCTTTGGCCGCGGCTTGGGAAGACTGCTGGGGCGACTGCGTAGACACCGACCTTTGCCTGTTGGACGTGCGGACCAGCCGGGTCTTTGAGGACTGCCTCTACTTCACCACGACTAAGGTCGACCACACGGTATTGGAATGCTTTGACGGCGAAAAAGTTACTCCTGTCTTTGAATTTCCTTCCATCGAATTCTTTGACTTTACCAGTGACGGCACTTGCTGGTTTACTGGTCCAAATGCCAACGAGACCCAGCAACTTTACAGCTACAAGGACGGCCAGCTGACCAAGCACTCTAGCTATAACGAAGATGCCTTAAAGGGCCGCTATGTTGCTTCCGCCGTTCAAGTTGACTATCAAGACTATGCCGGCAATACCCAGCATGGCTGGGTTCTTTACCCGAAAGACTTTGCTGAAAAGCAAAAATATCCGGCCATCCTCGATGTCCACGGCGGGCCAAAGACAGTTTACGGGACCCCCTTTTTCCACGAGATGCAGGTCTGGGCAAGCCAGGGCTACTTTGTCTTCTTTGCCAACATCTATGGCTCTGACGGCCAGGGCAACGACTACGCCAACATGCGGGGGCACTGGGGCCGGGAAGACTACGAGGACTTGCTGAAGTTCACGGACGCTGTTTTGGCAAAAATCCCGCAAATTGACGCCGGCCGTCTGGGCATCACTGGCGGTTCATATGGCGGCTACATGACCAACTGGGTGATCGGCCATACTGACCGCTTCAAGGCTGCCGCCAGCCAGCGGTCCATGTCCAACTGGCTGAGCGATGCCTTTATGTCAGACGTGGGTCCTTGGGATGACCTTTACTCCATTGACGCAAATAACTTGGACGAGAAGCTGGACTATGCCTGGCAGCAGTCTCCTTTGAAATATGCCAAAAACGTGACCACGCCGACCTTGTTCATCCACTCTTTGGAGGACTACAGATGTCCTTTGCCGGAAGGAATGCAGATGTTCCGGGCCCTGCTCTACTACGGGGTGGAAAGCAGAATGTGCCTCTTTAAAGGCGAAAACCACGAGCTCTCCAGAAGCGGGCAGCCAAAACACCGGATCCGCCGCTTAAATGCTAATTTCCCAGGATTTTACAACTCAATGTCTAAAAAGCCTACTATTACGGCCTTTTTCGAAGTTTAA
>LACTIS1119B1_00640 penicillin-binding protein 1A
ATGGCAACAAATAGTCCAGAGCAAAAGAACACGCGGATGGCCCGCTTGCACGCCAATGACGGCGCCAAGAAGGCCCGGCCCGTTCTGCAGGTAATTAAATGGCTTTTTCTGCTCTTTTTCTTGCTGATCATCTCCGGCGTCGGCGTCTTCGCCTACTACGCCAAAGACGCCCCGAGCATCAGCACCTCCAAGCTGCAAAGCGGCGGCACATCAAGTTTTTACACTACCGACGGCAAATTTTTAATGTCACTGGGTTCACAGACCCGGGTCTATGCTAAAGACTCGGCCATTCCCCAGACTTTGAAAGACGCGGTCGTCTCTATCGAAGACAAGCGCTTCTACTCTGAAAGCCTGGGGATCGACCCCCTCCGGATCGTGTCGTCTTTCTTGACCAACGTCAAGAGCTCCAGCACCGTGGCCGGCGGGTCAACCATCACCCAGCAGCTGGTCAAATTGACCTGCTTCTCAACCGCCAGCTCCCAGCGGACCCTGTCCAGAAAGGCCCAGGAAGCCTGGCTGGCCATGAAGGTGGAAAGAGAATACAGCAAGGACCAGATCCTGGAATTTTACATCAACAAGGTTTACATGAACTATGGGACCTACGGGATGGGGACTGCAGCCAACTACTACTATGGCAAGTCCCTCAAGCAGCTGGACCTGGCCCAGCTGGCCCCTTTGGCCGGGATGCCTAACGCCCCGGTGGCCTACAACCCTTACCATTACCCAAAGAAGGCTAAGTACCGGCGGGACCTGGTTCTTAAGGCCATGTATGACAACAAGAAGATTACTAAGAAGCAGTACCTGGCAGCCAAGGCTGAAGACGTACAGAAGGGCCTTAAGAAGCACACGACCAGCACTGAATCCAAGCTGCGCAAGGTCGACGACGCCTACATCAAGGAAGCAATTGCTGAAGTGCAGGCTGACGGCTACGACCCATACAATGACAACCTGAAGATCACCATCAACATCAACCAGGCTGCCCAAAACAAACTTTACTCCCTGGCTAACAGCGGCAGCGTTGCTTTTACCAGCAAGAAGATGCAGATCGGGGCCACGGTCATCAACCCGAAGAACGGACATGTTATCGCCATCCTCGGGGGCCGGAAGTTGCCGTCAGTCCAGCTGGGTCTTGACCGGGCAGTCCAGACAGGCCGGTCAACCGGGTCAACGATCAAGCCGGTCTTAGACTACGCTCCGGCAATTCAATACCTCAACTGGGGAACCAGCCACATCCTGCAGGATACCAAGTACACCTACCCGGGCACTAATATCCAGCTTTATGACTGGGACAACACTTACCAGGGGTCAATGAGCATGCGCTATGCCCTGGTTCAGTCCAGAAACGTGCCGGCCGTCAGAACCTTGAATGAAGTCGGGATTTCCCGGGCCTCGCTTTTTGCCAGAAAATTAGGTGTTAACGTCAGTCCCAATGCTGGTCTTTCAACAGCGATCGGGGCTGACGCCTCCAGCTTGCAGATGGCGGCTGCTTATGGGGCATTCGCGACGATGGGCGTTTACAGAAAGCCGCAATTCGTCTCCAAGATCGAAACGGCTGACGGGCAGGTCCGCAAGTATAACTCTGCTGGCAAGCGGGTCATGAAGAAGTCAACTGCCTACATGATCACCGACATGCTCAAGGGCGTCTTCACCAGCGGGACCGGGACCACGGCCAAGGTCAGCGGGATCTACGAGGCCGGTAAGACCGGTACGGTTAAGTACTCTGACGCCGACCTGGTTAAGTACCCAAGCTACAGCTCAACGCCAAAGGATTCCTGGTTCGTTGGCTACACCAAGCAGTATTCAATCGGAATCTGGACAGGCTATGACAATTTGAAGGACGGGACGATCTCTGGAGTCGGCCAGTACTCAGCCCAGCTGATCTACAAGTACATGATGTCCTACTTGATGGCTGACGAAGACAGCACAGACTGGGAAATGCCAGCAACGGTCGTCAAGAAGCGGATTGTCAAGAATACTGAAGACAAAGTAGCCTCCCCTGGCCAGCCCTACACTTGGGAACTCTTTGTCAAGGGGCATGCGCCGACTGACGCTGACTATGTCTCCTCAAGCAGCGATACTTCTACTGCTTCCAGTTCAGCCGTGACTTCCAGTGTCAAATCAAGCTCAAGTTCCAGCTCCTCGAAGAGCAGCTCGAGTTCCAGTTCAAGCAAGAACTCCTCGTCTTCATCTAGCTCTTCAAGTTCAAGCGCGGTTTCATCAAGCTCGGCAGCTTCTTCCAGCCAGAGCAGCAAGGCGCCGAAGACTGAAGAAAATAAGCAAGACAACAATAATGATAACAAGCAGAATAACTAA
>LACTIS1119B1_00650 recombination protein RecU
ATGGTCAAATACCCAACTGGATCTGTCATGCCCCTCAGGGCAGCTCAGCGGCAAGGAGAAAAGGCCCTGCTTAAAAAGGCCAGCTTTTCTGACCGCGGGATGACCCTGGAGCAGCAGATCAATGAATCAAACCAGTACTACCTTGACGCGGGCATCGCGGTCGTTCACAAGAAGCCGACCCCGATTCAGATCGTCAAGGTCGACTACCCAAAAAGATCGCGGGCTGTCATCCGCGAGGCCTACTTTCGTCAGGCCTCAACGACTGACTACAACGGCGTCTATCAAGGCTACTACCTTGATTTTGAAGCCAAGGAGACGCGCAACAAAACTTCTTTTCCTTTAAAGAACTTTCATGAGCACCAGATCCTGCACCTTGAGCAGTGTTTGGATCAGGAGGGGATTTGCTTTGCCCTTATCGGCTTCATGACCCTGGAGCGCTACTTTGTCACCCCGGCATCTTTTTTGATTCAAGCTTGGCAAAACTGGAAGGCTGCCGGCAAGAGTTCCATGACTCTTGCTGAAATCGAAGCTAACTCCTTTGAAATTAAAAGCGGATTCTGGCCAGCCCTGCCCTATTTAGAGGCGGTCGACCGGATCATTGCGGATAGGAAACAAGAACATGGCAACAAATAG
>LACTIS1119B1_00660 hypothetical protein
ATGCAGCGAATTTGGATCAGCGGCTACCGGGGCTATGAACTGGGAACTTTTGGCGACAAGGATCCAAAAATCACGGTGATCAAGTATGCCATCAAGCAGCGCCTGACCAACCTGCTGGAAGAAGGGCAATTGGACTGGGTCATCACTGGCGCTAACCTGGGCGTTGAGCAGTGGAGCGCGGAAGTGGCCCTGGAACTAAGGCAGGACTATAACCTGCGCTTGGCAGTGATGCTGCCTTATCTTGACTTTGGCAGCCGCTGGAGCGAAAACAACCAGCTTAAGCTGCAGAATTTGAAAAATCAAGCTGACTTCTGGTCCGCAACTTCAAAAGGACCCTACCAGGGCGGCCGGCAATTCCGGGAATACCAGCAGTTTATGTTCCAGCACACCGACCGGGCCCTTCTGGTCTATGACCCGGAATACCCGGGCAAGAGCAAGTATGACTACGAGATGATCGAAAAATACCTGGAAAAGCGGGATGACTACCAGCTGGACCTGGTCGATTATTATGACCTGGAACAGGCCGCCAGGGATTATGAAGAAAATCAAAGGGAATGGTAA
>LACTIS1119B1_00670 cell division protein GpsB
ATGGCAGATTTAAACGATATTAAGTTGTCCGCGCAGGACATTTTGAAGAAGCAGTTCAGAAGCAAGGTCAAGGGCTATGATCCGGATGAAGTTGATTCTTACCTGGACCAAATCATTTCCGACTATGAAACCTTCCAGGACATCATTGAAGACCTTTACGGCCGGATTGGGGAACTGCAGGGGCAGGTAATCGACGCTGAGAAGCAGGTCAAGCAGGAAGAACAGGCCGTCAAGGAAATTCCGGCAGCCGGCCCGGCACCAGCAACTACTGAAAGCAAGGGAGAAGACGTTAAGACCTACGTGCCAAGCTCACAAAGGCAGCGGGCCAACTTCAGCCTGGATAACAGCAGCACTAGCGGCGAAATCTCAACTAACATGGCAATCATTCAAAGACTTTCAACCTTGGAGCGGAAGGTCTACAATCTGGAACAAAGAGTTTACGGAATTCAGGACTTACAAAAGTAA
>LACTIS1119B1_00680 RNA methyltransferase
ATGGAAGAATACCGATTGTACACGACCATGGGGGCGGGTTTTGAAAGCGTCGTGGCCAAGGAACTGCAGTCTTTGGGCTATGAAACGACGACGGAAAACGGCAGGGTCTTTTTTAAAGGCGGCCAGAAAGACATCGTCAGATGCAATTTGTGGCTCAGAACAGCTGACCGGGTCAAGATCCTGTTAAAGGAATTTACGGCTAAAGATTTCTCAACCTTGTATGATGAAACTTACGCTTATGACTGGGCCATGCTTTTGCCAGTCGACGCGGCCTTCCCAGTCAAGGGGTGCAGTGTCCGCTCAAAGCTGCACTCTGAACCGGATGTGCAGTCCATTGTGAAAAAAGCCATCGTTGACAAGATGGCGGCCCAATACCACCGGCGGGGCAAGCTGCCGGAAAGCGGCAGCCTCTACCAGCTGGACGTGCACATTTACAAGGACACTGTCCGCCTGTCGCTGGACACGACCGGGGAAAGTCTTTTCAAGCGGGGCTACCGGATTGAGCACGGGGGAGCGCCTTTAAAGGAAAACTTCGCGGCATCTTTGATCAAGCTGACGCCATATGACGGGACCCATCCATTTATTGACCCGATGTGCGGGTCAGGGACCCTGCCAATTGAAGCAGCCTTGATTGCCCGCAATATTGCCCCGGGCACTTGGCGGAAGTTTGCCTTTGACGACTTTGACTGGTTTGACCCGCGCCTGCACGAAGAGCTGCTGAAAGAAGCCAAGAGCCAGGTTAAGCCAGCTGAAGCGCCAATTTGGGCCAGCGATATCGACCAGTCGATTCTGGAAGTAGCCAAGCTGAATGCCCACAATGCCGGGGTCTTGCAGGACATCCGCTTTAAGCAGGTCGCGGTCAAGGACTTTACCACCGATCTGGAAAACGGGGTCATCGTTTCCAACCCGCCATACGGCAAGCGTTTGAAAGACAAGCAAGGGGCAGAAGAGCTTTACCGGCAGATGGGGGAAGTCTTGCGGCCGCTGACTTCTTTCAGCCAGTACTACTTGACGGAGGACCCGGATTTTGAAAAGTGCTTCGGGCAAAAGGCCAGCAAGAAGCGCAAGCTCTACAATGGTAACCTCCGGGTTGACTACTACCAGTTCTGGGCCAAGCGCAAGTAA
>LACTIS1119B1_00690 3',5'-cyclic-nucleotide phosphodiesterase
ATGCTGATGAAGACGATTACGGATAGTGAACGGCCAGACTTCTGGCTGATCTCAGATCCCCACTTAATTGCCGATGACCTGCATGACTTTGGCGCCAGGTTTAAAAAGATGCGGCAAACCAGCGCTGGCAAGGACATTGCCTACCAGGACCTGGCTCTCAGGGCTTTTGTCAGAAAAGTTGTCAGGGCCAAGCCGGCAGCCTTGATCATTACCGGGGACTTGACCTTTAATGGAGCCAGGCGGTCAGCTGAAAGGCTGGGGGAGATTTTTGCCCCCTTAAAAGAAGCGGGGATTGCCTTGCTGGTTATTCCGGGCAACCATGACATTTATGACGGCTGGGCCAGAAGTTTTAGTGGCAGTGAGGAAAGACGGGTTGCGCAAATTTCACCGGCTGACTGGAAGGAAATTTTTTCCGCCAGCTATGACTTAGCCGCAAGCCAGGAGCCAGGCTCTTTATCATATTCAGTCAACTTGAACCCGCACTGGCGGCTGCTTTTGCTGGACTCCAACCTGTACAGCAGTAAGTTTTCCTGCACCCATCCTATGACCAGCGGGGCCATCGATGATGGGGAAAGGCGGTGGCTGAGCCAGGAATTGGTTGAGGCCAAAAGACTGGGACAAGACGTCCTCTTTTTCATGCACCATAACCTCTACAGTCATAATTCAGTGGTTCATGACGGCTTTAAGCTGAATAATGCCGGTGAAATTGTCCAGCTGCTCAGTCAGTACCCGGTCCGCTGCACTTTTTCCGGCCATATCCATGCCCAGCACATCATGTCCGGCTGGGTTCCGGTTCCCGAGGTTGTTTCATCCTGCTTCGCGGAAAGCGACCAGGGCTATGGGATAGTTGAGCTGACTGCTAATTCCCTCAGCTACCGGCGCCACGCTTTTGACATTGACAATTTTTTAACGGCTGAAGAGAAAAAGCTGCCGCCTTTTGCGGATTTTCACGCTTATCTGAAGGAAGTTTTTGACCGGAGCAATAACCTGCTTCTGCGCCAGCACCTGCTCAAGGGAGCAGCAAAGGACCTGCCGGAAGCCGCGGAAATGCTCAAAAAGATGCACTGGGACTTTTTCACCGGGCAAAGCTATAAGAGTGAAGCCGAGATCGCGGCAATTTATGAATCAAGCGCTTACCGAACTTTGTTGGCAGCCATGCCCAGCATGAAAAGTTATATCAGCTCCCTTTACGAGAGCACCCAGTCAAGTCAAAAGTTAGATTTGACCTGGTGA
>LACTIS1119B1_00700 formate--tetrahydrofolate ligase
ATGGTTAAATCAGATATCGAAATTGCGCAAGCAGCAGAAGAATTGCCTATTACTGACGTTGCGGCCAAGCTGGGCTTGACCAGCCAAGACCTTGAACCATACGGCTACGACAAGGCCAAGGTCAACTGGCAGGCAATCAAGCGTAGTGAAGAAAACGGCCACCTGGGCAAGCTGATCTTGGTGACTTCAATTTCACCAACTCCAGCCGGGGAAGGCAAGTCCACGATGACGATCGGGATCGGGGATGCCATCAATAACCAATTAGGCAAGAAGACGGTGATTGCCTTAAGAGAACCATCCATGGGACCAGTCTTCGGGATGAAGGGCGGGGCTGCCGGCGGCGGCTATGCCCAAGTCATTCCAATGGAAGACATCAACCTCCACTTTACCGGGGACATGCATGCCTTGACCTCAGCCATCGACAACCTGTCAGCCCTGGTTGACAACTACATCTACCAAGGCAACGAACTGGGCCTGGACCCGGAAAAGATCGTCATTAAGCGCGGCCTGGACGTTAACGACCGGACCTTGCGAAAGGTAACGATTGGCCAAGGATCCAAGTTCAACGGGGTTGAACGCCCGGCCAGCTTCCAGTTGACTGTGGGTCACGAACTCATGGCTATTCTCTGCCTGTCCAAGGACATTGCTGACTTAAAGGAAAGAATCGGCAAGGTTCTGGTCGGCTACACTTACGAGGATGAACCAGTCTTTGTCAAGGACCTGGGCTTCCAAGGCGCCATCGCTGCCCTTTTGTCAACGGCCCTGAAGCCAAACCTGGTTCAAACTTTGGAACACACTCCAGCCTTCGTACACGGCGGACCTTTCGCCAACATTGCCCACGGCAACAACTCCATCCTGTCAACCAACCTGGCTCTGCACCTCGGCGACTACGTTTTAAGTGAAGCCGGCTTTGGTTCAGACCTTGGCGGGCAAAAGTTCCTGGACTTCGTTTCCACCAAGCTGGAAAAGAAGCCAGATGCCGCCGTTGTTGTTGCGACTGTCCGGGCCTTGAAGTACCAGGCTGAAAAGTCAACTGACCATTTGAAGGAAGAAAACCTGGACTCATTAAAGGAAGGTTTTGCTAACCTGGACCGGCACATGAACAATGTCCGTTCATACAATATTCCAGTTTTGGTGGTTATCAACAAGTTCCCAACTGACACTGAAGCAGAGCTTGACCTGCTCAAGTCATTGATTGAAGAACAAGGCTTCCCATGCGAAATCGTGACTGCCCATGATGAAGGCTCCAAGGGGGCTAAGGCAGCAGCTGAAAAGATCGTTGAACTGGCCGACAAGAGCGACTACGAAATCAAGCGCAGCTACGACCTGGATGACGACCTGGAAACCAAGATTGAAAAGGTAGCCAAGCGGATCTACCACGCGTCTGACGTGGAATACACGGACAAGGCCAAGGACCAGCTTGTAAAATTGAAGAAGATGGGCAAGGGCAAGCTGCCAGTCATCATTGCCAAGACCCAGTACAGCTTTACTGACAATGTCAAGGAATTGGGAGCTCCTACCGGCTTTACTTTGCATGTCAAGGGCTTGAGCCTCCGCAACGGGGCCGGCTTCGTGGTAGTTTCAACTGGCCACATTCTGGACATGCCAGGCCTGCCAAAGCACCCGGCCGCCTTGGATATTGATGTGGACGAAACCGGCAAGATCAGCGGTTTGTTCTAG
>LACTIS1119B1_00710 lipoprotein signal peptidase
ATGCAGATAGTTGGATTAGTGATCGCTGCCTTGATCGCGGCAGCTGATCAAGCTTTGAAGTATTATATTGTCACAAATTACCGTTTGGGCGAAGTCCACGACGTGATGCCGGGGCTGTTCTCCTTTACCTATATTCAGAATAACGGGGCGGCCTGGAATATCTTGTCCGGCAAAATGTGGTTCTTTTACGTAGTCAGCTCTGTTGCCATTGCCGTAGTGCTTTACTACTACTTCAATAAGAAGTACAGCCACTGGATGTTCAAGTCGGGCCTGGTTCTGGTTTTGGGCGGGATCATCGGCAACTTGATTGACCGCCTGCATTTGAAGTATGTCATCGACATGATTCAGCTGGACTTTGTGCAGTTCAATATCTTCAACCTGGCTGATGCTGCCATTACCGTTGGCGTGATTCTGATCTTCAGCTATCTGTTATTCATTGAAAGGGAGGACTAG
>LACTIS1119B1_00720 ribosomal large subunit pseudouridine synthase D
ATGAACCGTGAGTATGAACTGACCGCGGAAGAAAGCGGCCAGCGGCTGGACAAGTATCTGGCAGGGGAAATGATTGACCTGTCCAGAAGCCGGATCAAGGAATTGGTCCAAGCCGGGGAAGTCCTAGTCAATGGCAAAAAGAGCAAAGTTTCATATAAAGTGCAGAAAGGTGACCTGATCCAGGTCACCGTTTTGCCGCTAGAGCCATTAAAGCTGGAAGCGGAAAATATTCCACTGGATATTGTCTATGAAGACGAAGACATCATCGTGGTCAACAAGCCGCAGGGGATGGTGGTCCACCCGGCCGTCGGCCACCCCAGCCACACTTTGGTTAACGCTTTGCTCTACCATACCAGGGATCTGGCCGACAGTCCGGAAGGCTTCAGACCCGGGATCGTTCACCGGATCGACAAGGACACCTCGGGCCTCTTGATGGTGGCGAAAAACGCGGCTGCCCGAGAATCACTGGAAAAGCAGCTGGCCGCCAAATCCAACAAGCGCCAGTACCTGGCCATCGTCCATGGCAATTTTGCGGAAGAAGAAGGGACAATTGACGCCCCGATCGGCCGCAATCCCAAGGACCGCAAGCAGATGGCGGTGGTGGAAAAGGGCAAGAGCGCGGTAACCCACTTTAAGGTCCTGGAGCAATACCAGGGCTACAGCTTGGTTGAGTGCCAGCTGGAAACCGGCCGGACCCACCAGATCCGAGTCCATATGGCTTATATCGGCCACCCTTTAGCAGGCGACCCCTTGTATGGACCGAGAAAGACCCTGCCCGGCCATGGCCAGTTCCTGCATGCCAAGACCCTGGGCTTTGAGCAGCCATCAACAGGTGAGTGGCTGGAGTTCTCCGTCCAGCCGCCGGAAATTTTCCAGCAGACGGTTGCAGACTTGCGAAAGAAGCGGGTGAAATAG
>LACTIS1119B1_00730 carbamoyl phosphate synthase small subunit
ATGAAACGCTACCTTATTCTTGAAGATGGCAGCTCTTATGCCGGTGACGGCATCGGGGCCATGATCACCGCCACGGGCGAATTGGCCATCCAGACCAGCAATTACGGCTATCAAGAGGTTTTAACTGATCCGTCAAACGCGGGCAAGATTATCGTCTTTACTACTCCGATGATCGGCAGCAACGGGATCAACGCGGTTGACTACGAAAGCATCCAGCCCAGTGTCCGCGGCGTTATTGCCAACGACATTGCCTTGAACATTACCGACAATGACACCTTCCAGTCTTTGGGCGACTTTTTGCAGGAAAAAAAGGTGCCGGCAATTTTTAACGTTGATACCCGGGCCCTGGTCAGAAAACTGCAGAATCTGGGTCCTTTAAAGGCCTCGATCATGGATACCAATGATGAACACGCCTTTGACCAGATCAGAGCCCTGGTTTTACCGAAAAACAAGAGCTCCTTGGTTTCCACCAAGAACGCCTATGCTGCTCCTAACGTCGGCAAGACGATTGCCATTATCGACCTGGGCCTCAAGCACTCCATGCTGCGGGAACTGTCATTAAGACAGGTCAATGCCAATGTTCTGCCATATAACGCGACTGTCCGCGATATCAAGACCCTGCGGCCAGACGGGATTATTATCTCTAACGGCCCCAGCCAGGCCAAAGAGGTTTTGCCATACTTGCGGCAGATTTTGGATGAATATCTGGGCAAACTGCCGATCCTGGGGGTCGGCCTGGGCTTTTTGGCGATTTCAGCCTACCTGGACCTCAGCCTGGTTGACCTGCCCCAGTACCAGAACGGGACCAATTTCCCGGTGATCGGGCAGAGTAGCGGACAGATCTGGCAGACGGCCATGAATATTGCCCAGCTGGTTTTGCCGGATGACACGGCCATGACCTTTAATGAAGAGTATTTCGACCTGCACAATGAGCTTTTAGCCGGCTTCAGCAATGATAAGCTGCAGCTGCTGGCGGTGGCCTTCAACCCGGAAGGAGCCCCGGGGACGGAAGATGCCCAGGTGATTTTTGACGACTTTTTGAAACTGGTGAAATAA
>LACTIS1119B1_00740 carbamoyl phosphate synthase large subunit
ATGCCACGCGAAAATGATTTAAACAAAATCTTGATTATTGGTGCCGGCTCAGCCCTGGTGGGCAATGTGGCCAATACGGACCTCTTGACCAAGAGCGCCATCGAGGCCCTCTTAGAAGAGAATATTCAGGTGGTCCTGGTCAACTCCAATCCAGCCAGCGTCTCAACCGACCCCTTACCGGGCTTGACCGTGTACCTGGAACCGATGACCTTGGACTTCTTGAAGCGGATCCTCCGGATGGAAGAACCTGATGCGATCATGACGGCTTTTGGTTCCTTGATGGCCCTGGACGTGACCAAGAAGCTGCAGGCTGACGGAATCCTCCACCAGATGGGGATCAAGCTGTTAACGATCAATGAGAGGGCCATTTCCATGTCCAACCCGCAAAAGCGGACCCGTTTCTTGGAAGCCAATCATCTGCCAGTCGGGCAGACCTGGTTTTTAGACAGCCTGGGTTTAAAATACGACGAGCACCTGCAAGAGCAGCTGGAAAACAAGCTCTCTTTCCCGATTCTTTTGATCAAAAAGTACTACTTTGAGCGCGATGACCACATCTCCTTTAAGAGCAGCCGGGATTTAGCACAGTACCTGCGCCAGGAGAGCCAGGACCGGGACTTCCGCCCGGCCAGCTACCGGATGACGGAAGACTTGTCTAATTGTGAAGAGGTCATCTTGGACCTGCTCCGTGATGAAGACGGCAACCTCTGTTTTGTCGGAGCGACTGGGTCTTTGGAACCGGTCGGGATTGACTCAGGCGACTCAGTCTTGATTAAGCCGCTTTTGACCATGAACAATGACCAAATTCAAGTCCTGCGGGCAGAAGCTGGCAAGATAGCGGACAAATTGCAGCTGGTCGGCTTTTTAAGCGTCCACTTCGCCATCAGCCACCGGGGTACGGAAATGGTCTACAAGCTCTTGGCCGTTAAGCCACGCTTGACCAGAACCGCCGTCTTGGACCAAAAGACCAGCCTGTATTCAATCGGCTATGTTTTAGCCAAGCTGGCGATCGGGCTGCGGCTGAATGAAGTCACTGACCCGGCCACTGGCCTGTGTGCGGCCATTGAACCGGTCTCTGACACCGTCAGCATCAAGATCCCTTACTGGTCCTTTGCCAAGACCGGCTACAACCACTACCAGCTGGGCAAGCACACCCAGTCAACCGGGGAAGCGGTCGGGATCGGGCGGAATTTTGAAAGTGCCTTTTTCAAGGCCTTGATTTCTAGCAATGATCTGGAAGTCTTGTGGTCAGCTTTTATCAAGGAAAGGGGCAAGAGCGATGAGGTGATCCTGGATGACCTCCGCCACTCTAACGAAATGCACCTGGTCCAGCTGCTGGCTGCCCTTAGCCAGGGTATCGACTACCAGTCCATAAGCAGCGTCTTGAATATTCATCCGGTCTATTACCAGAAGCTGCGCTACCTGGTCAAGATTGGCAGGGACATTGCCCATGCGGGTGAATTAGACCATGACCTCCTTTTAAAGGCCAAGATCCGGGGCTTCTCCAGCGACCTTTTGGCCAAATTGACTAAGATGGACGTCCATGACATATTTCCTTTGCTGAATGAAAAAGACGTCCGGCCATCATTCTCAGCGATTGATGACAGCGCCGGGGTCTACCAGCCCAAAGTCAAGGTCTACTACCAGAGCTACGGGGTGGAAAGCGAACTGGAATTTTCCAAGGATCCGGAGAAGAAAAAGGTTCTTTTGCTGGGGATGCCGCCCTTCCAGGTGTCAGTAACCAGTGAATTTGACTACATGCTCTACCATGCCCTGGCGGCCTTGAAGAAAGAGGGATATGAGACGGTCCTTTTGTCCAACAACGCGGAATCTGCCTCGATGGACTACCACTTGGCTGACCGGGTCTATTTTGAATCGATCAACCTGGACAGCATCATCACCATCTGCGAAGAAGAAGGGATCACGGACGTGGTCACCCAGTTCTCCGGCAAGCAGGTTTCCGCCTTGCGCCTGCCTTTGGTGAGCCACGGTTTGAAGATTTTTGGCCAGCACGAGATCGACCGCCTTTTGCCGATCAGCCACTTAGACACGGCCAAGATTTCTGAGGTCAAACGGGTGCCATATTTGGCAACGACCGACTACCAGGCAGTTTTAGCCTTTGTGGCCCGTGTGGGCTATCCGGTCTTGGTCGGGGGCTATCACCAAAAGAGCAAGCAAAAGTCAGCCGTGGTCTATGACCAGCCGGCCCTGGAGAAATACTTTCGGGAAAACCAGGTTGATGATTATACGATTTCCCAGTTTATCTCGGGGATGAAGTATGAGATTACGGCGATCACGGATGGGGAAGACGTGACTATCCCGGGGATCGTGGAGCACTTGGAGCAGTCCGGGTCCCACGCCTCAGACTCCATCGCGGTTTTTGGCCCCCAGTATTTAAGCAAGGAGCAAGCGGAAAAGCTGCGGGTAGAAACAATCAAGCTGATCCGCAGCTTCAAGATCAGAGGGATCTTCAACCTGCACTTTTTGCTCAAGGGCAGGGAAATCTACCTGCTTCAGATCAAGACTTATGCCGGTCATAATCTGGCCTTCTTGTCCAAGTCTATGAGCAAGGACCTGGTTGAATACGCGGTTAAGGTCTTAGCGGGCAGAAAGATTGCTGATTTAGGCTACCCGAACGAGGTCTGGCCGGTTGACGAGTTCATCCACGTGAAGATGCCAGTCTTCTCCTACCTCAATTACAGTTCAGACAATACTTTTGACTCCAGGATGAAGTCCTCTGATGCTGTGATGGGCAGAGACAGCCACCTGGCCAAGGCCCTTTACAAGGGCTATGAAGCCAGCGACCTGCATATACCAAGTTATGGGACGATTTTCTTCTCAGTCAGCGATGAGGAAAAGCAGGAAGTAGCCAACCTGGCCAAGCGCTTTGCCCGCCTGGGCTTCAAGATCACGGCCACGGAAGGGACGGCCAACATTCTGGCTGAGGCGGGGATTACGACCGGGGTTATCGCCAAGATCCAGGAGGGGTCTAGAAACCTTTTGGAAAGAATCCAGACCCACCGGATCGTGATGGTGGTTAATGTCGTCAACCTGTCGGACTCGGCGGTGGAAGACTCGATCAAGATCAAGGACCAGGCCCTGAATACCCATATTCCGGTTTTCTCCAGCCTGGAAACAGTCCAGTTGATCCTCGATGTTCTGGAATCGCTGGCCTTGACTACCCAGCCAATTTAA
>LACTIS1119B1_00750 hypothetical protein
ATGAGAGCAATTTTGACAACTGTCGGCCAAGACCAGACCGGAATTATTGCCGGCGTAAGCAGCTTTTTAGCTGAAAAAGACATTAACATTCTGGACCTGTCCCAGACGATCATGAACGGCTACTTCACGATGATGATGGTCGTTGATGTCAGCGATGAGGCAGATTTCTCCGCCTTGAGCACGGAATTGAAGGAACTGGGCAAGAAACTGGGCGTGGAAATCAACATCCGGAATGAAAAGATGTACGCGGCCATGCATGAACTGGGCGGAGGTCTGGAATAA
>LACTIS1119B1_00760 hypothetical protein
ATGGACTTGCGGCGGATTATGGAAACGGTCAATATGATCGACAACGAGAACCTGGACTTGCGGACGACGACCATGGGGATCTCACTTTTAGACTGTATTGACTCAGACAGTGACCGAGCCTGCCAGAAGATCTACGACAAGATCACGACTAAGGCGGAAAACCTGGTCAAGGTAGCTAGAGAACTGGAAACTGAATACGGGATTCCGATTGCCAACAAGCGGATTACTGTAACCCCGATTTCTTTGATCGCGGCAGCTTCAGGGGACAGCGACTACGTTAAGTACGCGGTTACCTTGGACAAGGCAGCCAAAGCAGTCGGCGTGGACCTGATCGGTGGCTTCTCAGCTTTGGTGCACAAGGGCTACCAAAACGGCGACCGGGTCTTGATCAAGTCAATTCCCCAAGCTTTAAAGGAAACTGAAAGAGTCTGCTCCAGCGTCAATGTCGGCTCAACCAGAAGCGGGATCAACATGGATGCCGTCAAGGAAATGGGCCAGATCGTCATTGAGAACGAAAAGATCAACCCGCTGAACAACGGCAATCTGGTCATCTTCTGCAATGCGGTTGAAGACAACCCGTTTATGGCCGGGGGCTTCCATGGGGTCGGCGAAAGCGATGTGGCTTTGAATGTCGGCGTATCTGGCCCTGGCGTGGTTAAGACGGCCCTGGAAAAGGTTAAGGGCGAATCTATGGACGTGGTTGCTGAGACCATCAAACAGACGGCCTTCAAGGTTACCAGAATGGGCCAATTGGTGGGCCAGGAAGCTTCTAAGCGCCTGGGCGTCGACTTTGGGATCGTGGACTTGTCTTTGGCGCCAACTCCTGCCCAAGGCGACTCGGTAGCCAATATTTTGGAAGAAATCGGCCTGGAAAGCGTGGGGACCCACGGGACCACGGCCGCTTTAGCCATGTTAAACGATGCTGTCAAGAAGGGTGGCATCATGGCCTGCAGCCATGTCGGCGGTCTGTCTGGTGCCTTCATTCCTGAATCAGAAGATGCCGGGATGATCGCGGCAGCTGAAAAGGGGATTTTGACGGTCGACAAATTGGAAGCCATGACCGCTGTTTGCTCAGTTGGTCTGGACATGATTGCCGTACCAGGCGACACGCCAGCTGAAACCATCAGTGCCATGATTGCTGACGAAGCGGCGATCGGGATGATTAACAACAAGACCACGGCTGTCCGGGTTATTCCAGTACCGGGCAAGGACGTGGGCGACTCAATTGAATTTGGCGGCCTCTTCGGCTATGCCCCGATTATGCCTGTTCACAAGGAATCAAGCGCGGCGATGATCAACCGCGGCGGCCGGATTCCAGCCCCAGTGCACAGCTTTAAGAACTAA
>LACTIS1119B1_00770 fibronectin-binding protein
ATGGCTTTTGACGGCTTATTTATTCATAGCCTGCTTAATGAATTACAAGATGAGATTACTGCTGGCCGCTTACACAAGATCTACCAGCCTTTTAACAACGACCTGGTCCTGGTCTTCAGGAAGGACCGCAAAAACAAGCAGCTTTTAATTTCTGCTAATCCTGAATATCCCCGCCTCTACCTGAGCAAGGAGTCCTTCTCCAACCCTAACGTGGCTCCTCTCTTCGTCATGGTCCTGCGTAAATACCTGGAAGGGTCAGTCCTCCAGGAAATCAGCCAGGTTGGCCTTAGCCGGATCGTCAACTTCTCCTTCAGCAACCGTAACGAACTCGGTGACGAAATACAGCTGATCCTCTCCGTTGAACTGATGGGCCGGCACAGCAACGTCATCCTCTATGACAAGCAAAGCGGCAAGATCATCGACTTGCTAAAGCGGATCAACCCTGACGAAAACCGGGCCCGCCTCCTCTTGCCTAAAGCCAAGTACGAACTGCCCCCGCTGACTCCCGGCATCAACGGCTTTACTTTAACGGAATCAGAATTTTCTTCTTTGAAAAAAGAATACCCAACCCCAGCTGACCTGGCCAAGCAAATGGACGGTCTAGATGGCGATGACCGGCAAGAACTGACCGGCTACTTGGAAGACGACTACTCCTTCTCTTCTCTGAAGACCTTCTACAACCAGTTCTCCTCCCCTAAGGCCTACGTTCTCGTGACGCCAAAGCACAAGCGGCGGATCTACCCTTACCTGCCATATCATTTGGAGATGACCAAGGAAAGCTCCTCCACTAACTTAAATGAAGCCTTAGACGAGTTTTACGCCTACCAGGCCAACCGGGACTGGGTCAAGCATCGGTCCCAGCAGGTGACCCGGGTCGTCACTAATGAGACCAAAAAGCTCCAAAAGAAGCTGAAGAAGCTGGAAAAGCAGCTGGACAGTGCTGAAAACTCCGAAAATCTCAGAGTCTCCGGGGAACTTTTAACCGCCTACTTAAGCCAGGTTAAGCCCGGCATGGAAAAAATCGACCTGCCTAACTACTATGAAGGCAACCAGCCCATGACCATCAAACTTGACCCGGCCCTCTCCCCTCAGCGCAATGCCCAGAAATACTTCAAGCGCTACAAAAAGATGCGGGATTCCATCAAACACGTGACCGAACAGATTGAGATCACGGAAGAAAACCTCCGCTACCTTGATTCCGTTCAAACGGAAATCGACAACGCTGACCCAGAAGACGTCGAAGCCATCAAGGAAGAGCTAATCAACCAAGGTTACCTTAGAGCTGAACAAAAGAAGCGCCGGAAGCCGAAGCTGACCGAAAAGAGCCTAAACAAGTTCAAGCTCAGCTCCGGCAAAACTGTTTTAGTCGGCAAGAATAACCTGCAAAACGACTGGCTGACCCTGAAAAAGGCCGACAAGAACCACTACTGGTTCCACGTCAAGAACATCCCGGGCTCCCACGTTATCTTGACTGACAGCCAGCCAAGTGACAGCGACATCCAGGAAAGCGCGGAGATCGCTGCCTACTTCTCCAAGGCCAAAAATTCCGCCCACGTGCCGGTTGACTATATCCAGGTCAAGCGGATCAAGAAACCTAACGGGGCCAAGCCTGGCTTCGTCATCTACACCGGGCAGAAGTCCATTGAAGTTACCCCGGAAGCTGACGAGATTTTAGCTAAGCGGATTGACTAA
>LACTIS1119B1_00780 transposase
ATGATCGTTCATGAAAGAGGCTGCGTTTATAACTTCAATTTCCATCTGGTTTTCGTGACCAAGTACCGGAAAGAAGTCTTTGACAGCCCAGAAAAGGTTGAAGAAATGAAAGGGCTGCTCCAAAAAAGAGCGGATATGTCGGACATCCAGATCCAGGAAATGGAAGTAATGCCCGATCACGTTTACATGCTTATTTCATTTTCGCCAAAACAGAGGCCCGTAGACGTAGTTAAAGGGCTGAAAGGCTGGACAGCCCGGAAATGGTTCGAGCTGCACCCGGAAACTAAGCAGATGCTGTGGGGCGGCCACCTCTGGTCACCAAGCTATTTTATGAGCACCTTAGGTGACATGAGCAAAGAAGTCGTTAAAAATTACATTGCATCTCAGTACACGGCAGCCATGAAAAAACAGCAGAATGGCAAGTATGGCGAGTTGGAAAGAAAGAGAAGAAAGAGAAACTAA
>LACTIS1119B1_00790 hypothetical protein
GTGTCTAATGAAGAAAAGTATGGATTTACCAGACAATACCATGTGTTGCTGACTGACAAGCAAAAAATCCAGCATGAGAAAGCATTAAAAACGCAGAGTGCTTTGTTTCAGTACGCTTTAAAGTATCTCTTTAAGACTTATGGCGTTAAGCATATCGGACGCCCTATGCCATTTAGCCAAAATCCCATTCAGTACCTACTTAACAAAATTAAAACTGGCTTCATCAAGGACAAGTACGGCTTGGCACGTTGGAAGAAGTCAGTGCTGTTTTTGTCGTCTCATTCAGCCGATGAGTTTCTCAAGACCGTCTACACCAATTTCTCACAGTATCGCAAGCGCTTGGTGAAAGCAGACAAGAGCATGGACGAGAAGGCTCGCTATAACTTCAAGATGAACGTAACTAAAGATAAGTACGGCAAGCACAAGAACCAGCTCCACAAATCTTGGCACCGCAAGGGATCGATCAACTTTTTGAGAAACAGCGCAAGCTTTAGAACCATCACCTCACAAAAGCTTCCAGAAGATTCTAAAGGCGGCATCAGAATTGAGGACAAGCATACAGACAACCACACCTTCTTAACAATAGCCGACTTTGGTACTCTCGAAGTCATTGAAGACTTGTCCGAATTAAACTTGAAGGACATTGCTTTGACAAAGATAAAGAAGCTCCCAGATGGTTCTTACAGACTGCAGCTGACCTTTTCTCTGCCCCGCAAGAAGCAGAAGTCAAAAACTATTCAAGGCTTTGACTGGAACATGGCTGGCAATGAGGCTTTTTGCTCATCAGACGGCAAGAGGATCAAGGTATCAGACGCCGCAATCAAGCGAGCTGACGAATATGAGCAGAAGATCAATGCAATTAAGTCAGCGCGTGATCTGGAAGGAAATGCCCACGGGCAAAGCAAGCTGTATCGCAAGCTTGACCGCAGACAGCAGAAGCTGAATGCAAAGCGCTCGAACATGCTTACCAACGAATACCGCCATCTGGTACACGAAGTAGTCGATGACTGCGACACGATCGTCGTTGAGAAATTGGATGCCTATGAGATGCGCAAGCGTGGGAAAGGCTCTGCTCAAAGAAAAGGCATCAATCGCAGACTGGCGGTCCTTAAGCCATATGAGCTGATGACTATTTTAGAGTCGCTTGTAAAGAAGCAGAACAAGAGGCTTGTCAAAGTGGATTCATTTTGGACAAGCAAGGCATGCCACGACTGCGGATACATCAACAAAGATCTCAAAGTTGGTCAGAAAGAATGGCAGTGTCCAAGCTGCAAGAAGACGGTAGACAGGGATTTAAACGCGGCAAGAAACATATTAGATTGGGGGATTCATCCAGAGCATCACGCAAAGCTGAAGAAAGCGGCCGAAGAAGGGAAAAATCTTATCCCTTCGTCACTGGTGACGGAAGTCTAA
>LACTIS1119B1_00800 transposase
ATGGAAGATGTTCTGGATGTTTATGAGCTTCCTTACAATCCAAAAGTGCCGGTAGTTTGCATGGATGAAAAGCCATATCAGTTGTTAGGCGAAGTCAGAGATTCATGGGCTATGCGTCCAGGTGACAATAAGAAAGTTGATTCAGAATACGTTCGTAAAGGTACATGCAGTATCTTTGCCTTCGTAGAGCCGCTAGGAGGTCGTCATCACACAAGCGTCAAAGAACACCGAACTGCAGTTGACTGGGCTGAAGAAATCAAATATATGGTTGATGAGATGTACCCTGAAGCCGAGAAGATCATTCTTGTCATGGACAATCTTAATACGCACAAGCCATCCTCACTATATAAGGCTTTCAACCCGGAGGAAGCACGTCGAATCATCAAGAAGCTTGAGATTCACTATACTCCCAAGCACGGCAGCTGGTTAGATATCGCTGAAATTGAGCTAAATGTGATGACCAGACAGTGTCTTTCTCGAAGAATCCCGGATATTGAGACACTACGCGAAGAATTGAGCGCTTGGGAAAGTGAGCGGAACAATAGCTATGCTTTGGTAAACTGGCAGTTTAGAACTTCGGATGCACGTATCAAACTTGCATCTTTGTATCCAAAGCTATAG
>LACTIS1119B1_00810 hypothetical protein
ATGACACCTACTTCTAAAAAATACATTGTCAAATTGACCGATGACGAACTTAAGCGACTTAACAAAATTCTTCGCCAGAAAAACACGAGTGAAACGGTGGCCAACAGAATCCGCATTCTTAAAGACATGGATGCCAATCACCCGCCAGTTAAGACCTACAAGCAGTGCGCTTCAGATCATGGAATCAGTGAGCCAACTATCACCAATGTCGTGAGAAAGTTCGTCAATGAAGGCCTTGACGCCACCATCAAGCTTAAGCGCAGTGTTAATTCTGATAACGCACAACGCAAAGTTGATGGACGTGTAGAAGCGAAACTACTCGAAGTGGCCTGTGGACCTGTTCCCAAGGGGCATAGCCGTTGGACTTTGCGTCTTCTTGAAGCACAAATGAAGATAATTCTTGATGAGCCAATCAGTCGCGAAGCCATCCGTAGAACTCTAAAAAAAACAACTTCGACCTCACCGCAGCGACTACTGGTGCCTCCCAAAGAAAGAAGACCCAGAATTCATAGCCTGCATGGAAGATGTTCTGGATGTTTATGA
>LACTIS1119B1_00820 DegV family protein
ATGAAGATCGCATTAGTTACCGACAGTACGGCCAATTTGTCCGCAGCCGAAATTGAAAAGTATAATATCAAGGTCATTCCTATTCCGATTTACATCGATGACAAGGAATACCTGGAAGGAATCAACATCACTTCTGAAGAGCTTTTTGAATCGCAGCGGAGTGGCTCCAGCTTCCCGACCACTTCCAAGCCGAAGATGGGGGACCTCATCACGACTTTTGACAACTTCAAGGATGAGGGTTACGACGCGATCATCTACATTTGCCTCTCCAGCGGGATTTCAGGTTCCTACAGCACCTTGATGGGGATCGCGCAAAGCAACCCGGACTACCACCTGTACCCGTTTGACTCACAAATTACTGTTCGCCTGCAGGGTTACCAAGTTCTGGCAGCAGCTAAGATGATCGAAAAGGATAGCTACAGTCCGGAAGAGATCATCGCCAAGCTGGCTGAAATCAGGTCAACTGTCGACGAACTCTTTATCGTTGATGACTTGAACAACTTGTGCCGGGGCGGCCGTTTGAGCAATGCCAGCGCCTTTATCGGGTCACTCTTGAACATCAAGCCTTTGCTGACTTTCAACGATGAAGCTAAGATCGTGGCTTACGACAAGGTGCGGTCAATGAAGCGGGCAGTTAAGAAGATCGAACAAGAAGCCCTGGAAAAGATCAAGTCATTGGACATCCCAGAAGACAAGCTGCGGATCTTGATCATTCAGTCAAATGACGCCGCGCAAGCTGAAGAAGTCATGAACTACCTCAAGGCTGAAGTGCCAAAGGCTGTCTTTGAAATGGACGAATTTAGCCCGGTTATCGCTACTTACCTGGGCGAAAAGTCAATCGGCATCACTTGGATGATTGACGTTGAACAGATGGAATTCTAG
>LACTIS1119B1_00830 hypothetical protein
TTGACTATTACCCTGCACAAGACCAGCGACTACGAATTTAAGCAGCCGGGCAGCGGCTATGCTTATGAAGCCGCGGCGTCCGGACAAACAGGGACGACCTATTATACTCTTAGCGGAAGCACTTTTTACTTCTACCAAGGAGTAAAAGTAGCAGGCAGTGGCAGCTTTTTGGGCCAGGCAACTAAGCAGGAAATGGCTGACTATATCGTTAAAAAAGGCCAGCTGGCTGAATTCAAGCAGCTGGCCAAGAAGGTCGAGATCGTGGATAAATCTGGACAAACTCAGCGCCTGTCTGAAGGGCGGAGCGGCTACTTTACCATCCCCGCGGAAATGCAGGGAACCTGGTATTCTGCAAGCAACTATGATGGTGAGATAACGCATTCTAAGTACGTCTTTGGCCAAAGTACAATTTTCATTCAAGACGACAAGCATAATAGAAAGGGGCACACTACTACCCTGTACACTCGGGCAGCTAATTATAAAGCACCAGATTATCCATCCGAAGAACAAATAAAAAAGGCAGAAGGCTGGGGCTTGCCGAAAATAGTTCAGTATAAAGGAATTAACTACCTAAACGTCATGGGCTGGTACCAAGGCGCCGGTGATGGTGAATATTTTGCCGTGCATACTGAAAATATTGACGGAAATGATGTCCAAGTTTTGATATGTGCAGGCGGTGCTGGCATCTGGGTTGATGGGATTGCCTACCGCAGCCAAGCGATGGCAGAAAAGATGCAAGATCATCAATTCGATGATTTGAATTACTCTGATTCGGACAATTAA
>LACTIS1119B1_00840 drug/metabolite transporter permease
ATGAAATCAAACAGCAAGTGGGCTGGCCTGGCAGCTGCCGCCTGCATCCTATGGGGTATTTCTGGCCTCTTTGCCAAGGGCCTCTTTAACTTGGACCCCCGCATCACGCCGATTTGGGTTACGCAAATGCGGCAGGTTTGCTCAGGCTTGATCCTGTTAACTGTGGCCCAGCTGACGGGCAAGCATCCCTGGCAGGTATGGAAAGACAAGAAGATCACGGTTCAGCTTCTGGCATATGCAGTTATCGGCGTTCTGCCCTTCCAGTACTGCTTCTTTTTGGTAGTAGCCCAGGCTAACGCGGCAATCGCGACGGTCATTCAGTTTATCGGTCCTTTCTTTGTTTTGGCCTATCTGACTTTGACCAAGCAAGAGGCTCTGCGGCCGATTGATGTCGCGGCCAGCCTGCTGGCTTTTGGCGGAGTCTTTCTCCTGTCAACGCATGGTAATATCCATGACCTTAGGATCGCGCCTCTTACCCTTCTTTTTGGCATTATGTCAGCGGTTGGGGCAGCGGCCAACAGCTTGCTTCCCCAAGCCCTGGTGACCAGGCAGTCCACTATTTCAGTTACTGGCTGGGGCCTGCTTATCTCCGGTTTGATTTTGACGGCAATTCATCCAGTCTGGCCCAGCCTGCCGAGTTCACCGACCGTCTATCTCAACCTGTCAGTCGTCATCGTTATGGGCACGATCATCCCGACGCTTTGGCAAAACCATGCTTTAGGCCATATTTCGGGGATGACGGTCGCCTTTATGGATGCCTTTGAACCGCTGGCCTCCATGATTGGCTCCATCATCGTCTTTCACTTTCAGCCGAAGATGATGGATTACGCGGCATCTGTGATGATTATTTTTGCCGTTCTCGCCCTCAATTGGACCCCGCGGAGCAAAATCAAGGCCCGAGTTGAAAAATAA
>LACTIS1119B1_00850 D-3-phosphoglycerate dehydrogenase
ATGTACCAAATTAAAACTTACAATGCCATTGCTAAAGAAGGTTTAGCCGAATTCGGCGACAACTACCGGATTAACCAAACTGACAATCCAGATGCCTACCTGATCAGATCAGTTGACCTCCATGACCATGAATTTCCCAAGAATTTGAAGGCCATCGCCCGCTGCGGGGCCGGCTACAATAACGTGCCTTTGGACAAGGCCCTGGAAAATGGGACTGTGGTCTTCAACACTCCAGGCGGCAATGCCAACGCCGTTAAGGAATTGGTACTGGCTTCTATGATCATCGCCAGCCGGAACATCGTGGCTGCCGCCAACTGGTCAGCTAACGCCAAGCCGGGCGCGGACATCACCCTGCGGACGGAAAAGGAAAAGACCAGCTTCAACGGAACGGAATTGCTGGGCAAGACGGTGGCCGTGATTGTTTTGGGCCACATCGGCTCACTGGTAGCCAATGCCTGCCTTGATTTAGGGATGAAGGTTGTCGGCTATGACCCATACTTGACGGTTGAAGCCGCATGGCGCTTGTCAGACCATATCAAGCGAGCCACCAGCATCGCTGACGCCGTTAAGGACGCGGACTTTGTGACCGTCCACGTGCCAAAGAACGAGGAGACGACCGGTTTGATTGCTGACGCCAAGATCGCGCAGATGAAGCCAAACACTATCTTGCTCAATTTTGCCCGCCTGGGGATCGTTGACAACAAGGCTGTCGTTGAAGCCTTGGCAGAACACCGCTTGGGCAAGTACTACACCGACTTCAGTGATGCCACGATTTTGCACAACGATGACATCGTCATCATGCCCCACATCGGCGGATCAACGATTGAAGCGGAAATCAACTGTGCCCGGATGGCGGCAAAGCAAACCATCGAATTTTTGGAAACTGGGGACATTATCAACTCAGTCAACCTGCCGAACGTGTCAGCACCGTTTGAAAGCGATCACCGGATCACTTTGATTCACAAGAACATTCCAAACATGATCGGGCAGATCTCAACCTACCTGGCTGGCCGTGGCATCAACATTGAAAACTTGGTCAACAAGGCCAAGGACAAGTACGCCTACACCATGATCGACATCGATGAGATCGACCAGGCGACCCAAGACGAGGTGGTGCTCAACCTGGAACAGATCCCGGCTGTTACCCGCGTCAGAATCTTGACTCACAAGAAATAG
>LACTIS1119B1_00860 phosphoserine aminotransferase
ATGACATGCTACAACTTCGCGGCTGGTCCAGCCATGCTGCCGGTCGAAGTCATTGCCCAAATCAAACAAGACTTGCCAGATTATGCCCACAGCGGCATGAGCGTCATGGAAATCTCCCACCGGTCAGCCCTTTACAAAGAGCTCTACGCGGAAACCAAGGCCAACCTCTTGGAACTTATGAAGCTGGACCAGGCAGAATACGACGTCCTCTTCTTGACCGGCGGGGCAACCCAGCAATTCACCACAATTCCTTTGAACCTGGCCCGCAAGTACCACCGGATCGCGGTCGTGGACAGTGGTCACTGGGCCCAAAGAGCAGTAGAAGACGCGGCTAAAGTACCAGGCCTAACCGTTGAAATCATCGCTAGCTCCAAGGACAACAATTACACTGCTGTTCCGGAAATCCCGACTGAATTTGATCAAGACTACGACTACCTCCACATCACGACCAACAACACTATTATGGGGACGGCCTACAGAGACGACCAAATTCCTAAGACCGACATCCCTATGGTAGCTGACATGTCCTCCAATTTTCTGGGCCAGGAATACGACTACAGCAAATTCGCTGTTATCTACGCCGGAGCGCAGAAGAACCTGGCCCCTGCCGGCTTGACCGTTTTGGTCATCAGAAAGGACCTGTTGGTCAAGCATGACGACCTGCCTGGCCTCTTTGACTTTGCTACTGAAGCCAAGAAGGAATCAGACTTGAACACCCCGCCAGTCTTCCAGGTTTACGTGGCTGGCCTGGCCCTTAAGTGGCTTAAGGAAAAAGGCGGCGTGGCCAGTATTGAAGCCATCAACCAAGAAAAGACCAAGCTCCTTTATGACTGCCTGGCTGACTCCAAGAATTTTGAGAGCAAGGTTGATCCAGACAGCCGGTCAATTATGAACGTGCCTTTTGTCAGCGGCGACCCGGACCTGGACGCGGAGTTTGTCAAAGAGACAACCGCCCACCAGCTGCTTAACTTGAAAGGCCACCGCCTGGTTGGCGGGATGCGGGCAAGCATCTACAACGCCATGCCGCTGGAAGGGGTTCAGGCCCTCTGTGACTTTATTAAGGATTTTGATGCCAAGCACTAA
>LACTIS1119B1_00870 phosphoglycerate mutase
ATGACCACATTCTACTTTATCCGGCACGGGCAAACCTTTGCCAACAAGGCGGGCCTGAAGCAGGGGACCATCAATACTCCCAACACCTACTTGACCGACCTGGGCAAGGAGCAGGCGCAAAAACTGGCTGACCAGTTCGATATCAGCAATTTCGACCGCCTTTTCGTTTCCCCCTTGGTCAGAACCAAGCAGACAGCCGAAATTTTGAACAAGAAGGCCGGCCTGCCGGTTGAAACGGACGACCGCCTGCTGGAGATTTCCTACGGGGACTGGGATGGGCAAAAGAACAGCGAATTGATGGCTGAATACCCGAATTACTTTTCTCCCCTGGTCAATGACGTGACGGAAGACTACGTGCAGGCAGCCCCAAAGGCGGAAAGCTTTGCCCATGTGGAAATGCGGACCGCTGAATTCGTGGAGGAAATCAGCCAAAAGTATCCAGAAGACCAGATCGTGGTAGTGACCCACGGCTTCACGGTCAGATCTTTTGCCATTAATGCCACGGGCGGCCAGGGCCTGCAGATCCTGGAACCAGACAACTGCTCCGTCACCAAGATCCTCGTTGACCCCCTGTCATTTAAGCAGCACCTGGTCTACTACAACCGGACAGTGACTGCTTTTTAG
>LACTIS1119B1_00880 hypothetical protein
TTGAAAAAGTCCAATATCAATGTTGAGGAAAGGATCAGAGAGCTGTCGACCATCAAGGTGCTCGGCTTCTTTGACCAGGAAACCACCCTCTACATTTACCGGGAAACGATTATCCTCTCCATTATCGGCATCCTCTGCGGCTACCTGGCCGGGATCGGCCTGCACACCTTCATAATCACCAGCCTGCCGCCAGACAACGCCATGTTTGACCCGGCGATGAAGATCAGCAACTTCCTCTATTCAGCCTTAATTCCGGCCGTGATCACTGCTTTAGTCGCCTTGATCATGCACAAGAAGATCAAGTCCGTCAACATGCTGGATGCTTTAAAGTCCGTTGATTAA
>LACTIS1119B1_00890 nitroreductase
ATGAAGTTTACGAAATTGTTGAAATCACGTAAGTCAATCCGGACTTATACTGGCAAGTCGGCTGACAAGAAGCAGGTCAAGAAGATCATCGAAGCAGCTGAACTGGCTCCAGTAGCCCGCGGCTTATACGAGAACTACCAGCTGACGATCATTAATGACCCAAAGCTTTTAAAGGAGATCGACCAGGAAGCAGCCATGATGTTTAGCGATCTGGAATCACATCCCTTGTACGGTGTGCCGACCTTGATTTTGGTCTCTGCCAAGAAGCAGGACGAGATGGCCTATGCCAGTGCCGGGATTATTGCCCACAACATGGTTCTGGCTGCTGAAAACAAGGGCCTGGGGGCTTGCTACCTCTTTGGCGCGGCAGCTGCTCTGGCCGCTCACCCAGAAACAGTTATGAAGCTGGACCTGCCAGCCGGCTTCATGCCGGTCTGCGGGGTTGGTATCGGCGAAACTGAAGAAGAACTGACCATCCGCGACCAGAAGCTGGACCGGATCGGCATCAACGAAATTTAA
>LACTIS1119B1_00900 aspartate carbamoyltransferase
ATGACCACTGTTAGCCAAAAACAAGTCGTTGTCGAAACTGAAGACAAGCAAGACAACTTGCTCCGTCTGCCTTACTTTGTCAGCGTTGAACAACTGAGCGCCGACGACGTGCTGCACCTGCTGCAAAGAGCCCAATACTTCAAGAACGGCGGGGAAGTATCAGCCTTGAGCCGGCCGATCTTCTGCACCAACATGTTCTTTGAAAACTCAACCCGGACCCACACCAGCTTTGAAGTTGCTGAAAGAAGGCTGGGCTTGACTGTAATCCCATTTGACCCATCCCACTCTTCAGTCAACAAGGGGGAAAAACTCTACGACACTGAACTGACCATGGCATCTCTGGGCATCGAACTCAGCGTGATCAGACACCCGGAAAACGCCTACTACAACGAAATCATCCGCCCAAAGGAAGGCCAGCACCTGCAAATGGGCCTGGTTAACGCTGGTGACGGTTCCGGCCAGCACCCATCCCAAAGCATGCTGGACATGATGACCATCTACAACGAATTCGGCCACTTCGACGGCTTGAAGATCATGATCGTCGGCGACTTGACCAACTCCCGGGTTGCCCGGTCAAACATGGAAATCTTGAACACCCTGGGCGCGGAAGTCTACTTCTCAGGTCCGGAATACTGGTACGACACTGAAGAATTCAGCAAGTACGGCACTTATGTCAAGAACATTGACAATGAAATCCCAGAACTGGACGTCTTGATGCTGCTCAGAGTTCAGCACGAACGCCACAACGGGGCAGACGCCAAGACTGAACAGCTCTTTGATGCCAAGGACTACAACGCTGCCTACGGCCTTAACCAACGCCGCTACGACATGCTTAAGGATGACGCCATCATCATGCACCCGGGCCCAATCAACCGCGGGGTTGAATGGGACGGTGACCTGGTTGAAGCACCTAAGTCCCGCTACGCTGTCCAAATGCACAACGGGGTCTTTGTCAGAATGGCCATGATTGAAGCTGTTCTGCGCGGACGTAAGTTGGGAGGCCTTGAATAA
>LACTIS1119B1_00910 dihydroorotase
ATGGCCATTTTGCTGAAAAACGGCCTGGTTTACCAGGAAGGCGAATTCATCAACGAAGACGTCTTGACCTCCGGCAGCAATATCCAGGCCATCGGCCTGGATCTGCCAGAAGAGGGTGCTGAAGTCTACGACTTAAAGGGCAAGCTCCTGGCACATGGCTTAGTGGACATCCACGAACACTACAGAGAGCCGGGCTTTACCTACAAGGAAACCATCAAGACGGGGTCTGAAGCAGCGGCCCGGGGCGGTTTCACCATGGTCTGCACCATGCCTAATGTTGACCCGGTCCCAGATGACCTGGAAACTTTTGAAAAGCAGGTTGCTTTAAATGAAGCCAACAGCTGCGTCCACCTCAAGCAATACGGGGCTATTACTGAAGACCTGACCAGTGATAGGGTAGTCGACATGGCAGCCTTGAAAGAAGCGGGGGCTTTTGCCTTTAGCAATGACGGCCACGGCATCCAGCAAGCCGGCACTATGTATGAAGCTATGCAGGAAGCTGCTAAGGTAGGCCTGGCCATCTGTGAGCACATCCAGGATGACTCTCTTTACCATCATGGGGTGATGAATGCCGGCAAGAAGGCGAAAGAACTCGGCCTGCCAGGCATCCTGGGGGTCAGTGAATCTGCGCAATTGGCCAGAGACCTGGTTTTGGCCCAGGCTACCGGGGTTCACTACCATGCCTGCCACGTTTCTACCAAGGAAAGCGTGGAACTGATCCGGATCGCCAAGGAATACGGAATCAATGTAACCGCCGAAGCCGCACCTCACCACCTGCTTTTGAGCGAAGAAGAGATCGACGGCAACAACGGTTACTACAAGATGAACCCGCCGCTTAGATCAAAGGAAGACCAGTTTGCCTTGATTGAAGGAATGCTGGACGGGACGATCGACTTGATCGCGACTGACCATGCTCCGCACAGCCGGGAAGAAAAGGCCGGTGATATGCGGAAGGCTGCTTTTGGGATCATTGGCAATGAAACTGCTTTTGCCTGCCTTTACACCAAGTTCGTCAAGAGCGGGCAAATGGACCTGAGCCTGCTTTTGGACCTCATGAGCTACCAGCCAGCCAAGCTCTTTGGCCTGGACCACGCCGAAAAGCTGGCAGAAGAAGACTACTTGTCCAAGGGGGTTAACACACCTTTCACCGGCCAGGAAGTCTACGGCATGACCGCCTTGACTTTTGTCAGCGGCAAGCTGGTTTACAAGAGCAAACATTTTGCCGACTAG
>LACTIS1119B1_00920 tyrosine recombinase XerS
ATGGAAACCAAGAAATACCTCTCCCTCATCGACCGGGAAATGGCCCAGATGCCAGACTTCGTCAAGGAATACCAGCTGGAAACAAGGCACTCTCTGACCACCAGCTACCAGTACTTAACGGAAATCCGCCGCTTTTTCTCCTGGCTAATCGCTGAAAATTTGACCCAGGCGAAAAGTCCCAGCCAAGTGCTGCCAAGCGACCTGGAAAAATTGAGCCGGAGCGATGTCATGCTCTACCTGGATAAACTGGAGCACAGCAGGAACAAGCAGGGCCACCTCAACTCTCCGACGACCGTCAACCGGTCGCTCAACGCCCTGCGCTCCTTGTACAAGTACTTGACGATCACGGCTGACAAGAACAATGGCGAGCCTTATTTTGACCGCAATGTCATGCTCAAGATCAATTCCCTTCCTTATACAAGCACCTTGAACTACCGGGCTCATGCCTTAGAAGCTCACATGTACACCGGCAACTTGAAATACCAGTTCATGGACTTTTTGGACCAAAAATTTGCCGGCCTCTGCAGTGGACGCGCCCTTTCTTCTTTTAAGCAAAACAAGGAACGGGACATGGCAGTCATCGCTTTGATCTTAGGCACGGGAATCCGGGTTTCTGAATGCGCCGGGGTTGACATGAAGGACCTCAACTTAAAAGAGGCAACTTTAGATATCACCCGGAAGGGCGGACAGAGAGACTCAGTGCCAGTTGCTGACTGGACCCTCCCCTACCTGGAAAAATACCTGGCAATCCGGGCAGACCGCTACAAAGCCCCAGCCACTAACAAGGCCTTTTTCTTAACCAGCTACCACCAGGAATGCCGGCGGATGACGACCAATGCCATCGAAAAAATGGTTGGCAAGTATTCTGCTGCCTTCGGCCACCCTCTCACCCCTCACAAGCTCCGCCACACGGTCGCTTCTGAACTCTATCAGGCGACCAAGGACCAGGTCATGGTCGCCCAGCAACTGGGGCAAAAAGGCACCTCAGCCACCGACCTATACACCCACGTTGACCAAAGAGAGCAACGGGCCGCCCTCAATGCCAGCGCCAAACAAAATAAGTCCTCCTCTAATTAG
>LACTIS1119B1_00930 glycerate kinase
ATGCTCAAGTTTATTACAGCCAGCGACAGTTTCAAGGAAAGCTTGTCAGCCAAAGAGGCCTGCCAGGCCATGGCAGATGGGATCAAGCGGGTCTTTCCCGAGGCCGAAGTCGTCCAGGTCCCCATGGCAGATGGGGGCGAGGGGACGGTCGATGCAATCTTGTCTTGCATCCCCGGGGAAAAAGTTGCAAAGGAGGTTACCGGTCCCGATGGTAAAAGGCTCTTGGCCAGCTATGGTCTGATCAATGACGGGGAATGCGCGGTGATCGAGACAGCCGCGGCCAGCGGCCTGGGCTTGCTTGTGAAAAAGGACCGCGATCCAATGACGGCAACTACTTTTGGGACCGGGGAGCTGCTGCTTGACGCGTTGAAGCGGGGCGTTAAAAAGATTATCGTGGGCTTAGGCGGCAGCGCGACTAACGATGGCGGTGCCGGCCTGGCTCAGGCTTTAGGGGTTAGGTTTTTAGATAAAAATGGCCAAGAGCTGCCTTTTGGCGGAGGAAGTTTAGACCAATTAGCCAGAATTGATACCAGCGGCTTGGCTTCCCGCTTAAAAGAAGTTGAAATCATTTTAGCTAGTGACGTGACCAATCCTTTGACCGGACCCAATGGAGCATCTGCGGTTTTCGGCCCTCAAAAAGGTGCGGACAAGGAGATGGTCCAGAAGCTTGACGCTAGCCTTCACCATTATGCGGCCGTGATCAAGGAGCAAGTTGGAAAAGACGTAGAGAACGTTCCTGGCAGCGGGGCGGCTGGCGGCCTGGGAGCGGGCTTTTTGGCCTTCAGCAAGTGCCAGATGAAGGCGGGCGCCCAGATCGTGATCGAGGAGAGCCATTTGGCGGAAAAGATGCGGGATGCTGACTATGTCTTTACGGGCGAAGGCGGGATTGACTTCCAGACTAAGTTCGGTAAGACACCCTATGCCGTGGCCCAAGTTGCCAAAAAGCTTGGCATACCGGTTTTTGCCCTGGCTGGCCAGGTTGGAGATGGAATTGACAGCTTATATGAAGCAGGCTTTACGGGGATTTTTGGCATCCTGCCAGGCATCTGCAGCTTGCCGGAAGCTTTAGCAGGCGGAGGAGATAATTTAGCCCGGACCAGTGAAAACGTAGCCCGGGTGGTTAAGGCCGCCAGGGTAAATTTACAGTAA
>LACTIS1119B1_00940 hypothetical protein
ATGAAAGAATACTATTTAGACTATCGTGAGCAATTGCGGAACATCTTGGATGCTTTGGACGACAGCAGTACATCCTTGCGCCTGGGAGCAGTCGCGATTGAAAACCTCTTGACCCTGGCCAGAGTTGACCTGGATGATGAAGACGAAGAAGATTCTGATGACTCAGACGCCATTGAAGAGGCAGATAGCGGCGGGGACCTAGCAGATGCGGAAACAGAGGACAAGAAGCAAGTTAAAATCATCCGTCATGAAGAACCAACCGCCAGCATCCATTACCAGCTCTGCCGCTTTTCCCGGGCCTTGAAGGGCGGGAGTTTTTACACCGAGCAGGGGACCTGGTCAGCGAAATCAATGAGCTGGCCGTCAGAAATCTGA
>LACTIS1119B1_00950 hypothetical protein
GTGGAAAACGGCGATTTAGTCGAGCTGGACCCCAGCAGCCAGCCGCCCCGGGTAGTCCGGATAGTGGAAGCCGGCAACCTGCCTTCTAATATCGCGACTATGTCATATGGGATCGTAGAAAGGGATCCTGCCGGCGACTTGTATGTCAGCCGCAGCGCCATGGGCGAGAGCTTAAGTGAGTGCGCGGGCATTGACCGCTATGAGGTGCCGGCGATCATTGATGCTGGGCAAACCGAGACAGGTTTTGTCCATGAAGGCGACATCGTTGACTTGGCCTGGTATAAGAACAGCCCCAGCAATATGATCGTCCGCTGGGTCAGCCAGACTAAGGGAGAAGAAGTTCCAAAGAAGGAAAAGCCGGCTGAAAAGAAGGTAAAAAGCGAAAAGGAAGACAAGGATAAAGAAGAGAGCGTAACGACCTTGAATTTCGACCTGCATGGCCGCAGCGTGGCGGTGGTCATCGGCAATGAGCTCCGCAGCCAGGAGATTCAGAAGATGGTAGGTGAGCACCACGGCCGCTGCAAGGTGATTGACGCCTTCAAGTTTTCCGATACGGAATCTTTTTACAAGCACGCTCTCAAACGGGCTGACGTAACGGTCATGGTGCAGAATTTGAACAAGCACTCAACCAGCAAGGCTCTGCGCAAGTATGCCAAGCGGCTGGCCATCGCGGATTCGGCGGGCCTATCTTCAATTGAGCGGGCGATCTACCGGGCTATGCACGGCCTGCCGGCTTATGAGACATCTACCCAGCCGATCGCGTATCCGGTCAAGGAGCTGGCACTTAGTTAA
>LACTIS1119B1_00960 TPR repeat-containing protein
GTGGCATTTTTGGACAAAGATAAATTCGTTGAGATGGATAAAATCGGCGCGACCTGGCTGGACCGGGGGGCGGAAGCCTACCGGCAGGGGGACTATGAACTGGCCCTGCAGTTCTATAAAAAGGCAGCTGACTACGGCAATTCCCAGGCTATGTGCAATTTAGGCTACATCTATGCATTTGGCCGGGTTGGTGAAGCCGACCAGGAGAAGGCTTTTTACTACTTTACTCAAGCATCTTTGGCCGGCAACCCTAATGCCTTCTATAAGCTAGGGGATGCTTTCCGTTTTGGCAATTTTGTAAAGAGAAATGACGAGATTGCCTTTCAATATTACAGCATGGCGGAAAGCGTCCTGCAGGAAGGCGACGAAGACATGATTGCTGAGATCGACTACCGCCTGGCCCTTTGCTACGCCAGAGGCTGGGGGACTGACCAGCGCTGGGACCTGGCCTTGAAGTATATCAATGAGGCTCAGCTTTATGCCTACCGGAACAAGCAGCATGGCGAGTACAACTGGCAAAAGACCAGCCAGCGGATCAACAAGCTGCATGATGAGATAGTAAGCGAAATGTTTTCATAA
>LACTIS1119B1_00970 hypothetical protein
ATGTTCGCGATTGTATCTGCCTATCACCAGTTTGAGCAAAAGACTTTCAGCGGCGACCGCCTTTTTATGTTCTATACCTTTTTCGTGGTTTTTCTGGGGATCGTGATCCAGGAAGTGAGCGGGGAAGCTTTGCGGACGACCTTATTGACGATTGCGATCGGGACGTGCTTTTTGCTGAACCGCTTCAACAATTTTACCCAGAAGGTCAGCGATCTGAAGATCAGCCGGGACAATGTCGTGATGCGGACGGATATTATGACGGGGATAGTAAAAGCAAGAAGGTTGACAGTCCGCGCCTGCTTGGGTTACCTTAAACTTGTATTCAGGGGATAG
>LACTIS1119B1_00980 hypothetical protein
ATGTTTACGATTTCGTTTTTGATTTTACTGATATTTTTAACTATTGTGGCTGTGCCGGTGGCGATCGCCGCTTTTCTGCTCAAGGTCTCATTTAAGATCCTGGGCTGGCTAATCGGCATCTGCTTTATTTTGGCCTTGCTGATCAGTTTGCTATTGATTAGCGTGATGTAG
>LACTIS1119B1_00990 hypothetical protein
GTGCCGCACAGTATTAATATCGCTACAGCAATGTATGGCTTCCGGGAATTAGGCGCGGAGATCGTACCATATCACTTTATAGACGAAATTGAGGAAAAAATTGGCTCAAAGGACATAGTGCTGGACTATATTGAGCAATGCCAATGGGTGTTTAAAGAATTCGGCCATCCAACTTATATGGACTGCTATCCGGAAATATTAAAGCCGTTTTTAAAGAGAAAGATTTGGCGGGATACGATAAATGGTTTTTACAGTAATGAGAAAAAGTGGTTGGCAGGTTACTTTATCAAGCCGGTTAAGGATAAGGCTTTTACCTGGAAAATCATCCGAAATACAGCAGATTTAATTGCCTGTGGCAGTTCAATGGAAGACTACGAGATCTTGGTAAGCGAGCCGATTTGTATTTCGCGAGGAACTGTTCTGAAGGATATACTGTCAACCTTTGGCAAGCGTCTAAATACCAAGAAGAAAAATACGCCCAGAGAATGCTGGATATGA
>LACTIS1119B1_01000 hypothetical protein
ATGATAAAGAGGAGTCCGGCTACCTATAAAACCGCAAAGCCCGAGAATCTGAGCTTGCAGCTCTGTAATCTCAAAGGTCTGAAAGAAAAAACGACAGAGGAGCTGCTGTCAAGGGAGCAGGAAGAAGAACTTCAAGCTTTCATGCAAGAGATCGGCCAGGGCACGGCATATGACAAAATTAGTGATTTTTGTAAGAATCCCTTGTTTATCGAGCCTTTGAGAAAGCTGCTGCCATACAGTCAAAACTTGAGTACAAAATTGACCAAGTTCGAGCGGAATCAACGGCTTGACCGGCGCAAGTACAAGGATGCCTTGAATCTGCTTGAGTTACTTTATCCTAAAGGGTCGGTGACGACAACAGAAGAGAGGATGCGGCAGTACGTGAAACGGATCGTTAAAATTCAGACTGAACGCCGGGTGTATGTTGTCAGAACGCAAGAAGTCAGTGAGTCATTTTCCAGCATTTTCAAAGAAAAAGGCGGAATGATGTATTTGGCAATGCGCAGGCCGCTGCCGGGCAAAGCTGCTGGGTTAAACTGGCTAACAGAAACAAGGAGAAAAGTCTCCCAGCTGCTGTAG
>LACTIS1119B1_01010 hypothetical protein
ATGGCAGAAGGCGATGGCCGGCTTGGACCAGGGGAATTGCAGGAACTTTTAGCTGCAAACAATATGAGTGAAGAAGAGTTTGCGGCAAGAGAGTTTGAAAAGGGGACTACGATAGTTACAGGTGGGGAAAATGGCTCAACTAAAAGTATCACGCCTTACTATTTAGATGAAAAAACGGGATATGTCCAAGCAGATGCTGAACTCGAGGTTAAAAATCCGGTTGATAAGGTCATTGTCATCGGAACCAAGGAAAGCAACTAA
>LACTIS1119B1_01020 alcohol dehydrogenase
ATGAAAGCAGCATATTTCGTAAAAAAGGGCCTGGTTGAAGCCCGGGAAGTTGAAGATGCAACACTTGAACAAGACACCGACGCGGTTATCCGCGTAATTAGAGCTTGCGTCTGCGGATCAGACCAGTGGTGGTTCAGAGGCATTTCTGACCGGCCGGAAGGCACAGTTGGCCACGAAGCCATCGGGATCGTAGAAGCAGTCGGTGACAAGGTTGATAATGTCAAGGTCGGCGATTTCGTTATCGCTCCGTTCACCCACGGCTGCATGAAGTGCAAGATCTGCAAGGCTGGTTTTGACGGCAACTGTCCAAACGTGGAAGTTGGCGGCAACAAGGGTTACCAATCTGAAAAGCTGCGTTTTAAGAATGCCAGCGCCTTGGTAAAAATCCCTGGCCAGCCAAGCGACTACACTGAAGAGCAATTGAATGACCTGTTGACTTTGTCAGACGTTATGGCAACTGGCTACCATGCTGCGGCTAGCGCGGAAGTTAAGCCGGGGGATTCAGTAGCAGTTATCGGTGACGGCGCGGTTGGTTTGTGCGGGGTTATCGCGGCTAAGCTGCTCGGTGCTGAAAAGATCATTCTGCTTAGCCACCACGAAGACCGGGCAGCCTTGGGCAAGGAATTCGGTGCAACTGACATCATCAGTGAACGTGGTGAAGACGCGGTAAAGAAGGTTTTGGAACTGACTGACGGCTACGGTGCTGATGCTGTTTTGGAATGCGTTGGGGCAAGCAGCTCTATCGATCAGGCTGGTCAGATCGCCCGTGCTGGCGCGATTGTCGGCCGGGTAGGGGTTCCGCAAAAGGAACCTGAAACCAACAAGTTCTTCTGGAAGAATGTCGGCTGGCGCGGCGGGATCGCTAACGTCACTACTTACGACCAGGAAGTCTTGCTGGACGCTGTTTTGAAGGGCGAAATCCACCCAGGTAAGGTCTTCACTAAGAGTTTTGACCTTGATCATGTGCAAGACGCATATGAAGCGATGGACCAACGGCAAGCAATTAAGTCATTGCTGGTCGTGGCAGACAAGTAA
>LACTIS1119B1_01030 4-carboxymuconolactone decarboxylase
GTGATAAAAATGGCAGAAAAACAAACTGCAGGCCGCGATTACTTGGACAAGTTGGCACCGAAGTTCGCGGAGCTGAACGATGACGTTTTATTCGGGGAAGTTTGGGCAAGAGAAGACAAATTGGCGGCTAGAGACCGGAGCATGATTACTATTGCGGCGCTGTTTTCCGCAGGCTTGTACCCGCAACTGAAAGCCCACTTGGAGCTAGGCAAAAAGCATGGGATCACCAAGGAAGAAGCAGTGGAGATTGTTACTCAGCTGGCTTTCTACTGCGGCTGGCCTAAGGCGTGGAGCACTTTCCCTTTGATTGAAGAAGTCTACGGGGACTAA
>LACTIS1119B1_01040 hypothetical protein
ATGAAACGGTGGGCCGGTGGCGTTGCAGAAGATAACATTGGCAGTTGGACCTACTCTCTTAAAAGCGGAAAGAAGTTGACCGTTTATGATGTTACGCAAGGCAGCCAAGCAAGTATTAAGAAGAAACTGATCAAAGGGGCTAAAAAGTTTGGTGCTGGTAATGTCTACTTCAAGTCAACAAACTTAAAGAAAATGAACTTTGTCTTGAAGAAGGGCAAAGTGTACGTGTACCCGCAAGTATATGGTTATAACATGGACAAGTACTTCACCCTGCCTTCCCGCTACAAGTAA
>LACTIS1119B1_01050 hypothetical protein
TTGCCAGTCATTTCTGCAACTCAAGAGAATGGCATAGTTTTTCGAAATGATTTGGATATCGACATTAAATTTGACACACACGCATTGAGTAACTATAAGGTTGTATCACCCGGAGATTACATAATAAGTCTTAGATCATTTCAAGGTGGATTTGAATTATCAGAAAAACGAAAGATCACTTACAACAAGAATAATATCGTCTGA
>LACTIS1119B1_01060 hypothetical protein
ATGATCAAAGCTTTTCACCGGGAATACCCGAATTGCAAGATTTTTCTTGAGGGATTTGATCATAACCGGCTCAAGCACCACTTGATTGACCACGACAGCGATGTGATTTTTACGACCCATGATGATATCACTGATCTGGCCGAGGTGAAGTACTATCATCTTTTTAGCGGACACTTTGTGGCAATTATACCAGTGGACCACCATTTAAGTGACAGAGAGGAGCTTGAACTGGATGATTTGGCAGGAAAAAAGATTTTGCTGATGGACAACAACTGGTGCCCGCCAGAACAACTGAAGCTCCAGGAGACGATCAGAAAGAAGGTTGATGACTTGGACATCAGCTACGTTAACGACGTTGAGATCGTCAGCTTGATGGTCAAGGCTGGCTTAGGGATCACCGTGATGCCGAGCTTTGTAGCAATCGAAAAAACAGATGAGATCAAGGCGGTAAAGTTGAACTACCCTGCCCCGCTGGACTATGGCCTGGTCTGCCGGAAAGATGAAGCAGATCCCTTGGTCCTCGCCTTCTGCCAGGTCATGCAGGAACAGGCGGAAGGGATGTAA
>LACTIS1119B1_01070 hypothetical protein
ATGGACTTAAGGCAGCTGGAAGTTTTTATCAATTTGGCGGAGAGTTTAAACTATTCAAAGACCGCGGAGAACCTGCACCTTTCTCAGCCGGCCCTTAGCCGGATCATTCAGCGGATAGAAAGCGAAGCTGGCATCACACTTTTTTACCGTAACCACCGGGAAGTACAGCTGACTAAGAATGGGAAGCTGTTTTACGATGACAGCAAGAGCTTGATCAACAGCTATTAA
>LACTIS1119B1_01080 hypothetical protein
ATGACTAAGCTTTACGACAATGTTGACCACTTAGATACTAATGCATCTGCTGCATATACTGTTGAAACGGACGTCCTGGTTGTGGGCGCGGGCAATGCAGGGATGGAAGCCGCCGCGGCCGCTAAAGAAGCTGGCGCTAACACCATCTTGATTGAGAAGGAAAAGACTATCAACCTGATGATGAATAATCGATTTTTCCCTCGCTAA
>LACTIS1119B1_01090 phosphoglycolate phosphatase haloacid dehalogenase hydrolase
ATGAAATATAAAGCCGCGATTTTTGACATGGACGGCACAATCTTAGACACGAGCGCCGACTTAACAAGTGCATTGAACTACGCGTTTGAACAAACCGGCCACCGGCATGACTTTACCGTTGAAGACATCAAGAACTTCTTTGGCAGCGGGGTCGTGGTGGCGGTCACCCGGGCCCTGGCCTATGAAGCTGGCAGCAGCCGGGAAAGTCTGGTCGCCTTTGGCACCAAGGATGAACAGATCCCGGAAGCCGTTACCCAAACAGAAGTTAACCGGGTCCTGGAAGTTTTTAAGCCATATTATGCTAACCACTGCCAGATTAAAACTGGTCCCTTCCCAGGCATCTTGGATTTGATGAAAAATCTCCGGCAAAAAGGCGTCAAGCTGGCTGTCGTTTCCAACAAGCCAAATGAAGCCGTCCAGGTCCTGGTCGAAGAACTTTTCCCGGGCAGCTTCGACTTTGCCTTGGGTGAAAGAAGCGGGATCCGCCGCAAACCAGCTCCGGACATGACTAGTGAGTGCGTCAAGGTCTTGGGCGTGCCAAGAGACAAGTGCGTCTACATCGGCGACTCTGAAATCGACATCCAAACCGCGCGGAATTCTGAGATGGACGAAATCGCGGTAAATTGGGGCTTTAGAAGCGTGCCATTTTTGCAAAAACACGGGGCAACTGTGATTGTCGATACAGCTGAAAAGCTGGAAGAAGCAATTTTAGGTGAATAA
>LACTIS1119B1_01100 acetyltransferase
GTGAATAAGATGGAAATCAAGTTTGAAGAAGAGCAAAAGCGGGCCGCGGTATATGATGACGGCAAGCTGATTGGCCAGTGCGTATATGAAGACAAGGGTGATCACTGGATCATCACAACGACTAAGGTAGATCCAGCCTATGGCGGACAAGGCCTGGGCCGGAAGTTGGTTGATACCGTTGCTTCTGCTGCCCGGGAGAAGGGCGCCAGACTGCGGGCGACTTGTTCTTACGCGGCTAAGGTCTTAACCAGGCCGGGCTATGAGGATTTACGGTAA
>LACTIS1119B1_01110 bacterial membrane protein YfhO
GTGAATCTTGTCAAAAAAGTCCTAAAATCCAGGCCAGCCATCGCCTTTGCGGCCAGCTTCCTGGTCACCATGCTGATCTTCGCGGCCTTCGGCTACGCGCCATTTGGCATCAAGTCGGTTGCCGGGGCGGATGCCAATATCCAGTACCTCGATCTCTTTGCTTACTTAAAGGACGTCTTAGCCGGGAAAAACTCTGCCACATATACGATGAGCGCCTTGCTAGGCGGGGATGAGGTGGCCACATTTGCCTATTACTTAATGTCGCCGCTTAACTTGCTGGTCGTCTTTTTTCAAAAGAGCCAGCTGCCTATCTTTTATGACATCTTGCTCGCCCTCAATCTGTCTTTATCGGCTAGCTGCATGGCCATCTTTTTAAAGCAGAGATTTCCAAAAATTACTGGGAAATTCCGGCTCTTTCTGGCCATGAGCTACGCCTTCTGTCAGTACAATATCGCCCAGTCCTGCAACATCCTTTGGCTGGACGGGGTGTACCTGCTGCCTTTAATCTTGCTGGGTATATACCAACTAGTTGCGGTCGACAAGAGAAAAGGCTTCTTCTTACTGACCATCAGCATCACCTGCAGTATGGTCTTTAACTGGTATACGGGTCTCATCAATATCATCTTTTCCGCCATCTGGCTGGTCGTCGAGGAAGTTCTATACCTCTATGAGGGCAGTTATGAGTTAAAAGCTTTGTTCAAAAGGCTTGGCGTTTATCTCTCTGCAGTATTTTTGGGCCTGGCCTTGAGCGCCTTTATCTTTTTTCCGAACTATGTCAGCCTGAAAAGCGGGGCAAGAAGCACTTTTGACTGGGACCTGCTCAAGCCAGACTTGATCAATAATCCTTTTACAGTCATCGGCAAGCTGGGGCTAAACGTGATGAGCGACTCCACCAATGTCTCCCTTTATTGCGGCAGTATTGTGGTGATCGCAGTCTTTGCCCTCTTCTTTAGCAAGGAATTGACAGCAAGATTCAAGACAATTATGGCTTTGTTAGGGCTGGGGATGCTCCTCCTCTTTTACTGGCAGCCAGCTAATTTCGCCTTTTCACTCTTCAAGCTGGTCGACAGCTACTGGTCCCGTTACTCTTATCTCGGCATCTTTATTCTGATCTTCATGGCCGGGATTTTCTTCAGCCAAGTCAAAGACAAGGTCCAGCCGCTTTTCTATGGAACGGCAGCGTATCTCACAATTTTTATCATCCAGAACTGGAAAAACTTGACCAGCAAGGGCGTGGTCTATACTGTCCTGTCAACCGTGCTGACGGCAGGACTGCTGATTTTTTACGAAAAAGCCGGGAAGAAGGGGATGCAAAAGCTTGCTCTTCTGGCTCTGGCCGGCCTGCTCTTGACCGAGTTTGCCTACAATGCCAAAAAGCTCTGGGCCACCTACAAGGATGACTATAAAGTAGCTAAAGTTGATGAATTTGCTGCTTACAGCAGCCAGCAGGAAAAGCAGATCGCTGCTTTAAAGAGATATGATCCAGGTGCCTACCGGGTCAGCCAGACCTCTACCAGACTCAAGCTGCGTCTGAATTTAACCGCGGCATACAACGAAGGCCTGGCCTACAACTACTGGCCGATCGCCAGCTATGTCTCCAGCCAGGATCCCAAGCAGCTGAAGTTTTTGGAAAGTGTCGGCTACCGGTCTGCCGCCCAGCGGGTGACCATCGTCAACACTTCAGTCCTTGGGGCTGACTCCTTATTAGGTGTCAAATACGTACTGACCGGTCAAGCTCTTCCAGGCTTGGAGAAAACAGCATTGCCAGCTGCTAATGGGAAATCTGTCTACCGCAACCCATATGCTTTGCCCCTGTCTTTTTCCAGCCAAAATGACGTAAATAACCCGGTCTTTACAGGGAATCCTTTTGCCTACCAGGAAGCGGCCTACAGCCAGCTCCTGGGCAAAAAGGTTACCCTCTATAAAAGGGTGGCCTATAAAAAGACGGTCCAAGCGGGTAAGGTAACTTATGTGCTGAATTCCAAGGATAAAAGGAACCCTCTCTACGGTAATCTGCCCTGGAGCCAGGCCGGGGACAATGTCCTGGAAATCAATGGGAAAGTTCTCTCCAACTACGCTGGCTGGCTGTCGCCAAGCGTCTTCTTCATCCCGGTCCAAAAGCGGACCAGAGTAACCTTAAAGACCAAGACGCCCGATGCCTACCAGGCCCAGTTCTACCAGCTGGACTTGCAAAAACTGGCAAAGGCTAGTCAGGAAATCCAAGCTAAGGCCATCAGGCAGATCTCCTTTAAGGGGCCAAGGATCACCTTTACCGCTATAGGCAAGAAAGGGAAGGCCAGCTATGCCTACTTAGAAGTGCCGGTCAAGAGCGGCTGGAAGGCGACGAATAACGGGAAGAAGGCTGAGATCTCCAGTTACTTGGGCACCTTCATGAAGTTCAAGCTTAAGCCAGGCGTCAACAAGATCCAGTTAACCTACACAATCCCGAAGCTGAAACTGGGAAGCTTGATCAGCGGACTCGCTGCTTTGGTCTTGCTCCTAGTGGCTTTTTGGCCAAAAATTGGGCAAAGAAGCAGGAAATAA
>LACTIS1119B1_01120 hypothetical protein
TTGCCACTGGTTTTGATGAAGGCGGCAAAGGTCATCGGGACTTTTGCCATCTTGCCATTGATCGTTGATGCTGCTGACGGCAAGGTTCCTGTCGTGGCCGCGGGTGGTCTGGTTGACAAACGAACCGTCAGAGCAGCCTTCGACCTTGGCGCGGAAGGCGTATATGCTGGGACCGCATTTTTGGCAACTGAAGAATCTCCATTAGCTGAAAACATCAAGCAGGACATGCTCAAATATGATGCCGATGACTTGCTTATGTTCCGCGCGCCTAATTCCTTCTACCGGTCATTGCCTGGTGAGTTGCCAGAAAAGCTGCTCGAGATGGATAAGCAAGGCAAGTCGGCTGCTGAAATCTGGGCTGCGGCTGGTGACTATAACTGCCTGCTGTACGGGATGCATGACGGCGATCTTAGTCGCGGAATTGCCTCTTTCGGTCTGGGCATCAGCTCAATTCACAGCATTGATCCTGTCAGCGTCGTAGTCGACCGCCTGAACAGCGGTGTAATTGCCTAA
>LACTIS1119B1_01130 hypothetical protein
ATGAACCGCAAGTGGGCAAAAAAGTTCAAAGAAGCTGGCATCAAGATCATCTTCCGCGCTGTGACGCCAACTGCTGAAAATACCAGAGAAGCCATTGAAGCAGGCGTTGACGTGATTATTGCCACTGGTTTTGATGAAGGCGGCAAAGGTCATCGGGACTTTTGCCATCTTGCCATTGATCGTTGA
>LACTIS1119B1_01140 hypothetical protein
ATGAATTTTAAGAAGATTTGCATGTCGGGAGCCGCTTGTTTAGCCGTTGGCATTTCAATTATGCCATCAGTTGCTTCAGCCTCTTCAAACAATACAGATAATTCTTATGAACAAAGCGAGTTCATCAAGGCGTATAATACAGGTAAAGAGAAAGGCATTTTGACTGATCAAAATATGACGCAGTCTGAATTCCTTTCATCCTTTTACTAG
>LACTIS1119B1_01150 hypothetical protein
ATGAAAGCAGGTGATATTCTTATTTGTTACGGTAGAAATATTACAAGTAAGTACATCGGTCACGCTGCAATCGCATCTTCATCAAAGTACATCATGGAAATGCCAGGGCCTGGCAAGCACGCGACACATACGCCAAAAGCAACTTTCTTTAAGAGAAACTCCGGGAACGGAAAGTATGTCGCGGTTTATCGGATTAAGAAGCATCCACACTATGCTGATGAAGCAAGTACGTACGCATATAAGCATATGTATTTGAAGACCAATCCCTCATACTTCTTCCCCAGCAGTATGTATGTAAAGTCACCAAGCTATTGCTCAAAGTATGTATATTTGGCTTATGAATGGGGAGCAACTAAGCGTGCTCTTTACCCGATTCCAGGACCAAGTGCCGTTGTCCTGCCTCATGGATTAGAGAATTGGTTTAAGGGATCCTTTACGCCATCCTATGTTTATAAGGTGACTAGCTATTAA
>LACTIS1119B1_01160 hypothetical protein
ATGATCAAATTGTTTACACAGAAGCAAAAAACGATTGCCTATCGGGTTTTGATGGCAATTTACCTAGTTGCTTTGGGGCCAAACTATACTTTTGGTTACGCAACGCAAGACAACCCTACTAACCGCTTTTTCTTGATTGCTAATTTGCTGTCGATTGTCGCACTTGTTCTGGCAGCTGTTTGGATTGACCGGCCGAAGTTTTTCAAGGCAGTGTCTGCTATGATGGTGATTGTGGCTATCTTGGGAGTAGTTCAGCTTGCCTTTCCAGGGCAGTCAGCTTATGCAAGGTACAGCAACGCTTGGGCAATCATTAATATTATTTGGGCTGTGTTAACTGTACTTTACCAAAAGCAGCAGCTTCAGATGAAGAAAAATGCCTAG
>LACTIS1119B1_01170 hypothetical protein
TTGGAGCAAGAAAACAATCATCTTACTGCTTACCAGGAACGTTTACCAGAAAGGCAGGCAGCCTATGAAGACCTGAACCATGAGTATGAGGCAGTAACAGATCTGCTAGAAAAACTGAATTTAACTGAAAAGGTCAAGGATGCATCCCCTAACGACTGGAACAGTGAGCAAGTCAAGGCAAGCAACCAAAATAAGGCTAACCTGGCTATGATTGCTGTTAACAGCATTAACGGTGAAATAGACTACCGGGTCGACAACAGCAAGCATTTGGAATTTGAAGACATTGAACTTAGTGACTACCTGCTCGTTCAAGTCCAAAACTTGTTGCATGAAATTGCGGTGGTTCACTACTACTACGGTGAACAGGAGTTAGAGCTCAGCAAGCTCTATGACGATATCCGCCAGCAGCTGGAATCCTTCCAGGCTTCAGCTGATGAAGTTCAGCGCCTGGCCCGCTACCTTAACAACTCGACGATTCTGCAAAAGATCCGCCAGGCCACTGCCGAAGCTACAACTTTGACCAAACAGATCAGCAAGTCCTTGAAGGAAAAGGAACAGACAAGTCACATCTCCTTCTATACCAGCTTCAGTGAAATCCCTGACTACAGAAAGGACTACCTAGCTGCTTTTGGGAATACTTCTATCGGCAGCCTGGAAAGTCAGAATGCGGTTACCCTCTTGATGGACCGCTTCTGTACTTATATCAAGGACAATAACGGTGAAATGACTAGTGATGAGCTGGTTGACCACTTCTATGAGGAGTTTGACTACAAGAAATGGTATAGATTCAACATCAGCTTCTGCCGCCATGCTGGTGACGCCCCGGAAAAGATAACTGACCGTAAGCTTAATGCCTTCTCTGAAGGGCAAAGAAGCCGTGCGATCCTTGAACCACTTTTGATCGTTTTGGAACTGGACGAAAAGAAGATGAGCAATCCACTTGCTCCGAAGATCATCTTGATGGACGAGTCCTTCTCTGGTATCGATGATGAACAGCAAGAGCTGCTATTGAAGAACATCTACGATATTGCGAACAACTTTATTGCTACTGGCTACAATGCCCGTCTTGCGGTACCAGAAAACAGCAAGGACACGACTTACTTCACCTTGATTGACCACACGGTTGATGGCAAGAATCACTTTATCTCTGTAGAACAAAGCATCGTCAGAAAAAATCGCTAA
>LACTIS1119B1_01180 phosphoglycerate mutase
ATGGAAAAGATATTATATCTCATGCGGCACGGACAAACCTTATTCAACCTTGAACACAAGATCCAAGGCTGGTGCGACTCACCTTTAACTGAATTGGGGATCAACCAGGCCAAGATAGCTGGCCGCTACTTTACAGACAATAAGCTCAAGCTGGACCACTGCTATTCCAGCACGAGTGAGCGGGCTTGTGACACCTTGGAACTAGTTACTGGCGGCAAGCTGCCTTATACCCGGCTCAAGGGGATCAAGGAATGGAATTTTGGCTGCTTTGAAGCGATGGACGACTTTTTGAACCCGCCATTGCCTTATGACGACTTTTTTGTTAAGTATGGCGGAGAAAGCCAAGACGGAGTCAGTGAGAGAATGGCTAAGACCTTGAGCCAAGTGATGGAGCAAGAAGACCACCATTTCGTTTTGGCTGTATCGCACGGAGGTGCCATGGCTTGCTTTTTACGTTACTACAAGCAGCCTTTGCCGCACGGGATAAAGAACTGCACTATCCTCAGACTCAAGTATGAAGACGGGCAGTTTACCTTGCTGGACTACTTTGAACCAGATTTCAGCGAGTTAGAAAAATAA
>LACTIS1119B1_01190 hypothetical protein
ATGAAGTACGAATTAAGCGGCGGGAATACCTGCCCATTAGCTACTGTAACCCTTGATAAGGGTGAAAGCATTAAAGTCGAAAACGGCGCCATGGTGTACATGAAAGACGTCACTATCGCCGGTAAGATGAACTCCAGCAAGAAGGGCCTGGGCGGCTTGCTCGGCGCGATTGGCCGGAGCTTGACCAGTGGTGAAAGCATGTTTATCACCCAGGCAACTGGTGATGCGGACGGCGGACAAATCGGGGTTGCACCGGCAATTCCTGGCAAGATTCTAAAGCTTTCCGTTGGCAAGCAGCAGTACTGCTTAAATACCGGCGCCTTTCTGGCAAGTGACGACAGCGTCAGCTACAAGATGAAAAGTCAAAGTTTTAGCAAGGCAGCCTTTGGGGGAACAGGTGGCTTCTACGTAATGCAGACTGAAGGCAAAGGCGATATGTTAGTTAACGCCTTTGGTGACCTGGTAGAACTGACCGTGACTAGCAATAAGCCGATCTCAATTGACAATGAACACGTCATTGCCTGGGATGCAAATCTTGATTACGACATTAAAGTAGCGTCGGGGATGTTTGGCTTTACCTCAGGTGAAGGCCTGGTCAACCACTTTACCGGGGATGGCAAGGTTATCATCCAAACTCGTAACCTGCGTTCATTAGCTGAGGCCCTGCAACCTTTTATCGTTGAAAAAAACAGCAATAGTTAA
>LACTIS1119B1_01200 hypothetical protein
ATGGATCAAACGAGAATCGTTACTTTAGACAATGGCTATCACCTTTTTACCCGCAAGGTCAATGAAGGGCCGGTCAAGTTGCTCTGCGTGCACGGCGGGCCTGGTGACAACCATGAAGACTTTGACAATTTCAAGGCTGGCTTAGCCGGCAAAGGAGTTGAGGTTTACTCTTATGACCAATTGGGTTCGTACTGGTCAGATCAACCCGATTTTTCAAAGGAAGAAAATCGCAAGTACCTTACTGTTGATTACTTCGTCGATGAATTGGAAGAAGTTCGCCAAAAGCTCGGTTTGGAAAACTTCTACCTGCTCGGACATTCATGGGGCGGCTTGCTGGCACAGGAATACGCAGTCAGATATGGCCAGCATCTTAAGGCAGTGGTTATTGAATCGATGATTGACAATTTGGATGAGTACACGGTCAACATCAACCGTGAAAGGGATGAAATGTTCAGCCCGGCTCAAGTGGAATACATGAAGGAATGTGAAGCATCTGAGAATTTTGATGATGCGATGTACCAGGAATTGGTTGCCAAGCTCTACTCCGTTTACTTGGTCCGGCACCCGGAAAACGCGACCCGGCATGTGGTCAGCACGACCAATACCCAGGTGTACAACTACTTCCAGGGTAACAACGGTTGGCAAGCTGACCGAATGGGACTTCAGAGACAAACTGGCCCAAATAACTCTCCTTACCCTCTTGACTGTTGGTGA
>LACTIS1119B1_01210 peptide ABC transporter substrate-binding protein
ATGGAAACTGATGTAGTCAGCTCCCTCGATACCTCAGTGACTGCCTCAATTCCCCAATGGGACACTTTGGTGCAAACTATGGCTGGCCTTTACCGGTCAGATAAAAATGACCAGCCAGTTCCCGCGGTTGCCACTAGCTATCATAAGTCCAGTGACGGTAAGACCTATACTTTCAATCTGAGGCACAATGCCAAATGGTCAAACGGTGACACTGTAACCGCGCAAGACTTTGTAACAGCCTGGCGAAAAGGCGTTTCTCCCAAAGCAATGTCTGGCTATAACTACATCTTCAGCAACATCAAGAATGCTGACCAGATCTCTCAAGGCAAAAAGGCGGTCAGCAGCTTAGGCGTCAAAGCCGTTGGCAAGTACAAACTGGTCGTGCAGCTTGAAAATCCAGAACCGACCTTTATCGACAAGATGGTTATGCCAGCCTTTTACCCGCAAAACACCCGCCTTGTTAAAAAATATGGTGCCAAATATGGTACGGCTGCCAAGTATACCGCTTTTGACGGGGCCTTCAAGGTCACCAAGTGGACCAACACCAGCGAAAAGTGGACTGCCGTCAAGAATCCACACTACTACGCTAAAAGCGCGGTCAAGCTGCAAAAGCTAAATTACCAAGTCGTCAAGGATTCAAACACTGCCCACCAGCTCTTCCAGCAAGGCAGCCTAGATGACGCTGTAGTTTCAGGCACGACGGCACAAGGTCTGCAAAATAATAAGAACCTCTACCACCTCTACCGGTCAGGTAATAACTTCGTAAATCTGAATATGGCTGAGGGCGCCGTATTGGCCAACAAACAACTCCGTCAAGCCCTATACTTGGCTATTAATCGTACTCAGCTGTCTAAAAAGGTTTTAGCAGATGGTTCAAAGCCTTCCTACACCTTCTCAGCACCAAATGCCGCAAAGGATCCAGCCAGTGGCAAGGACTTCGCAACAGCAGCTCAGCCAAAAGAAACTTACAATGTTGCCAAGGCCAAAAAACTCTGGCAGGCTGGTTTAAAGCAGCTGGGCAAGTCAAAAGTTGAACTGACCCTGGTGGCAAGTGACACAACTACCGACAAGAATGTCAGTGAATTCCTGCAGTCACAGCTGGAAAGCAAGCTGCCAGGACTTAAAGTGACCGTAAAGAATCTGCCATCCAAGTCCGCCTACAACTTGGTTGCCAATGGCAAATATGACCTTTACCTTTCCCTGTGGCTCAACGACTACGCTGACCCATACAGCGAACTGCAGACTTTGGAAAAGACTAACAGCCACAATTACGGTAAATACACCAGTGCTGCCTACAACAATGAGCTCATCCAAGCCAGAAAAAAAGCCGCGACCAGATCAGTCTACTTCAGCCACCTGTTAAAGGCACAGGAACAAATGAACCAAGATTACCCTGTTCTTCCTCTTTACACCATGGTTGAAGACCACCTGGTAAACTCCAACTTAAAGGGGGTACTTTGGCACAAGGTTGGCATGGTTGACTACACGAGAGCATACTTCAAGTAA
>LACTIS1119B1_01220 methyltransferase
TTGACCCCGGTTAAATATGCCCCGCACAGCTGGTTTGGTGACTTACATGGCAAAAAAGTCCTTGGCTTAGCCAGCGGGGGTGGCCAGCAGATGCCAATCTTGACTGCCTTGGGGGCAAAATGCACAGTCCTGGACTATTCTGACCAGCAGCTAAAAAGTGAGCGCTTGGTTGCAGAGCGCGAAGGCTACGATATCGACATTGTCAAAGCCGACATGATCCAGCCTTTGCCTTTTGCTGACAAAAGCTTTGACATAATTATCCAGCCAGTTGCCAACTGCTACGTTGAAAAAGTTAAGCCGATCTGGAAAGAATGCTACCGAGTTTTGAAAAAGGGTGGGGTACTCCTGGTTGGCCTGGACAACGGGATCAACTACCTGTTTGACAGTGAAGATGAAAAGTATGTCGTCAACTCTTTGCCTTTTAATCCGCTGAAAAATCCTGACCAGATGCAGCAGCTGGAAAAAGATGATTATGGCGTCCAATTCTCTCATACCTTGGATGAACAGATTGGCGGCCAGCTGGAGGCTGGCTTTACTTTAACCAATCTCTATGAAGATACCAATGGTGAAGGCCGCCTGCACGAATTGAATATCCCGACTTTTATCGCGACCAGAAGCGTGAAATAG
>LACTIS1119B1_01230 carbamoyl phosphate synthase large subunit
ATGCCTAAGCGCGACGATATCAAAAAAGTTTTAGTGATTGGTTCCGGCCCGATCATCATTGGCCAGGCCGCTGAATTCGACTATGCCGGGACCCAGGCCTGCCGGGCCCTCAGAGAAGAAGGCATCGAAGTTGTCCTGATCAACTCCAACCCGGCCACGATCATGACTGACGGCGACATGGCTGACCACGTCTACATCGAACCTTTGACTGTGCCAGTCGTTAAGCAATTGATGGAAAAAGAAAAGCCAGACGCCCTTCTGCCAACCATGGGCGGGCAGAACGCCTTGAACATTGCCATGGCATTAGCTGATGAAGGCTTTTTGGAAAAGCACCATGTCAAGACAATCGGTACTGACACCGACACGATCAAGATGGCTGAAGACCGGCTGGAATTCAAGAACTTGATGGAAAGAATCGGTGAACCGGTTGCCAAGTCAGTTGTCGTCAACTACGTTGAAGACGCCATTGCTTTTGCCAAGGAAATCGGCTATCCCGTAGTTGTCCGCCCGGCCTACACTTTGGGCGGGACTGGCGGTGGGATCGCCCACAATGAACAAGAACTGCATGAAATCTGCTCTAACGGCCTCCGCCTCTCCCGAGTTACTGAATGTTTGATTGAACAATCAATCGCCGGCTGGAAGGAAGTTGAATACGAAGTCATGCGCGATGGTGCCGGCAACTGCATCACCGTCTGCAACATGGAAAACATGGACCCGGTCGGTGTCCACACCGGTGACAGTATCGTGGTAGCGCCATCTCAAACCTTGTCAGACAAGGACTACCAGATGCTCCGCTCCTCTGCCCTCAACATCATCACTGCCTTGAACATCAAGGGCGGTTGCAATGTCCAGTTTGCCCTCAACCCAGACTCCTTTGACTACTGCGTCATTGAAGTCAACCCTCGTGTTTCCCGGTCTTCTGCCCTGGCCTCAAAAGCAACTGGCTACCCTATCGCCAAGCTTGCTACCAAGATTGCTTTGGGCTACAACTTGGATGAAATCGTCAACGCCGTAACGGGCAAGACCTACGCTTCTTACGAACCAACCCTTGACTACATCGTCTGCAAGATTCCTAAGTGGCCTTTTGACAAATTCTACGACGCTTCCCGCAAGCTGGGCACCCAAATGAAGGCAACCGGGGAAGTCATGGCTATCTGCAACAACTTCGAAGGTGCCTTCATGAAAGCCCTCCGTTCCCTGGAACAAGACAGCTACTACCTTTATAATGAAGAAATTGCCCAGCTGTCGGCTGATGATCTCCGTAAAGACCTCCGCAAGATTGACGACAAGCGGGCCTTCAGAATTGCCGAAGCCTTGCGAAAGGGCGTCTCCATCCGGGAAATTCATGCCATTACCAAGATCGACGTCTGGTTCATTGACAAGATCAAGCACCTGGTTGAAATTGAAGACCGCCTCAAGAGCGAAGAACTGACGCCAGATCTTCTGAAACTGGCCAAGCACTGCGAATTCCCAGACCGGGTTATCGCCAGCTTAACCGGCAAGACGGCTGATGAAGTTTACTACCTCAGAAAGGGCTTGAAGATCACGGCTGCCTTCAAAACGGTCGACACCTGCGCGGCTGAATTTGACGCCGAAACACCATACTTCTACAGCATTTATGGCGGTGAACATGAAATCCAGCCAGACCGGTCCAAGAAAAAGGTGATTGTCTTTGGCTCCGGCCCAATCAGAATCGGCCAAGGGATTGAGTTTGACTACTGCTGCGTGCACAGTGTCTGGGCCCTGAAGGAAGCTGGCTACGAAACTATCATCGTCAACAACAACCCGGAAACTGTCTCAACTGACTTTGACATCGCCGACCGCCTCTACTTTGAACCATTAACGGCAGAAGACGTGCAGAGCATCATTGAACTTGAGCAGCCAGACGGGGCCATCGTCCAATTCGGCGGACAAACCGCGATTAAGCTCTCCCAGGACTTGATGAAGATGGGCGTGCCGATCCTTGGTACCTCTGCCGACAGTGTTGACGCGGCTGAAGACCGGGAAAGATTTGACGAGATTTTGGAAAAGTGCCAGATCGACCGGCCGAAGGGGCAAACCGTCTTTACGGCTGAAGAAGCCTTAAAGGCCGCTAATGAGCTGGGTTACCCGGTTTTGGTCCGTCCTTCCTACGTTTTAGGCGGGGCCGGAATGGAAATCGCCTTAAACGACGGCGACCTCAAGCGCTTTATCGACCACATCACCTCCCAGTTTAACATTGAAGACCACCCGATCTTGATCGACAAGTACTTGGCCGGCAAGGAATGTGAAGTTGACGCTATCTGCGATGACGAAGGCATCTTGATTCCAGGGATCATGGAACACGTAGAAAGAGCTGGTGTCCACTCTGGTGACTCAATCTCCATCTACCCGCCGCAAAAGATCTCCCAGGAGATGAAGGAACGAATCGTAGAATACTCCAAGCGCCTGGCCAAGGCCTTGAAGGTCAAGGGGTTGATGAACATCCAGTTTATCGTTTACGAAAACAAAGTTTACGTGATCGAAGTCAACCCCCGCTCTTCCAGAACCATCCCTTATATCTCCAAAGTTACCGGGATTCCGCTGGTTGACATGGCAACCAATGTCATCATAGGCAAGTCCATCAAGGAGCAAGGCTATGACTACGGCCTGGCTCCGGAAAAGAAGACAGTTGCCGTCAAGATGCCAGTCTTCTCCTTTGAAAAGATTACCGGGGCAGAAATTGCCTTGGGGCCGGAAATGAAGTCAACCGGTGAAGTTCTAGGGATTTCTGAAGACGTTGAAGAAGCCATGTACAAGGCCTTTATGGGGACTGGGCTGGACCTGCCTAAGCACAAGAAGGTTATCTGCACGGTCAAGGATTCGGCTAAGGAAGAATTTTTGCCAATCGCCAAGGAACACCACGACTTTGGCTACGACCTTTACGCGACCCAAGGGACATACGACTTCTTGCAGAGTCATGGCATCCCTGCCCGCCTGGTCAACCGGATCAATGACAAGGAGAACACCATCTTTGACTTGATCTTTACGGAAACGGTCGACCTGGTCATCGACATCCCAACCAGAAACAACAACTTGAAGGACGGCTTCCTGATCCGCCGCTTTGCCGTAGAAGCCGGTGTGCCGATCTACACTTCCCTTGATACGGCGCGTGCCCTCATCCACGCCCTGGAAGCCAAGCACGACAACAAGATCTCCTTGGTCGACATCACCAAGCTGTAA
>LACTIS1119B1_01240 carbamoyl phosphate synthase small subunit
ATGAAAGCGCGTTTAATACTGGAAGATGGACACGTTTTTGAAGGCGAAAGCTTCGGCGCGGTCCATGATGTTATCAGCGAATTCGTCTTCAACACGGCGATGACTGGTTATGTGGAAGTCTTGACCGACCCGTCATATGCCGGTCAAAGCGTGGTCATGACCTATCCCCTGATCGGCAACTACGGTGTTCCCCTGGATGACCAGGAAGCCGCCCACCCCTTTGTCGAAGCCTTTGTAGTAAGCGAGCTTTCCCGGCTGGGGTCCAATTTCCGCATGAACATGAGTCTGAACGACTACATGATTGAAAACAACATCCCCGGCATCCAAGGCGTCGACACCCGGGCCATCACCCGGATCCTGCGCAAAGAAGGCTGCATGAACGGGATGATCACTACTAAGGATTACGAAGTCAGCGAAGTAATTGACCAGATCAAGGCCTTCAAGATCCAAGGGGTCGTTGAAAAGTGCAGCTGCCTTGAACCCTACCATGTCGGTCAAGGTGACTACGAAGTTGCCCTCTACGACTTCGGTGCCAAGCGCAATATCGCCAGAGAACTGGCCAAAAGAGGCTGCCGTGTCACAGTCCTGCCGGCTGACACCCCGGCCCAATATCTCTTAGACCACAACTTCGATGGGATCATGCTTTCAAACGGCCCCGGTGACCCGAGTGAATGCACGGAAATCATTGACCAGCTAAAAATTCTTGCTTCTTCCGGCATCCCGATCTTCGCCATCTGCCTGGGCCACCAGCTTTTAGCCTTAGCCCACGGCTTTGAGACGGAAAAAATGGTCTACGGCCACCACGGCAGCAATCACCCAGTCAAGGATCTGACCACTGGCCGGGTCTACATCTCCACGCAAAACCACAACTATGTGATCAAGGAAGACACGATTGATCCAAAGCAAGCCAAGGTCTGGTTCAAGAACGTCAACGACAAGACGATCGAAGGCCTGGAATACTTAAAGGAAAACATCAAGTCCGTCCAGTTCCACCCGGAAGCCTGCGGCGGCCCGCACGACACGGAAAACCTCTTTGACAGCTTTATTGAAATGATGGGAGAACACAAGAATGCCTAA
>LACTIS1119B1_01250 hypothetical protein
ATGCCAGGAATTGGAACAGTAATCAACGTCACCGCCATTATCTGCGGCGGTCTGCTAGGACTTAACTTCGGCCACCTACTCAAGGCCCGGGTGCAGGATATATTAATGGTTGCCTGCGAGCTGGACGTGGAAAAGAGCGAATTCCTCAGTGAGAACGACTTCGCAACCGGGATCAGAAACCGCAACTATTACCAACACGAGATTAATAATCTTTTGCAAGCAGCTCAAGAGAGCGTTACTTATGTTTTCTGCGACGTCAATGGCCTGCACGAAACCAACAACAAGTTTGGCCATGAAGCCGGGGACCGGATGCTGATTGCCCTGGCTAGTGAATTAGCCAAAAGCTTCGGGCAAGACATGTCTTTCCGCTTTGGCGGGGATGAGTTTTTAGCAATTGCCTTAGACGAGCGCTTGGACAAAGTCCAAGCAAAGTCTGACCAAATCCTTTCTAACTTGAAAAAGCAATGCTACCACGTTTCAATCGGGATCAAGTAG
>LACTIS1119B1_01260 MATE family efflux transporter
GTGGGCAACGCGGCCAATATCATCATGCTTTTCCTGGTTGCCTCCGGCGGCTTTGAAATGGCGGTTGACGTCATGGTCTCCCGGCTGTTAGGGGCCGGCAAAAATAAAGAAAAAGTCGCCATGGCCCGGGATACCCTCTTTCTCAGTGCTATTAGCGGTCTGGTCTTAGTGGTAATTGCCTGGATTTCCCTGCCTGCCCTTTATAAGGCAGTGTCTTTACCGGAAAACATGGTGGGGGATGCCCTCCTATATGGCCGGGTCTACCTCTTTGCCCTGCCGATCATCTACATCTATGACGTTGGCCGGGCTATCTTAATCTCCAATGAGCGAGCCAAAATCTCCTTCTATCTCCTGGCAACTTCCAGCATCTTAAACCTACTATTAAATCTTCTTTTCATTCTCGTCTTGCAGCTGGGTGTATTAGGTTCAGCCCTGGGCACGGTTTTAGCCCAAGGGATCACCATGCTGGTCACCCTCTACCTTTTGGCAAAAATGGACCGGCAGGAAGAAGAGCCTGTCTCCCTTAAGCCTGACCTCTCCTGGACAAAAATCAAGTCCATCCTTCATATTGCCCTGCCAACAATCTTCCAGCAATTCGCGATCACCTTCGGTGCAACATTGGTTCAGGCCTGGGTCAACCCCTTTGGCCAGGAGGCAATCTTGGGCTATGTCGCTATCGTCAAGGTCATGAACCTGGCCCGGATCGTCCTGGTTGGCTTTGCCCAGACGTTAACTCTGATGACGGCTCAGTTATTGGCGGCAAAAACGTACTCTGCTGTTAAAGCAGTTTACCGCTACTGCAGCAATGCCTCCCTCATCTACTGGCTGGTCAGCTCAGCCCTGTCGGTCATCTTCTGCCAGCTATTGGCAGGCATGTTCTTTGATCCAGGCCAAAACCAGGCAGCTTACTCCTTCTTCAGAGTTTACCTCTATGCTTTTGTCGGCATCCAGCTTTTCTCCATCTTCAAGTTCTTGAATGAAGGATTGCTCAGAAGCATGGTTTTGATGAAGGAATACCTCTACTACAACTTGGGTGAATTAGCCCTTAAGCTAGCCGCTACCTGGCTGCTTTTAACGCCTCTTCAGACTAATGCTTTCTGGGGCGCGGAACTGGGAGCCAGAATCATCTGCGTCTTGGGCTCAACCATCTTGGTTATTAAAGAAATACAAGCTTTAGAAGCAATAGAAAGAGCCGGTTAA
>LACTIS1119B1_01270 MerR family transcriptional regulator
ATGGATGAGGAATTGATCAAAACCGGGGATTTTGCCAAAATGTGTGCTGTCACTAAGAAGGCACTTTATGTCTATGAAGCAAAAGGGCTCTTGAGGCCGGCAGTTGTCAAAGATAATGGCTACCGCTACTACCGGCTGGAACAGGTGGACCAAGTTGCGACGATCCGCCTGCTGGAGAAATTGGGCAGCAGCCTGCAGGAGGTTGGGGACTTTTTCGCCTTAAAGGATTTGAATGAACGGCAGAAGTATTTAGGCAAGCAGCAGGAAGCAGTCGAAAGAGAGATGGCTGAGCTGGGGAAGATCAAGTCAAGCTTAGAATTTTTTGACCAGAGAATCAGTGACTTGAAGCAGACTGGTTTAAAAAAAGTGGCGGTTGAGACTTGCCCGGAAGAATACCTGGAAGTCAGTCCTTTTAGGCATGGTGTTTCGCTGAATCCAATCAGCTTCGGGCCTAGATATGGGGTGATCGTCGATGACTTTGAAAAGGCAGAAATCAGCCGCTTTTTTAAAGTAGTGGAAAGAAAAGAGGGCAATTACGTCAAAGCGGCTGGAAAGTATGCCTGCTTTTACCAGGAAATGGAGAACGACGATGTTGCTGGCAATGGACCGAAGGCACTGGAATATTTAAGAAGCAAGGCAAAAGTTGTCCCGCCTTTTTACCAGGAAGACTTCAGCAGTTCCGTTTCAGGTCATGACGGATCGGTGATCATCAAGTATTCTGCCAAGCTGGATTTGTAA
>LACTIS1119B1_01280 integrase
ATGAAACGGGCTCTGCAATTTGGGACCGGGACAGTTACCGGGCAAAACAGGAATGGTCTGCGGAATGCTATGATTTTTGTCTTTGGAATCAATACGGGTCTCCGGATCTCCGACATCGTCAAGGCCAAGGTGTCAGACATTGAAGACGGGGAATGGTACAACCTGGTTGAAACCAAGACCCACAAGAACCGGCATGCCTATATTGGCAATATCAGCCAGGACTTGGAAAATTACATTGACCAGATGCAGCTGAAGCCAAGTGACTGGCTCTTCCCTTCTAGAAAAGGGGAGGGGCATATTGAAGGAAAGTCATTCTATAAAGATTTGAAGCGGGCCGCCCGGCAGTGCGAGATTGATCCCAATACAGTTGGTACCCACACTCTAAGAAAAACTTTTGGCTACCACTACATCAAGAGCGCGACAACCCCAACAGGTGATCCAGATCCCCGGGCCTTGTACAAGCTGCAGAAGATGCTGAACCACAGCAGCCCAACCACTACTCTGAGATATATTGGCTTGGAAGACGAAAGCATGGAAGAAGATTTGAAGTCTTTCCGTTTGGGATAA
>LACTIS1119B1_01290 GNAT family acetyltransferase
ATGCAAATTAGACGCGCGCAATTTAAAGACATTCCAGCAATTATGAAGCTGCTGAGCCAAGTTTTGGAAATTCACGCTTCGATTCGTCCAGACATTTTTATTCCAGGCACAACCAAGTACACGGTGGAAGAGCTGACGACAATCATTAACGATGACCAGAAAGCAGTTTTTGTCGCGGTTGACGAAGATGATCAAGTGCTCGGCTATGCATTCACTCAGCTGCAAGAGCAGCCTTTTTCAACCAATATGGTTCAGTTTAAGTCACTCTTTATCGATGACCTCTGTGTTGACAGCACCCAGCGCTCCCAAGGCGTGGGCCGGGCCCTGCTTGATTATGTCAAAGCTGAAGCCAAAAGACTGGGATGCTATGAAGTGACGCTTAATGTATGGGAGGGCAATGATTCTGCCATAAACTTCTATAAGAAGAATGGCTTGAAGGTCAAAGAAACAAATATGGAATTTATTTTGTAA
>LACTIS1119B1_01300 ABC transporter ATP-binding protein
GTGAAGAATGCTATTGAGGTTAGAAACCTATCTAAGTCCTATGGGGACTTGAAAGTCGTCAATGACATCTCCTTTGCAGTCCGCGAAGGCGAGCTATTTGCCTTCCTTGGCCCAAATGGAGCCGGAAAATCTACAACGGTTGACTGCCTGTCGACTTTGACCAAGTTCGATTCTGGTGAGATCAAGTTGGCCGGGCTTAACATGAAGACACAAGCACAGGAGATCAAGCAGAGGATCGGGATCGTCTTTCAAGAAGGACTGCTGGATAAGCGGCTTACAGTGCTTGAGAATTTAACTCTTCGCGCTGGCTTTTACTATCACAGCAAGGCAGAAGTAAAAGCAGCTGTTGCCCGGGCAAGCGAATATACGGAGATTAACGACCTGCTTAAGCGGCAATACGGAAAATTGTCCGGTGGGCAAAGGAGGCGGGTAGATATCGCCAGAGCGCTCTTAAATACGCCGAAAATCCTTTTCCTAGATGAACCGACGACGGGCCTTGATCCGCAAACCAGGCAGCACATTTGGGAAACGATCCAGCGCCTGCAAAAAGAGCAGGGGATGACCATCTTTTTGACGACGCACTATATGGCAGAAGCATCCGCAGCGGATTATGTGGTAATACTGGACCACGGGAAGATTGTCGCTGAAGGCAGTCCGATCAGCTTGAAAGAGCTCTACAGCTATGACCGGCTGAAGCTGTATCCGAAGAAAGAGCAGAATTTAGACAATATTCTGTCGTCTTTATCACTTAATTGGAATAAGGTGGCCGACCACTATGAGGTAGAACTGAGGAACACCATGGATGCCATTGATATCGTAGAAGGAATGCGGGACCAATTGCAAAGTTTTGAAGTCCTGCATGGAACGATGGATGACGTATTCTTGAATATTACAGGGAGGAGGCTAAGAGAATGA
>LACTIS1119B1_01310 multidrug ABC transporter permease protein
ATGAGCGCGATGGTCAAAAGGAATCTCAAGATTTACTTTAGAGACAAAGCTTCAGTATTCTTCTCAATGCTGAGTGTCATTATCATTTTTGCCCTCTACATCTTATTCATTGGTGATTCGGTGAATAGCGGGCTAAAGTTTCTGCCGCATCCCAATCGCTTGATGCGGGCTTGGATGCTAGCAGGGATGCTGGCTTCGGCATCGATCACTACGAGTTTAGGAGCATATGGGGTGATAATCAGCGACCGGGAGAATAAGGCGATCAAGGACTTTTACTCATCTCCGGTCAGCAGAAGACAGGTCGCGGGCGGCTATATCGTGACCGGCTTCATCATCAGCATCATCATGTCCATTTTTACCTTAATTTTTGGGGAAATCTACCTTGGTCTGGCCGGCGGGGCAGTACTGGATATAGAGACTTTACTAAAGATATTTGCTGTAATTGTCTTATCAGCTTTTACATCATCGGCAATTGCTTCCTTTATGATTTCTTTCTTGAAGACCAACAGCTCCTACTCAGCCGCAAGCACGATAGTTGGGACCTTGATCGGCTTTTTGGTTGGGGCATACATTCCAATCGGCAGCTTGCCAGACAACGTTCAGTGGCTGGTAAAGTACTTCCCATGTGCTCATTCAGCGGTACTTTACCGGCAGCTTTTGATGAAGCCTGCAATAAAGGCAAATTTTGCCAATCAGCCGGCAAGTGTACTAAAAGAGATCAGGGAAATGTTTGGGATTGTCTTCGTCTATAACGGCCACATCGCGCCTGCATGGGTATCAGTAGCAGTCCTGCTGGTTACTGGGGTAGTCTTCTACTTGCTGGCGGTTTTGGTAATGACCCGGAAACAAAATGAAATATAG
>LACTIS1119B1_01320 hypothetical protein
ATGCCAGAATCAAAACTGGAAAATTTTGTCTTTACTGTTATGATGGCCTTTGTTATGGTTTACGCCATGATCTGCTACAACATCGCTCTTACCATCGGCGGGATGAGGGATGCTGTCTTACTGGACGCCTTCCGCGAAATGATGATCATGTGGCCGGTTGCAATCATCCTGGAGATGTTTGTCTGTGAAAAGCCTGTCGTTTACTTGACTCAGCGGCTGATTACACCTGAAACGCCAATCTTGCTGATCATCCTGATCCGGTGCTCAATCACCGTCTGCCTTATGTGCCCAACGATGAGCTGGATCGCGACCGCGCTCTTCAAGAACTTCCAAGTAGCTGGCTTCATCGGAACCTGGCTGCAGACTGCCGTCATCAACTTTCCAATGGCGATTGGCTGGCAAATCTTCCTCTGCGGTCCTGCGATAAGATTCTTGTTTAGAACGATTTTTAGAAAAGATAACTAA
>LACTIS1119B1_01330 hypothetical protein
ATGTTAGAAAACAAAGCTTTGTTTGACGAGGTAGAAGCCGAACTTAAGAAACATGGCTCAATTCAAGATTTTGAAGAAAAATACGGTAAAATCACGGGCAGAATGATGATCACAGAAACAGAGATCCCCGAGGAATTAGGCATTGAGATAAATGATCCAGATGTTCATTCTTTCAAAGCCACTTTTGACTTCTATAATACCGCAATAGGCCTGGCGCTTAATGTCAAAACGAGAGAAGCAGCAACAAAATTCTGGCTGACTCCACAAGATGATAGGAATGACGTGCCAACGAACAGCTGGTTTGAATTTTTTGCCATGATTTTGATGGAAGCCTTAGATGAAGGCATGGATAGCATCCCAACTTTCTCTTTCGTCAATAATTCCAGTGACCTTACCATCAGCGGCCTGGGCCTGCTTGAGAAGAAATAA
>LACTIS1119B1_01340 arsenate reductase
ATGACCAAAGCAAAAGTAGCCTTTATCTGCACCCATAATTCCTGCCGGAGTCAAATCGCCGAAGCCTTGGGTAAAAAGCTGGCCGGGTATGTCTTTGAATCCTATTCAGCCGGCACGGATCTAAAAGATCAGGTTAACTCCGACGCGGTTCGGCTGATCAAAGAGCATTATGGCATCGATATGCTGGCCAACGGGCAAAAACCAAAGACCCTCGCTGACCTGCCGGCGGTTGATTACGTGATCACCATGGGCTGCGGAGTCCGCTGTCCTTATTTGCCTGCAAAAAAGCGGGTAGATTGGGGATTAGAAGATCCAACTGGACAAGATGATGAGACCTTTATGCAGGTGATTAAAGAAATCGAAGATAAGGTACTAAAGCTGAAGCAGGAGCTGAGTTAA
>LACTIS1119B1_01350 hypothetical protein
TTGGCCATCTATCAAAAAATGACTGAACCCGTTTTAGCCGATATCCCGCACATTGAAAGCTGGCTCTTAGAAACAGACGGTGAAGATATTGTCGGAAAGAGCCGGCAAAAGCACCTTGAAGAAGTCGAAGTAGGGCAGCTCTTGTCTCTGCAGCTAAATTCTCCTTACGAGCAGATTACGGTCTGCCCCCTGGAAGGGAATGAGCTGGGAAAATTAAATCATCCGCTGCAAGGTCAGAATCTTGTTTATCGACCCGAAAAGCCAAGAAAACTGAAGACCAGACAGCCACTGAAGCAAGCAACAGCTCCAGTGGCTTTTTTCGTCTAA
>LACTIS1119B1_01360 antimicrobial peptide ABC transporter ATP-binding protein
ATGGAAAAAGTGATGACTGTCAACAACGTTACAAAGACTTACGGTAAAAAAGGGGAGAAGAAGTTCCAGGCCTTAAAGGGCGTCTCGCTCAGCGTAGCCAAGGGCGAATTCGTCGCCATTATGGGGACTTCCGGTTCTGGTAAGACCACTCTTTTGAACATCATGTCGACCTTGGACAAGCCAAGCAGCGGCGAGGTTACGGTTAACGGCAAAAACATCGCCAAGCTGAAGAAGAACCAGATGGCCGACTTCCGGGCTAAAGAAATTGGCTTTATCTTCCAGGACTTCAACCTCTTGGACAACCTGACCGCTAGGGAAAACATTGCCCTGCCACTTTCTTTGCAAGGGGTAAAAAGCTCAGAAATCGATTCTAAGGTCGATAAGATCGCAGCTAAGCTCAACATCAGCGAAGTCTTGGAAAAGTACCCAGCAGCCATTTCCGGCGGGCAGAAGCAAAGAGTTGCTGCTGCCAGAGCCTTGGTTCATGAACCGGCAATCTTGATGGCCGATGAACCAACCGGGGCCCTGGATTCTAAGTCTTCCAGGGCCTTGCTGGACACGATGGAGCTGCTTAATGAGAAAGACCAGGTTTCAATCTTGATGGTCACTCACGATCCGTTTTCTGCATCATTTGCTGACCGGATTCTCTTTATCAGGGACGGCTTGATTGATGAAGAGATCAAGCGCGGGGACTTGAAGCGGCAGGACTTTTGCAAGAAGCTGATCAGCCAGCTCAGCGAAAATACCGACTAG
>LACTIS1119B1_01370 antimicrobial peptide ABC transporter permease protein
ATGATTTTTAAATTGTCAATGACCGGGCTGAAAAGCCGGCTAAAAGACTACCTGGTCCTGTTTTCCGGCCTTAGCGCCGCCAGCATGATCTTCTACATGTTCTTGACTCTGGCCGCTAACCCGTCTTTCTTAAAGTCCAGTGTAGCGGGACGGCTGACCATGGGAGCAACTAAGTTTATTTTTTCCTTCGGGATCGTCCTCCTGGCCATCTTAACCCTGGTCTACTTGGCATACGCCAACAGCTTCCTCTTGAGCATGAGAAAGCGGGACTACGGCATGTACATGATGCTGGGGGCAAAAAGCGGCAAAATCGGCCAGCTGATCTTCGCTGAGACCCTGGTAACTGGCCTTCTGGCAACCGGGATTGGGATTATCTTGGGCGTGGGGCTGACTGAACTGGTCTCATCCTTGATGGTCAAGCAGCTGGGGCTGACTCTGGCTCACTTTAATCCGCTCTACCTGCCAGCGGTTCTCTGGACCTTGCTTTTCTTTGTCGCCTTGTTCTTCCTGGCTGCTTCTTGGAACGCGGTCAAGCTGACCAAGACTACTCTGATCAATCTCTTAAACGAAGATCAAAAGCCAAGCAAGCTGAAGAGCCGGCCGGTCTTACGGACTATCCAGGCTATCGCGGGGGTACTGCTTTTGGCTACCGGCTACTGGGCAATGTGGCATGTGGCGACTTTGCAGCTTAAGGCAATTCCGATCGCTTTAGTAACCATCGTTTTGGGCAGTTTTTTAATCTTTGATGCCTTCTTCGTAGCTGTCATCGACTTTTTGCGGAAGAGACACAGCTTCCTCTACAAAGGGATGCGGCCTTACACTCTGGGCCAGTTAAAGTTCCGCCTGCATGGCTATACCAGAATCCTGTCAGCCATCTCAATTATGCTGGCCCTGGCCCTTGGCGCTATTACGGTCGGCATTAACTTCAACAACTTGAAGAATGCCATGACTGACGTTATGTACTACGATATTGTCCTAGTTGGCAAGCAGAAGAAGCTGGCTGACAAGGTTGAAAAAATCGGTACAGAGGAGAAAGTTACTTACAGCTACAGGGCTGATGAGAAAAATGGCATCCTCTATGTCAAGAAAAGTGAAATTGATCAGACGCCGCTCAAGATCCAAATGTATAACGCAGCATCTTCAGACAAGAAGAAGGCGATTGACAAGGAGGGGCGGATTTACCACACGGTTGAGGTTACTTCCAAGACCTTAACTGGTAAGCAGACTTCAGCTACGGTCAGAAATTCTGCTCAAGCCGCCAGCCTCTTCCCAGAAGATTCCAGCAAGGGATTTGTGGCCTTGTCAGATGCAGCTTTTGCCAAAAAGAAGCTGACGACTAAGGTCATCACTTTTTACAAGGTTAAGGATTTTGCCAAGAACAACAAGAAATTGCTGAAGCTTACTGAGCAAGAAATGCAGCTGTTCAGCAAGGACTCAATGGCATACGGCTACCTGGAATTCACCAAGCCGTTTCTTTACCAGCAAATCGCGGCAATGTGCTCAGGCTTTGAATTTATGGGCCTTTTCCTTGGTTTGTCCTTCTTAATGATGCTGGCTTCAACTCTGATGTTTAAGATCCTGTCAGCCGCAGCCAGTGACAAATTGCGGTACAAGATGCTCTACAAGCTTGGGGCTAGAAACAGCGTCTTGAAGGCAGCGATTAGAAAAGAAATTGCCATCTTGTTTGTGGCACCGGCGGTACTTGGCAGCCTGGACGTACTCTTTGGCTTGAAGATCTTTACGATTCTTCTGCCAGACCCCTACTACAAGATTTGGATTCCATTCTTAGCATTCTTCCTCTTGTACCTGGTTTACTACTTACTTACTGTCAAGCTTTACCAGGGAGTCGTTTTAGAAGAGACTAAGCAAGACTAA
>LACTIS1119B1_01380 hypothetical protein
ATGGCCGGAGCAGTTCCCCCGGCGTTCAGAGTCAGTCTTGTTAATCTCCAGCATTTCGGGATGCAGATGGAGCTACGATTTCCAAATCCTGTGCTGCCAAGTCTTGTAAAGATAGTTGCTTTTTCTTGGCTAAGGGATGACTTGCTGGCAAAGCTACTCGAAGAGGCGAAGGAACAATGGATATGA
>LACTIS1119B1_01390 hypothetical protein
ATGAACTTTGATATCGTAGTAGTAGGAGCTGGTGCTTCTGGCATCAGTGCAGCATTAACTGCATCAGAATGCGGAGCAAAAGTAGCACTATTGGAAAAAGGCGACAAATTTGGCGGTGCAGGGATGTTTGGTGCCCAGGGACTATTTGCGGTTGAAAGCAGGGCTCAAAAAGAAGCTGGAGTGAAGTACAGCCTAAAAGATGCCTATGAGGAAATCATCAATTATACTCACCATTCATCTAATGCGTTAATGGTTAAGGCCATTCTTGAAGAATCAGCAGCCACAATCGATTGGATGGCTGAATCAGGTTTGGAGACTGAACTAGTAACCAACACTCAAGAAGTCCACCAGGAGCATCCCAGAACATATCACCAATTTATCGATAAATTTAACGGATTTAAGCGAGTAATGAACAAATTTCTAGAAAGCGACGGAGTCCTTATGACCGAAACTTCGGCCGAAGAAATTGTTCAAGAACAGGGTAAAGTAACTGCCGTTAAAGCAAACAGAAAAGGCGAAGAAATCACCAGCCGTAATCTTGGCTGA
>LACTIS1119B1_01400 hypothetical protein
TTGGCTGATGGGGGATTTGTTGGCAATAAGGACGAAATCAAGCGTACTTTAGCAATTGATCCAGATGACCTGTACTCAATGGGTGAACGGAAAGCTACCGGTGATGGCCTGCAGATGCTCAAAGAAGCTGGCGGCGTTAGCGATTACAAGAGAATTTTTGAAAACCATGCGGCAACTGTCTACTCAAAGACGGATCCAAAGTGGCACAACGCAAGTCTTTTTGACTTGACCAACATCCCACTCTTATGGGTTAACCGGGAAGGCAAGCGATTTACTAATGAAGACGTAGTATATGATTTCGCATTATGGGGTGATTCAGTTTACCAGATCGGTGGATACTACTACTTCCTTTTTGACCAAGCAACTGTCGATTATCTACGTCAGCAAGCTTTGGACTGGACAAGTTCATTTGAAAGAACCTTCTGCCTGCTAGATAAAAAGCCAATGACTTATCAAGTTGGTCCATATCCGCAACTAGACCAAGATTTAAATGAGGGTATCAGCCAAGGTGCTGTCTTCAAGGCAGATAGCATTCAAAAATTAGCAGAGAAGATTGCGGTTGATCCAGCAAATCTTACTGCAACAGTTAACCGATACAATGAACTGGTGGTAGAAGGTAAAGACATGGATCTTTACAAAGATGACCGTTTCATGACTTTGTTGGTCAAAGAGGGACCTTTCTATGCAGTTCGTGCTAATTCAACTACCCTGGGGACTGTCGGTGGTGCATTAGTCAATGAGCATTTTGAGGCTCTAAATGTGAAGAGACAAGTAATTGACGGTATTTATGCTGTCGGAAATGACGCATCAGGCCTTTATGACTCATCTTATCCAACAATTGAAGGCTTAAGCAACGCTTTTGCATGGAATTCAGGTCGAATTGCTGGCAGGTATGCTAGTGCTTATGCAGCAATGAATTAA
>LACTIS1119B1_01410 toxin-antitoxin system antitoxin component Xre domain protein
TTGGCCTTAGATGAAAACGTTGAACCATTGACACAAATAAAGCTAATCAAGCTACTGTATTTCGCATATGGGCGCTATCTGGTGAAAACACACAACAAATTATTTACGTCTTCAATAGTGCACTCACAGTACGATCCAGTAATTACAGAAGTACATAGCAAATTCAAGGGACTTACGGTATTAGATACTGGAAAGCCTAGTAAAGAAGCATTTGATGATTATAACTTGGTTTCTAAAGATAGCGATATCTCTCACCTGTTGAGATTAGTTAATGAAGCCTACATTAATTACAGTGCATCTGGATTAAGCCAAAAGACGCATCAACCAGGATCCCCATGGTCTTTAACTGATGACGGCAGGATTATCAAGGATCAATTGATTTTTGATACATTCAGTAATGGCTTAGAAGAATAA
>LACTIS1119B1_01420 hypothetical protein
ATGGCTAGACAAGCGTATCGCGACGACATGGGTCTCCTCTCGCCAACAGAACTCAAAAAATATCGGGCTAAAGTTGGTCTTTCTCAACGCAATTTGGCAGAACTGACAGGACTTAGTCCAAATACTATTGCTCTGTACGAAGCTGGTGCATTTCCTACACCGGCAAACAATAAAATGTTAAAGTACTTGATCAATGACGATGAATTGTTGCGTCAATACATAATGGATGACACTAATAATTACTCAAATGATCTTGTTGCTAAGGTCAAAGCTTATCTTCAGCAAGAAGATATTGTTGTTATTGACCAAAGCTTCCAGTCAAAGTTCATTGCTGTACAATTGGCAAATTGGCTAAGAGTTGAAAATTATTTTGGCCTTAGATGA
>LACTIS1119B1_01430 hypothetical protein
ATGGAAGTCGCTGAAGCACTGAAAAAGTTAAAATTTCTGGTCAGTCATGATAGATTTAAATTGGTTGCAAGACAAGGCACAATGAAAGTACCTGTTTCTCGCATGTTAGCAAAGACAATCATTGAGCAATTATCGTCAGAAGACTTTGTAAAACACAGCGCCAGCTCGCTTTGGTGA
>LACTIS1119B1_01440 hypothetical protein
ATGGAGGGGAGAGATTGCGAGATCTACTTTAGTGAGTACAAGGACCATGTAAAAGAAATCGTTAAAAATTACCCTGAAAAAACACGATTCTATTCAGTTGGCGGAGACGGCTTTTTCAACCAAGTCATCCAAAATCTCGTGCACACAAACCATGGAGTTGTTTGCCTGCCATTTGGGACGGGCAATGACTTTTCCCGCGCGAGATGA
>LACTIS1119B1_01450 ribosomal-protein-serine acetyltransferase
ATGTTTAGCTACAAGATCAACGATGAATTAGAGTTAGCCGTGCCAAGATTGACTGACGGTGAAGCTCTGTATGACTTAATTGACAGAAACCGGGACAACTTATCCTACTACTTGCCTTGGGTTGACCACGTTCATGACGTGCAAGCTGAGACTGACGCTATTAGGCGTGATTTAGTCAGGTTTGCTGAAGGCAAAGCCTTAGACCTGCACATTTGGTATCATGGCCGTTTAGCTGGCAAAGTCAGCTTGAATTCAATTGATGCTGTGTATTCTGAGGCAGATATCGGCTACTTTTTAGGCAAAGAATTCCGCGGACGCGGAATCATGACGCTGGCTACCCGGGCTATCATCGATATCGCCTTTGGGGAATATGGCCTACACAGAATTATGCTACAGTGCGCTGTAGACAATCTGCCAAGCAATAATGTGGCTAAACGGCTAGGGATGCGGTTTGAAGGCTGCCATAAGGGCCGGTTGATCCTTAGAGACGGCTATCATGATAGTAGTGAGTACGCGGTGCTTGCTGAAGAATGGCCTGATGTGCAGGAAAAGTACTAA
>LACTIS1119B1_01460 hypothetical protein
ATGGTCAACACTTACGTGTATGACGAAAAAGGCAAACGGACCAAGGACAAGAAGATCCTGGCCGGTAAAGCCGTTGGCTGCTACAGCATGATTAATTATGTTGGTGACAAGCCATATATCATGATCGGCCAAAACAAGTACGTGGCATATATGAACGTGGTTGGCTTAGATTGCCAGTTGAACCATAACAGCTACATTTATTCCAGCAGTGGCAAGCGGATGAAGAATTCCGGTGTCTTGCTGAAGAATGGCCTGGTAACTGTCTATGGCGGCAAGAAAAAAATCAATGGCAGCAAGTACTGGGCAATCGGCGTTGGCTTGTACGTTAAGGCAAACAACGTTGAAACGCCTAAGGGCGAAGTCACTAGTGATCCAAACACACAGAACCAAACAACTGAACCGCAAACATCTTAA
>LACTIS1119B1_01470 peptidyl-prolyl cis-trans isomerase
ATGTCTGAATACCCACAACTTAACCTTGACCAAGCCAAGGGCCCAAAGGCAACTATCAAGACCAACCACGGCGACATCGTCATTCAGCTTTTCCCAGAAGAAGCACCAATGACTGTTGAAAACTTCGTCCGCCTGGCACAAAAGGGCTACTACGACGGCGTAACTTTCCACCGGGTGATCAGCGACTTCATGATCCAAGGCGGGGACCCGGAAGGTACTGGTGCCGGCGGTCAAAGCATCTGGGGCCACAACTTTGAAGACGAATTCTCAAACGAACTCTTCAACCTGCGCGGGGCTTTGTCAATGGCTAATGCTGGTCCAAACACCAACGGTTCACAATTCTTCATCGTGCAAAACAAGAACATGCCAAAGCGCTTCATTCAACAATTGCGCGATGCCCAATACCCAGAAGAAGTTGTCAAGGCTTACAAGCAAGGTGGTACGCCATGGCTTGACCACAGACACACTGTTTTTGGCCATGTAACTGAAGGCATGGATGTCGTTGACGAAATTGCCAAGGTAGCCAAGGACGGCAACGACAAGCCACTTGAAGACGTGGTAATCACGACTGTTGAAATTGCTGACTAA
>LACTIS1119B1_01480 aspartate aminotransferase
ATGCCAGAAACAGATCCTAACTTGCGGGATTTAGGCAACAGAAATCTTGCTAAAATCGCGCCTTCAGCCATCCGGGCTTTTGACGAAGAAATCTCCCAGATTCCGGGAATCATCAAGCTCACCTTGGGGGAACCAGACTTCGCGGTGCCAGATCATGTTAAAAGGGCCGCTATTCGGGGAATTGAAGCAGACGACTCCCACTACGGGCCATCAAAAGGGAAGCTGGCCCTGCGTGAAGCTATCAGCAAGTATCTTGCGGCAAGCAGACAGGTTGACTATGACCCGGAAACTGAAGTTATTGTCACTGACGGGGCAACTGAAGCAATTACGGCAACTTTACTGGGACTTTTAAATCCAGGTGATAAGGTTTTAGTGCCAACACCAGTCTTTTCCCTTTATTTCACCAACATTGAAATGGCAGGCGGGGAAGTGGTGATGATCGACACCTCAGATACTGGCTTTAACTTGACGCCAGAGCGGCTGGAAGCGGAGATTGAGGCGGCCGGCGACCAGGTTAAGGCAATCATGCTCAACTATCCATGCAACCCAACGGGGCGGACTTATTCCAAAGCTAAGTTAACTGCTTTAGCGGAAGTGATCAAGAAGCACCATTTGCTGGCAATCTGTGATGAAATCTACAGCGAACTGACTTACGACCAAGAACATTTCTCTTTGGCTACTTTACTGCCAGGACAGGTAATCTTGATCAGCGGCTTATCTAAGTCACATGCCATGACCGGCTACCGGCTTGGATATATCGCGGCTCCGGCAAGTTTACTGCCAAATGTGGCCAAGGCCCACAGCTTCATGGTGACCTGCGTGGACAATATCGCCCAAGACGCGGCAATTGAGGCTTTGACCAAGGGGCTTGACGATCCAAAAGAATTTAAGGCAGCCTACCAGCGCCGGCGGGACTTCATGGTTGATAATCTGACCAAGCTGGGCTTTGAAATGGCCGTACCGCAAGGGGCATTTTACATTTTTGCCAAGATTCCGGAGAAGTTCGGCAGTGATGACTTTGCTTTCGCCAAAGATGTGGCTAAGAAAGCCAGAGTTGGTCTGATTCCAGGCAGCGTGTTTGGTAAAGGATCTGCTGGCTATGTCCGCTTTTCTTACGCGGCAGCCGATGACAAGCTGGCAGAAGTAGTCAAGCGGCTTGGTGAATACGTTGCTCAGCTCTAA
>LACTIS1119B1_01490 4-hydroxy-tetrahydrodipicolinate reductase
ATGCCAAGAATTTTATTGGCCGGTTTTGCCGGCTCAATGGGCCAGCAAGTCGTTAAATTAGTAGCAAGCCTGCCAGACTTTGAAATAACGGCCGGCCTGGCCCACCGTTTAAAGAGCAGCGATCCAGCAGACTATGGCCTGCCAGCAAGCGCTAAGCTGTACACCCGCCTGGATGAAATTCCAGCCGACGCAGCAGATATCTGGGTTGACTTTACTGTACCAGCCTCTGTCTACCAAAACGTCCGCTATGCCTTGGAAAACGGCTACCGGCCAATCGTAGGGACGACTGGCTTGACTGACCAGCAGGAAGCTGAGTTGAAGCAATTGGCCAAGGAGAAGGGAATTGGCGGCTTGATCGCTCCTAACTTTGGCATGTCAGCTGTTTTATTGATGAAGTTTGCCCAAGAAGCAGCTAAGTACTTCCCAGACGTGGAAATCATCGAAATGCACCACGAAGACAAGAAGGATGCTCCATCAGGCACGGCCTTGGCCACAGCCAAGCTGATCGCTGAAGTCCGCGAGCCCCACCAAACAGCAGCAGACACGACAGAAAGCCTGCCAGGGGCAAGAGGCGGCGATTACCAAGGCATCAAGCTGCACGCGGTTCGCTTGCCAGGCTACGTCGCTCATGAACAGGTACTTTTTGGTGGCAAGGGGGAAGCCTTGACCATCCGGCAGGACTCCTTTGACCGGTCATCCTTCATGAGCGGGGTCAAGGTTGCCTTGGAAAAGGCAGCTGACTTAAACCAGCTCTATGTCGGCCTGGAAAACATTTTGTAG
>LACTIS1119B1_01500 N-acetylneuraminate lyase
ATGAACCACAACTTACAAAATGCGGACTTACTGACAGCAATCATTACGCCTTTTACGGAAGACGGACAGATCGACTTTGTCAGCTTGACTGAATTAACCAACAACTTGATTGACCAGGGCTGCAACGGCTTTGTGATTGGCGGGACAACTGGTGAGACGCCAACTTTGACCCATGACGAAAAGATCGCCTTGTACACCCGCTTTGGTCAGATTGTAAATGGGCGTGTACCGGTTATTGCCGGCACGGGCAGTAACAACACAGCGGAAACCATTGCTTTTACTGAAGAAGTTGCCCAGATCCCGGGCATCGACTATGCTTTGGTTGTCGTTCCGCCATACAACAAGCCAAACCAGCGGTCAATGATCGCTCACTTTACGGCAGTTGCTGACCAGGTTCACATTCCAGTAGTCATCTACAACATTCCGGGCCGGACTGGGGTTAAAATGGAAGTGTCAACTATTTTACAGCTGGCCCAGCATCCCAATATTGCCGGTATCAAGCAGTGCGCCAGCCTGGAAGAAATCGAAGAGATCGTATCCGGCCGGCCAGTAGACTTTGCCGTCTTTACCGGCGAAGATGCCCAGGCGCTGACGGCCAGAACTTTGGGAGCTGACGGGGTCATCTCAGTTGCCAGTCACCTGTACACCCCAAGAATGCGGGAAATGTACGATGAACTTTACGCGGGCAACTTTGCCTTGGCCGGCAGCCTGCAGCGCTGGCTGACCCCGCGGATGAACGCCCTGTTCATGTTCCCGTCACCATCACCAGTTAAGACGGCTTTAGCTGCCATGGGTTACCAAGTAGGCGGCTTACGGTTGCCGCTTGTAGCTTTGAACGATGAAGAAAAGGAAGAACTCGCCACTGCTTTGAAGCTGCCGAAGGATGCATTAGCTGGTCAGCTGACGCGTGATATGTTAGAAGGAGATTAA
>LACTIS1119B1_01510 acetyldiaminopimelate deacetylase
ATGGCAGTATTGACCGAAGCCGAGTTGCTTCAAATCCGGCGCCAACTCCACCAGATCCCGGAATTGGCTTTAAAAGAATATCAAACCCATGCTTATCTCTTGGATGTGATCAAGCAGATGAAGCAAGACTACCTGGAAATCAGGGAACCAGCAGAATTGCCAACCGCGCTCCTGGTTCTGGTCAAGGGGTCAAAGGCTAAACGGACCATCGGCTACCGGGCGGATATTGATGCTTTGCCGGTAACTGAAGCAACCGGCCTGCCATATGCTTCCAAGCACCAAGGTGTGATGCATGCCTGCGGGCACGACATCCATATGACGGTTGCTTTGGGTGTTCTTAGCTACTTTAGCGAGCATCAGCCAACTGACAACCTCCTGTTCTTCTTCCAGCCGGCTGAAGAAAGCGAGAGCGGCGGCATGAAGGCCTACCAGCTGGTACTTTTCACCGGTAAGTGGCATGTTGATGAATTCTACGGCCTGCATGATAACCCAAGTCTGCCGGCTGGGGCGATTGGCTGCCGGAACGGCACCTTGTTTGCCGGAACGACTGAAGTCAACATTGATATTCAAGGCAAGGGCGGGCACGCTGCCTTCCCGCAATTGTCAAATGACGCGGTTGTCGCGGCAGCGGCCTTGATTATGCAGGTCCAGACCATCATTTCCAGAAATATTGATCCGGTTCAAAGCGGGGTTATCACCTTGGGCAAGTTGACTGCCGGCAAGATCAGAAACGTAATCGCTGATTCAGCCAGAATTGAAGGCACGATCAGGGGACTTACCCAAAGCATGATCGAATTGATCGACAAAAGGCTGGCCGAAGTCTGCCAGGGAATTGAGCTGAGCTTCGGCGTCAAAGTCAAGCTGGAACTCAACCAAGGCGGCTACTGGCCAGTTGAAAATAACCCGGAATTAACTGAAAACTTCATTAAATACATGAAGCAGGCTGACGGGGTTGAATATGTCGAAACGGCCCCGGCGATGACCGGGGAAGACTTCGGCTACCTCCTGGCTCAGATCCCGGGAACCATGTTCTGGCTGGGTATTGAGGACGATTCACCCCTGCACTCAGCAACATTAACCCCCCAGGAAAGTTCAATCAGCCGCGGCATCGCGGCAATTACCGGCTTTTTGGAATACCGAATGACGGAAGACTAA
>LACTIS1119B1_01520 2,3,4,5-tetrahydropyridine-2,6-carboxylate N-succinyltransferase
ATGGCAGAATTAGACGCGCAAAGCATTATCAACTACATTGGTTCAGCACCAAAGAAGACCCCGGTTAGGGTTTACTTGCGAGGCGCCGGCCTTGATCAAGTCACTTTCCCAGATGGAACGGATCCTTTTGTTAGCGGTCAAGCTGGCGTAGTCTTCGGCGATTGGCAAGTTCTTAAGCCGTTTTTAGCAGAACACGAAGCTGACTTTGAATCTGTCCGCGTGGAAAACACGGCCCGTAATTCAGCCGTTCCTTTGCTGGACCTTAAGGAAATCAATGCCCGGATCGAACCAGGCGCTATTATCCGTGACCAGGTCTTGATCGGTGATAACGCGGTTATCATGATGGGGGCGGTAATTAACATTGGCGCGGAAATCGGCGCCGGCTCAATGATCGACATGGGCGCGATCTTAGGTGGCCGGGCGATCGTCGGCAAGAACTGCCACATCGGTGCCGGTACGGTCTTAGCCGGGGTGGTTGAACCAGCTTCTGCCTTGCCGGTCCGCATTGACGATGACGTTCTGATCGGTGCAAACGCGGTTGTCCTGGAAGGCGTCCACGTCGGTGAAGGTGCAGTTGTAGCAGCGGGTGCGGTTGTGACCAAGGATGTGGCTCCGCACACGGTGGTTGCCGGCGTTCCAGCCAAGGTAATCAAGGAAGTCGATGCCAAGACAGAAAGCAAGACCGGCCTGGAAGAAGACCTGCGTAAGCTGTAA
>LACTIS1119B1_01530 aspartate kinase
ATGAAAGTTGTTAAGTTTGGCGGCAGTTCCCTGGCTAGCGGTCCTGCTGTAGAAAATGTTTTGAAGATTATTACCGCTGAAGCTGAAAGACAAGTTGTCGTTACGTCTGCACCAGGCAAACGCTTTGACGATGACATCAAGGTCACTGACCTTTTGATCAAGTACGCCCATGAAATCAACCATGGCAGAAACGGGCTTGAAGTTGCTGACCGGATCTTCCAGCGCTACGTTGAAATCGGCGAGTACTTTAACTTGCCGCTCGAAGAAATCTTGCCCTTGAAAGAAATCCTGCTGAATTTGCCAAAGGAGCACTATCCAAACAAGAACTATCTGCAGGCGACCTTTAAGGCCCACGGCGAGCGGCTTAACGCCAAGCTGATTGCGAAGATTCTGCAAAGCCAAGGGGTAAAGGCCCGCTATGTTGATCCTAAAGATGCCGGGATCATCGTTACCGGTAGTCCAAACAATGCCTCTGTCAACCCGGAAAGCTACCAGCTCCTGGAAAACTTTGCCTATGACGCTGACGAAAAGCTGATTTTCCCAGGCTTTTACGGCTATACTCTGGCTGGCCATATTGCTACCTTCTCAAGAGGTGGTTCAGACATTACCGGGGCGATTTTGGCCAGAGGTTTCCACGCTGACTTATATGAAAACTTTACTGATGTCGATGCTATTTTCTCCGCTAACCCGAAGGTTGTTGACCAGCCACAGCCGATCCACACGATGACCTACCGGGAAATGCGGGAATTGTCTTATGCTGGTTTCTCTGTCTTCCACGATGAAGCCTTGATCCCGGCCATTCAAGGGCAGATTCCAATCAATGTGAAGAATACCCAGCACCCGGAAAAGCGCGGGACCATGATCGTACCGGAAAAAGGCTTCAAGCCTGAAACCGTCATTACCGGGATCGCCAGCGGCAAGCACTTTGGTGCCCTCTACCTGCACAAGTACCTGCTCAACAAGGAAGTTGGCTTTACCCTCCGCATCCTGCAAATCTTAAACAAGTACAAACTGTCCTATGAACACATGCCAACCGGGATTGACGATTTGACTTTGATCTTTGACCGGGACACGTTAAACGATGAATTGATCGACCAGATCTGCAATGAAATTCAAAATGAAGTCAGTCCTGACCACTTGGAATGGATCAGCAATTACGCGATTATCATGCTGGTCGGTGAAGGGATGAGGGACCGGATCGGGGTCATTCGGGATATTGCCACGCCTGTAGCCAGAGAGGGTATTTCTCTCCGGATGGTCAACCAAGGGGCTTCCGAAATTTCTATCATGCTGGGCACGGCAGCTAAAGATGCCGACCGGGCGGTAGCCGCGATTTACGACTACTTTTTCAAGCAAGAAGCACAAGGAGAATAA
>LACTIS1119B1_01540 diaminopimelate epimerase
ATGACTAAATTATTGAAAGTCCATGGCTCACAGAATTCCTTCTTCATTCTGGACCAGACTGAACTGGAAAATCCGCTGACTGATAATGAACTGCGGCAATTGACCCAGACACTTACTGATCACAAGACTGGCCTGCTTGGCGGAGCTGACGGCATCCTGTCAGTTGAGGAATCAAGCCACCCAGGCGTTTTAGGCAAGATGCGGGTTATCAACGCTGACGGCAGTGAAGCCTCAATGTGCGGCAATGGTCTTAGAACAGTTGCCCGCTACTTGCACGAAAAGACCAGAGAAAGCCAGTTTAAGGTGGAAACCATGTACGCTGACCTGGCCGTCCGGCAAGCTGATGACTTTGCAGAAGGAGTGCCGGCTTTCGGGGTAGAAATCTCCCCTATCCGCTTCAATAAAGAATCTTTGCCTTTTGACAATTTGGGACATAACCGCCTGCTAGACACTCTGGTACCAGAACTGGTCCCAGGCTGGCGTTTTAGTGCTCTGGCCGTGCCTAATCCCCACCTCATCGCCTTTATCAAAGAAGAAGACCTGGAAAGTCCGGTCTTAGGAGAGCTTGGTGCCTACTTGAATGGCGAAAATCCATACTTCTCAGACGGGGTCAACATCAACTACACCGTTATCCGCGGCGATAGCCAGCTTTTTGTCAGAACCTACGAACGGGGCGTTGGCTTTACTAACGCCTGCGGGACAGGGATGTCAGCCAGCTCATTGGCCTTTGCCTTGACTCACCCGGACCTGGGCCACTTTGAAAAAGAGATCTCTGTCTACAATCCTGGCGGTATGGTCAAGACCGTCTTGCACCAAAAGGATCACGGCTACTGGATCGAACTGATCGGCAACGCGACTGAAACCCATACTACTGAAATTCCAGAAGACCAGCTGCACAGCGGCCAGGTTAAGCTGGAGGCGGTGAAGACCAAAGAAACTGGTGAACAAGCTGCATACCTGGCTTTCGTTAACCAGCTGATCAAGTAG
>LACTIS1119B1_01550 hypothetical protein
ATGAAAGAAGAAAGCAAAGTCTTAACAGAAAAAGAAACTGACCAGCTGATCAGCGACTTCTTTGAGAATTATGAGAGTTACTTTGACCGGCCATATTACATGGATGTGCTGGCCCAGCCCCTGGCTAAGCAGTATCTCCGGCCGAGCAGCTTAAAGGTTTGCCTGGCTTACCAATTGCTGACTAAGGAGTGGCTGAAAGCCAAGCTTGAGGAAGAGTCTTTCCATGACAACGGAGAGAAGGAGCGGATCTACCTGGAGCCTGGCAAGCTGAAGAATCATTTGCCTAAAGAAGATTGGGATCTGGCCAGCGACTACCTGTTTCCAGGAGACAAGCAGGCTTACCTGGAACTGACAGCTGATAAAAAGAAACTTCTCTTACCAAGCAACAAGCGCCAGCAGCTTCAGCACTTTAAGACAAGTTTGGCTAATTGCCAGTCCTGGCAAAAGCTGCTTTACCATATCAAGGAAAATCATGCTGACCTGTCGGTCAATTGGCATTTCAAGAACCAGTCCAAACTGGAAGTGACTTTGACGGGAAGAAAGGATCACGAGCATGCTTTTGCCTTAAAAGAGCAAGAGGCGATGGACGAAGAGTATGACAAGTTTTTGGCAAATTCAAAGAAGAAAGAGGCGAATTACAAGAAAAAGATCAAAGAAAAGGTTGCTGCTTCCAGCCTGCGGGGGGACCTGTTAGCCCGGGCAATTGCCCAGCTTGCTTTGAGAAATGAGACGCGGATTACGCCAAATAACTGTCTGAAGATTCTGCGGGGATTGTCTTATCCGGATTATGACGCCATCAACCACAGCGACTATGACAGGCATTTTCGCTTTCTACCAAACCAGGAGATTCTGCAGGTAATTGAGGCGATGCAAAAAGACGGACTGATCGCGGCTGAGGAACGCATTTATTCTGACTATCATGTCTATTACCATGAATTGGTACCAACTGATTTGACTGAGGAATTTCTGAATGCGGAAGCAGCTGAAGGGTCAGATCTTGCCTTGCTGAAGGAACTTAATGAGTCTGCAGATAAGACTGATCTTTCTGCTTTTAACGTTGTTAAATTAAGCCAAGAACTTCTGCAGCATCCCGCCCTGGTTTGCGTTGACCAGGGCTATCAAGCCTTTATCGACCAGCATGACTTGGCAAGAGAATACCTGAAAACCCGCCTGCAGCTGACGACCAACAAGTTTACCAAGAAGTATCTCCGCCTGCTTTTAGAGGGGGATGCAGAAAAAAGCATCCCTGGCCAAGCGGTGAATGCTTGA
>LACTIS1119B1_01560 hypothetical protein
ATGTCCTATGGCGAACTTACAGAAGTATTGCGGAAGGTGCCAACCATTGGCGTCTATTCAGACTATAGTAAGCCATTAAGAGAATACAAGGCTAAGCAGGGACAGCTGAACAAGAGGACCATTATGCTCTGGATGGGAGATGCCAGAAACAACTACTTGCCAAGCGAGGAAAAGATCTTCAAGGATTTGTGCCGACGGGTGAATAAATGCTACTGGCTTAATCCTGAAGCTAAAAGCAAATGGAATACCGGAGACTCAGTCATCGGCAGATATACCCCATATGTCAGTGAACTGGCTGAGGTTACCAATACGGCCTCTTTGATCAAATATTTGTGCGAATTACAGAATTGA
>LACTIS1119B1_01570 hypothetical protein
ATGACGTATTCAATTCAGCAGATCCGGGAGGGCTTAGAGAAAGCTGGCTATGTGGCTAATGACGAAATCACGACCGCGCCAGAAACCATGAGGAATTTGCAACTTAAAGGCGGGGATGTCCTATGGCGAACTTACAGAAGTATTGCGGAAGGTGCCAACCATTGGCGTCTATTCAGACTATAG
>LACTIS1119B1_01580 glutathione reductase
TTGTGGGGCGGAACCTGCCCGAATACCGGCTGCCAGCCAAAGATTTTTCTTGAAGGCGCCGTCCGTCCGGTCTTGAACACATATTATCTGACCGGCAAGGGAGTAAAAGCAGCCGCCCAGCTGGACTGGAAGACTTTGATCAAGCGCAAGAAGGAGATCTGGGCAGAATTTCGCGCAGAAGAGCGGTCCAGCATCGAAAGCGACCAGGTGGATACTGTCTTTGGCAGCGGGGTGATCACTGGTCCGCATACAGTTGCGGCAGCTGGAGAGGAATATGAAGGCATAAATATCATCATCGCGACAGGTCTTCTGCCGCACCACTTGGAAGTGCCGGGTAGTGAGTACGCCATCACTAACGATGAGTTTTTTGACTTGGATGAATTGCCGAAAAAAGCGGTCGTCATTGGGGGCGGCTATGTTGCACTGGAACTGGCTACAATCTTGCAGGCTGCTGGGAGTGAAGTCACGGTCTTGCAGCACTCTGAGAAGTTGCTGCGGCCTTTTGACCAGGAATACGTCGAGAAATTGACGGAAATGATGGAAGAGCGCGGCATTGCGATTCATCTGAACATGCCAGTTAAGGCAATCGCCAAAAATTCTGCTGCTTATGAAGTAACTGCGGAAAGCGGGCAAAAGTTTGAAACTGATCTGGTAATCGACGCCTCTGGCCGGCGAGCTAATATAAACGGCCTGGGCTTGGAAAAATTAGGGATCAAGTTTGATCCGGTCAAGGGCGTGGCGGTCAATGAGCACTTGCAGACCAATGTCCCGAGTATTTTTGCCGCCGGGGATGTCGCTGACAACGGGCAGATGAATCTGACGCCGGTTGCCTGGGTCGACTCCTACCACATTTATGATTTTGTCGAAAATGGCCTTACTGAAGGAATTAAGTACCCGGCCGTAGCTACCAGCACCTTTACCTACCCGCAAGTCGCCCAGGTGGGCAAGCGGGAAAGTGAAATGGCAGAAGGCGATACGGTTAGAAGAATGAAGCTGGGGTCGACTTTTGCCGCTTTGGGCGAAGGCGATGAAGAGGCGGAATTAAAGGTCATCTTCGACAAGGATGGCGAAGTGGTCGGCGCTTCAGAAATCAGCATCAATGCCGGGGAGGACATCAATCTCTTCGCCCCGCTGATCGGGAGGAATGACACGGCAGAATTTGCCATGAATAATTTAGGCTTCGCCTTCCCGACTTTAGCCAACAAATTGGACGTTCTCTTCCGCTAG
>LACTIS1119B1_01590 hypothetical protein
TTGACCATGACGGTTGCTGAATATACTCAGATGCCAGCTGGCATCATCTTGGTCGGCCTCGGTTTTGGCCTGCCCAGTATCGTTTATCAAAATGACAAGCTGGCACCAGCCTACCAGGTCTTAATCCACATGGGAACCGGCTGTCTGGTCATGACCCTGGTCAGCTTTTGGACTGGCGTGATCCCGGTTAAAGCCGGCTTTTGGCCGGCCTTCTTGACTATTGCCGGTGAAATCGCCATTGCCTTTATCGTCTGGCTGATTTTTTACCAGCAGGAAAAGAAGCTGGCCCGGAAGATGAACGACCGGATCAAGCAACTGAAAAAGTAA
>LACTIS1119B1_01600 hypothetical protein
TTGTTTGGAAATCTGCATGAAGTCCTGGCCCAGCTGCTGGTAGACCTCATACAGGCGCTTTCTGGAAAAATACTTGCCTTTTCCGGTGTAGATGACCGTACCGCCGCCTTCGACCCGGACAAGGATGACGTCACTAGGCTTGATTTTTCACCTCAACCTAGCTCTTATATGCCGGGTTAG
>LACTIS1119B1_01610 hypothetical protein
ATGATTAACGATATTAATATCCTGGCTGACTACTTAGGCCCCCGTGACTTGCCAGCTTTGACCCCGGCAGCCTTAGAAGAAAAATATGGCATCCCCCAAGCCGACGCTTTCGTCCTATTTGGCGGCAGTATTCTGCCCGGCGGGGATATCTTTGCCGCGGCTAAAAAGGCTGAGATTGCCCAAAAATACATCATCGTCGGTGGGCATGGCCACACGACTGATGGCTTGCGGGCCCAGGCAAAAGCTGTCTTTCCGGATCTGGAAGTTGATTCTTTGTCAGAAGCGGAGATTTTTGCCGCCTATTTGCAAAGAAAGTACCAGATTACTGCCGATTTACTTGAATGCCAGTCGACCAATTCTGGCAACAACATCACTTACTTGTTAGACCTGCTTAACCGTCATAATATTGACCTGTCATCGGTCATCCTCTGCCAGGACACGACCATGCAGCTGCGCTTAAGTGCTGTGTTACGCAAGTACCGGCCAGAGCTGACCATCATTAATTACGCGGCTTACCAGGTTCATGTCTTGGAAAAAGACGGACAGCTGGCATATGATAAGAAGATCCCTGGCATGTGGCCAATGGACCGTTATATCAGCCTGCTCATGGGTGAGATCCCGCGCTTAAGAGACAACAAAGATGGTTATGGGCCGCTTTGGGAAGGACTATATAGCGCATGTGGACCTGCCAGCTTCTGTTGA
>LACTIS1119B1_01620 phosphinothricin N-acetyltransferase
TTGACTGAATTAGAGTTAAGAAGGGCTAACGTCGGGGATGCGGAAAGATTGCTTGAAATCTACGCTCCTTATGTGGAGAAGACAGCAATCACTTTTGAGGATGAAGTTCCACCTATTGGCGAATTCCAAAACCGGATTTTAAAAACTCTGCAGATCTATCCCTATCTTGTCGCACTTAAAGATGGCAAAATTGTTGGCTATGCCTATGCTAGTGCGTTTAAGGAGCGGGCAGCTTATGACCATAGCGTGGAGTTGTCGATCTATGTCGACGCTAATGTCTGTCACCAGCATGTAGGCAGATTTTTATATGACGCGATAGAAGACTGCTTAAAGAAACAGGGCTTTTTAAACTTGAACGCCTGCATCGCTGCTCCTATTGGTGAAGACCCGTATCTGGACGACAACAGCATTCGTTTCCATGAGCACTTAGGCTACAAATTTGTCGGCCGTTTCCACCAGTGCGGCTATAAATTCGGCCGCTGGTATGACATGGTTTGGATGGAGAAGATGCTGGGTGAGCATACCGTGCCTGCACCAGCGATCATTCCTTTTCCGGAGATAAAAAATGATTAA
>LACTIS1119B1_01630 flavoprotein
GTGCCAAACACGGTCGGCGCTCTTGGGGTTGACACCTGGCTGGAAGAAGCCAACGCTGAGCATTCAGTCGAGGTAGATGCTATTTCTGGTGCCTCAGTTTCAACCGGTGCCCTAAGAAAGGCAGCTCAAATAGCTTATGCGGAAGCTACTAGCGGGGATGTTGACGCTATCTCTTCTGCTTCTATTCATAACCAGCCTAACAACTATCCCCTCCTCAAGGAAAAGTTCTATGAAGGCGACATTGAATTCGACGACGAATATGATGTGATCGTTGTCGGTGCAGGTGGTGCCGGGCTTTCTGCTGCAGCAACGGCTGCGGAAAATGGTGCCAGCGTCTTGGCGATTGAAAAGCAAGGCATTCCTGGTGGGACGACTAGCCTTTCCGGCGGCGTTATGCAGGCGGCTGGCACTAAGTACCAAAAGGAATTCACTGACTACAAGGACGATACGCCTGAACAGCACGAAGCTGAATATCTGGCTGCTGGTGAAGGCCGTTTATATGAACCGCTTGTCCGTGACTTTACCCAGAATGCCGGCAAAAATCTGGAATGGCTGGAAGACAAAGTTGGCGTTAAGTGGACCAGCATGTATGGCCACACTGAAATTCCTTACGCCAAGGATTCCTTTGCAGACAGAATCCACGTCTATGAAGGCGGTGGTGCTGGCGGCAACGGGATTATCGCAACCCGCAAGCTCTACGAATACGCCTTAAATCAAGGGGCAGAATTCCAATTCGACACAGCTGTCGTTGCTTTGGTCTTAAAGGACGAGACCTCTAGTGAAGTAGCCGGGGTGATTGCTGAACAAGGCGGCGTGCTCTACGCTTTTAAGGCCAACCGTGGGGTAATTCTGTCAGCTGCCTCAATTGACCAAAACGTAGAACTGCCCAAGGACCTCAGTCCGCAGCATTATGAAGACGTTAAGCGCCACCTCTGCTGGTCTGTTGCTTCTGACAGAGGCGACGGGATCGTGATGGGGATGAACATTGGCGCGGCTGTCACTGGCTTTGGCGGCACTATTGACTTTGATGCCCGGACTGGCAACGGGACTGACGACCGCCTGCCGACTATCCCATCAATTTTTGTCAACGGGCAGGGGCTGCGCTTTGCCAATGAAGACGCCACCTACGCTTATGGCTTACGGGCAATTTTCAACGAAGAGAAAAAATTGGGCAAGCCGACCTACCAGATTTTTGGCAAGGACTCGATTACCGCGCCGGCTTCTCCATGGAATGAAGCAAGCCTGGCCAAGGACGCCGAAAGCGGCTTGGTTAAGACTGCCGACAGTTTGGAAGAACTGGTGGAAAAGATTGGCGTTCCAGCTGAAAACCTAGTCAAAAGTGTGGAAACCTGGAATAAGCACGCGGCTGAAGGCAGAGATCCGGAATATGAACGGATCATGGGCGTTAAGCTATTTAACGGGCCATACTGTGCCTACACTAACACGCCTGGCAACCTGTGCGCGATCGGCGGATTGAAGATCAACGCGCAATGTAATGTCATCGACAACTTCGGGCAACCGATTCCTAGCTTTTACGCTGCCGGGATGAACGCCGGCGGCTGGATCGGATCCTACTACCCAGGCTCAGGTACGGCAGTATCTGGAGCTATCCACCAAGGACGCAGAGCTGCTAAATCGATTCTTGGCTTGAGCTAA
>LACTIS1119B1_01640 hypothetical protein
ATGCAGTTCATGCTGTCCAACCTTGACCGGCCAGTTGACTTGGACCTGGTGAAGGAATATAACCGGATTGTATGTGAGAGCTTGTGTGATAAGCCGGGTGAGATCAGAAGCTACCCGGTGAGGATTACGGGAACGGATTATAAGCCGGGGATGCCAGCTATTGGAAAAATTGAGGAAGTGTTGCGGCTGGCAAAAGAGATTGACCACCCAACAAAGCAAGGCTTCTATCTGTTTGGCCATATTGCCAGAGAGCAGTGGTTTAATGATTGCAACGAGCGCACCGCCCAGCTGGTGGCCAACCATGTTTTTGTCCAAAATAACGCGGCGATGCTGGCAGTCCCGGTTGAAGAGCGGGAAAACTTTTGGCACAAGATGGTGAAGTTCTATGAGACTGGCCAGCAAGATGACTTGAAAGACTTCTTGTACAAGACCTCGATTGGAATCATGCCGGGCGGCTTGACTATGGAGAAGACCCGGGAGATCGAAGAAAGAAACAGAAAATGGTTGGGGCTGGAGTAA
>LACTIS1119B1_01650 hypothetical protein
TTGGGGTATGACGGGCGGAAAATAAGCGCGGACTGGATTAATGCTAGACCGCGTTTTTATTTTGAAGCGGAGAAGATTATGGAATACGAATACAGACTGGTTGACCGGGATCTGGCGGTTGACGGAGTAAAAAGGCTCTTGCCAGATGTAGTTTGGAAGATTGCCAATACGGAACTGGTTGAAAGTATTGGACTGCCAGAGGTTAGATGA
>LACTIS1119B1_01660 membrane protein
ATGCTTAGCGAGAAAATTATTGACTTGTTGGTATGCTTTGTAGCATTCGTTGTATTTGCAATTGTCGTTTCTATCTATCCAGAGGAAATGTTTGCATTGTTGATCGCGACCGTTCTTTTGATCGGCATTTATGCTGTAGTTAAGGAACTGGTCAAGGACTGGTTGAAACACAACCATCGTTTTGGGGTATGA
>LACTIS1119B1_01670 microcin C7 resistance MccF related protein
ATGAAGGTAGCCCTGGTTGGGTGTTCAAACCCCTTAAAAGCAGCATATCGGCCAGTTGTTGACCAGCTGGTAAAGATCTTGGAAGACCGGGGACTGGAAATCGTGGTCAGTCAATTTTTGACCGATGATACATTAATCGGCCGGGGAGAAAAGCGGGCAAGGGAACTGGAAAGTTTCTTCCTGGATTCAGAGATGGCGCATATTTTTGATATTTCTGGCGGGGACTTGGCCAATACGGTTTTAGGGCACTTGGATCTGGATCAGATCAAGGACAGCCAGGCGGTCTTTTACGGCTACAGCGATTTGACCACGATCTTGACGGCCCTGGCCAAAAACGGCAACGAGGCGGTCAACTTCCAGCTGCGCAACTGCCTGGTCAACAAGGATTTGCTGAAGAGCGGCTATTTTGACCGCCTGCTGGCAGGTAAAGAAGCAGCAAAAGAGCTGGATGAACTAGAAGTGACTTTTGTCCGGGGCAGTGAAATGGTAGGGCCAGTTTACGGGGGCAACCTCCGCTGCCTGCTGAAACTGGCGGGGACGCCTTACTGGCCCGATTTTACTGGCAGTATCTTGCTGCTGGAGGCCTACCGGGGTCAGCCGGAGCTGGTAGCTAGTTTACTTGAGCAATGCTGGGAGACCGGGATTTTTAACCAGATCAGCGGCGTTTTACTGGGGACATTCAGTGAGCTGGACAAGTTAAAGGAAAGCCAGTTGCCAGCAGAAATTCTCCTGGACCTGCTGCCAGCACATGTCCCAATCGCCAAGACGGAATTTATTGGCCACCGGCCGGATGCTAAGGCAATAAGGCTGGGGCAAGAGTGCGTTTTCAAGGAAGTTGGCGTATAA
>LACTIS1119B1_01680 23S rRNA methyltransferase
ATGATTGAGATCCCAGACCAGTTTAAGGAGAAATTTACGGGTCTGCTTGGCCAGGAAGAAGCCGGCAAGCTGCTTGAGTCATTGGCTGAGCCAAGCAAGAAGGCCTACCGGATCAACAGTTTGAAAAAGGGAGCAGTGGCATACCCGCAAGAAGAGGTGGTGCCTGGCATCCCTAACGCTTATTACGGTGAAGTCTCCGGCAAGGACCCGGAATGGACAGCTGGCATGGTTTACTCGCAAGACCCGGCAGCCATGTTCCCGGCCCAAGCAATTCCAGTTAAGCCAGGTGACAAGGTTTTGGACTTATGCGCGGCTCCCGGCGGGAAAAGCACGGCTTTAGCCCAGAAGCTGCAAGGTGAGGGCTTATTGGTAGCCAATGAAATTTCGCCGTCCCGGGCTAAAATTTTGCGGGAAAACCTGGAGCGGTGGGGCGTTTCTAACGCTGTCGTTACGAACTGCGACTCTTTTGCCTTGAGCGCCCGTTTCCCGGGATTTTTTGACGCGATCTTAGTGGACGCGCCATGTAGCGGGGAAGGGATGTTCAGAAAGAGCGAGGACGCCATCAAGTACTGGAGCCAGGAGAATGTTGACCTCTGCGCAGACCGGCAAAGGGAAATTTTGACTGAAGCGGTCAAGATGCTGAAGCCGGGCGGGTATTTGCTCTATTCGACCTGCACCTTTTCACCAGAAGAAGACGAGGGAATCGTCAGCTGGCTGCTGGATGAATATGGCTTCAGGCTTTTGCCAATTGCGGCAGAGAAAGCCGCGCCTGGCCGGCCGGAATGGGGCAACGGGGATGCTAGTTTAGCAAACTGTGCCCGTTTTTGGCCACAGGACGGTGTTGGTGAAGGGCAGTTTGTCGCCAGCCTGCAAAAGACAGCTGACGAAGAAAGCTTTGCAGCTGAAGCAGGAGAAGTTTTTTCTCCGGTCAGAAAAAACGAGGACAAGAAGAAAAAGGGCAAAGGCAAGAATAAAGGGAATAGAAGCAGCCTGGAGCGGCCAAGCAAGGAAGAGTCCGGCTATATCAGTGAAGCTATTGCCGGCTTTAACTGGCCAGAAAATCTGGTTTCTTGGCCAAGCCAGATGCTGAAGAGCCAGGATCACGTCTTTGTCCCGGCCCTTGAACCTGAACAATTAAAAGGGATCAAGGTCCTTAACAACGGTCTGGAACTGGGAATTTTGAAGAAGAAGCGCTTTGAGCCAAGCCACCAGCTGGCGGAAGTTTTAGGTCAAGTTGACCAGGAAAGAGTGGTTGACCTAACTGAAGACGAGTATGACCACTACCTGCATGGGGAAAGCCTACAAGTAAATAGCAGCTTGAAGGGCTTCGTCTTGGTTTCCTGCCGAGGGATGATTTTCAGCTTTGGGAAACTCTCTGGCAAGGGACAGCTGAAGAATTACTATCCTAAGGGTTTGCGGCAATAG
>LACTIS1119B1_01690 hypothetical protein
ATGAAAAGGTACAAACTGTTTGTTATTTTGTCCACCTTTTTCCTCTTCATCATGATTGGCATCGTCTACTCCAACATGCAGTCCCAGCTGGCTGACCAAATTCTGCAGGCGCAGGGGATGAGCATGGAGGCCCGGATCGTCAAGCCGAAGAAGACCATGACAATTGCCTCCTTCCTTAAGTGGATCAAGAAAGAATTCCCTAAGGAAAGCATCCAGATGCAGTTCAAGAGCAAGGAGGACAAGAACCAGGTCTTGATCTGGTCACAAAACCGGGACCTCAACTACTTCCCTGTTTCCAGTGGCCGCTTTTTCAGTGAAGATGACTTTAAAGGGCAGGTCACCATCGCGGCGGTCTCCCCATCTTCAGCGGCTGCCCAGATCAAGACCCAGGGCAATACTTACTTGATCGCCAACGGCCAGTACTATTCAGTTGTCGGCAGCCTTAAAGCTGTGCCATACCAGTCCAGCAAGGCCTACTACTTGACGACGGGGGTTAAGCAGGAAACCGGGCAAAGCCGGATAAACCACTTTACCTTGTACGTGGACGCCAGCAGCCAGACGATCGGCAAGATCGCCAGCCACTTAAAGAGTGAGACCTATTGGCCGGACTTCGTCAAGCGGGGCCGGCAAAGAAGATTGACGCTTCTCATGCCAGAAGCCCTCTTGATCCTCTTTTTGCTGGGCGTGGGGGTCCTTTTGATGGGGCTTATTGCCTGGCTGACTTGGAAAGAAACTGATTTGAGCCATGTTAAGGGAGACCTGTTGCCCAACCTCCTCTTGAACCGGAGCGGGCGTTTTATCGTCTTTATGGTCCTGGAAGCTTTTGCCTCCTACTTCCTCTTGGTGTGGAAGGCCTACTACAGCAACCAGAGCATTTTAGGCCTGCTTTTGCTCGGGACAGTCGTGGTTGAACTGGCAGTATATGTTGGAATGATGGTTTATATGTACAGAAAGGGGAAACAGGCGGATGATTGA
>LACTIS1119B1_01700 SAM-dependent methyltransferase
ATGACACAATTTATTGAAAGAATTTCAGCCTTAGCCAAGGAATTTGCTGATCCGGAACTGGGCCGGCAAGTGCAAGAGATCAAAATGATCGATGAGTGCGTATCTAGCCAGCGGATGCTGCTGTTCGCGCCAGACCGCTTAGGCATCAGTGATGACCGTTTTGCCGAGCTGACCTGGGAGCTGCCTGACAGCCAGATCAAGGACCTGCGGGTTTTAAACAACCTGCTGAACAATGTCCGCCAGTACCTGTCCCTGGAATATGGGATCTGGTCACTGCCAAACATGGAGACGGCCCAGCTTTTTAAAAACGAATTAGGGATTGAGACAGCCCTGGAAGTTATGGCTGGCAACGCCTACTGGTCTAAGGCCTTGAGCGAGGCCGGGATTCAAGTCTGGGCCACGGATTCTTTAGAATGGTCCAGGAGCTCAAAGACCGGGAAGAAGCCTTTTTACCCAGTTGAAAACCTGCCAGCTGACCAGGCAGTCATGAAGTACGCGACCTGCGACATGATTCTCTGCTCCTGGGCGCCGAATTTCGGCCAGGCGGATTTGGAACTGATCACTGCCAAGCAGCACTACGCTCCAGCTGCCCGCCTCTTTTTCATCGGGGAAAAAGGGGTGACCAATTCCCCGGAATTCTGGACCAGAAAGCATTTCGCCAAATCAAGCGAACTGAGAAAGATTAACCGCAGCTTTAAGTCCTACGACTTTATCAAGGAAAAGTTTATTGAGGTGAGCTGA
>LACTIS1119B1_01710 hypothetical protein
ATGAGAAGCACGGAAGAAACCATGTTGATGGACACCATGATTGCCAATGGCGTCAGCAACAAGATGACCGAGCAGGCAACTGGTCTTGCGGCTCCAAAGCCGGTGCAAAAGAAAAATGCAGCTAAGCTGGAGACGCGTGACATGTTGCTGGCCAACGGGGTCGACGAAGAAATGGCCGACCTGGCGGCAGATCTGTAA
>LACTIS1119B1_01720 pyrrolidone-carboxylate peptidase
ATGACCAAAATATTAGTGACAGGTTTTAACCCCTTCAACCATGAAAAAATCAATCCAGCCATTGAAGCAGTGAAATTGCTGCCAGACGAAATCGCTGGCTGTGAGATTATCAAGCTGCAGCTGCCGACCAGCTACCAGAAAAGTGAGAAAAAGCTGCAAGCAGCTGTTGAAAGAGAAGAGCCAGACTTTGTCTTAAGCGTGGGCCAGGCCGGTGGCCGGGCCTGTTTGACTCCAGAACTAGTCGCCATCAACTATGATGATTGCCCGGTCGCGGACAATGACGGGGAAAAGCGGGAAGGACAGGCGATTGATCCGGAGGGCCCAGCGGCTTACTTTACCCAGCTGCCGGTTAAGGAAATGGTCAAAGCTATTAAAGCGGCGGGCATCCCGGCTGAAGTGTCGACCACGGCCGGCTGCTTTGTCTGCAACCATGTCATGTATTACGCGCAGAGCTTGAGAAAAGAACATCCGGGGATGCAGGCGGGCTTCATTCATATCCCTTTTTTGCCAGAGCAGGTGGTCAAGCGGCCAAATCAGCCATCAATGGCTTTGGAAACAATCGTGACCGGCTTAACCGCGGCAATTGCTACATTTTTTCCGGACGGGGACTAG
>LACTIS1119B1_01730 putative membrane protein
ATGTTTTTCTTCTTCCTAGAACCAGTTTTAATCTACAACTGGCTCCTTATCCTGGCCGCGGTTATCCCCGCCATCTTCCTAATGATCATGGTTTACCAATCTGACCGGCTGGAGCCGGAAAGCCCCTACCTTTTGTGGAAAATGGTGACCGGGGGGATCTGGTCAGCGGTGGTTGCCGGCATCCTTGAATGGATCGCCAATGGCGTTTTAACTTCTTATGTCTCGCAAAAAGATCCAATCTACAACGTCATCATGTACTTCGTGATCGTTGCCTACGCTGAAGAAGGAGCCAAGTACTTCTTCTTAAAGCGCCGGTCCTGGTTCAGCCGAGAATTTAACTGCCAGTATGACGGGGTTGTCTACGCTGTCTTCGTGGCCCTGGGCTTTGCCCTCTGGGAAAATATCTCCTACGTCATGATCTACGGCTTCTCTACCGCCTTAGTCCGGGCTGTAACGGCCGTTCCCGGCCACGCCTGCTTCGGCGTCTTCATGGGGATCTTCTATGGCTTGTCCCGCGGCTACGCCTACCTGGGCAAAAACATCCGGTCCAAGTTCTTCCGCGTTTTGGCTATCGTCGTGCCAGCCGCCCTGCACGGCAGCTACGACTACGTGGCTTCCCTTAATTCCGCTGAAGGGCAGTGGATCTTCCTGGCCTTCATCGCCGTCCTTTTCTTCATCTCCTTCCATCTGGTGAACAGGATGTCCAAAAACGACAAGTACTTCCAAATCGACCGGCGGAATTACCGCTTCTAG
>LACTIS1119B1_01740 homoserine O-succinyltransferase
ATGCCAATTACTTTAGATAAACAGTTAGCCGCCATTGATGTGTTAAGGCAGGAGAATATTTTTGTCATGGACTCGCAAAGAGCCCGGACCCAGAACATCCGGCCTTTAAAGATTCTGGTGGTGAACCTGATGCCTAAGAAGGCCAACACGGAAGTGCAATTGCTCCGCCACCTGGCCAACACGCCCTTGCAGCTGGAAGTGGAATTCCTCTACATGGCCAGCCATAAGTCTAAAAATACTTCCAACGAATACCTGGAAAACTACTACCGGACCTTTGCCGACATCAAGGATAAGCGCTATGATGGGATGATTATTACTGGCGCCCCGGTTGAACAGCTGCCTTTCCAGGAGGTCGACTACTGGAGCGAGCTCTGCCAGCTGATGGAATGGTCTAAGACCCATGTCTACTCCAGCCTCCACCTTTGCTGGGGAGCGCAAGCCGGGCTTTACTATCACTTTGGGATCGACAAGCAGCCTCTGGAAAAGAAGCTGTCCGGCATTTATGAGCAGGAAGTAGTGGGGACCAGCCCCCTTCTTCGCGGCTTTGACGATTCCTACCGCTGTCCGCACTCCCGCTATACCACGATTTACCCAGACCAATTAAAGAAGTGCAGTCTGCAGATTTTGGCGGAGGGGCCGGAAGTCGGGGTTGCAATCGCGGCTAGTGACGACTTGCGGCAGATCTACAGCTTTGGCCATTTGGAATACTCCAGAGACACCTTGTCTGAGGAATACCATAGAGACCTTAATGCCGGTATCAATCCGCTTTTGCCGATTAACTACTTCCCGGATGACGATCCGGAGAAAAAGCCCCGCCTGACCTGGAGTCTGGCCGCCTCAACCTTCTTCAGCAACTGGATCAACTACGCCGTTTACCAAGAAACGCCATACGACCTGGCAGAACTGGACTAA
>LACTIS1119B1_01750 lactaldehyde/glycolaldehyde dehydrogenase
TTGACAGAACACTATTTAAACTATGTCAATGGCGAATGGCGGGACTCCGCTGACGCGATTGAAATTTTCGAACCAGCAACTGGCAAGTCCCTGGGTACTGTACCTGCCATGTCCCACGAAGACGTGGACTACGTAATGGACAGCGCCAAAAAGGCCCTTCCAGCCTGGCGGGCCCTCTCATACGTTGAACGGGCCGCATACTTGCAAAAGGCTGCGGACATCCTTTACCGGGATGCTGAAAAGATCGGTTCTACCTTGTCCAAGGAAATCGCCAAGGGCCTCAAGTCCTCTATCGGCGAAGTAACCCGGACGGCGGAAATCGTTGAATACACGGCCAAGGTCGGCGTAACTTTGGACGGGGAAGTCATGGAAGGCGGCAACTTTGAAGCGGCAAGCAAGAACAAGCTGGCTGTTGTCCGCCGGGAACCAGTCGGCCTGGTTTTGGCAATTTCACCCTTCAACTACCCGGTTAACCTGGCCGGCTCAAAGATCGCGCCAGCTTTGATGGGCGGGAACGTGGTGGCCTTCAAGCCGCCGACACAAGGGGCAATCTCCGGTCTGCTTTTGGCCAAAGCCTTCGCCGAAGCTGGCCTGCCAGCCGGCGTCTTTAACACCATTACCGGCCGGGGCCGGGTTATCGGCGACTACATCGTTGAACACCCGGCAGTCAACTTCATCAACTTCACTGGTTCCAGTGCTGTCGGCAAGAACATCGGCAAACTGGCCGGGATGCGGCCAATTATGCTGGAACTTGGCGGCAAGGACGCGGCCATCGTCTTGGAAGACGCTGACTTGGACTTGACGGCCAAGAACATCGTTGCCGGTGCCTTTGGCTACTCCGGCCAGCGTTGTACCGCCGTTAAGCGGGTTCTGGTCATGGACAGCGTGGCTGACGAATTGGTTGAAAAGGTGACTGCTTTGGCCAAGGATTTGACGGTCGGGATGCCAGAAGAGGATGCCGACATCACTCCTTTGATCGACACTAAGTCTGCCGACTACGTACAAGGCTTAATTGAAGAAGCCGCAGAAAAGGGCGCTAAGCCTTTGTTTGACTTCAAGCGCGAAGGCAACCTGATCTACCCAATGGTCATGGACCAAGTGACGACTGACATGCGCCTGGCCTGGGAAGAACCATTTGGGCCAGTATTGCCATTCATCCGCGTCAAGTCAGCTGACGAAGCTGTCAAGATTGCCAATGAATCAGAATACGGCCTGCAAAGCTCCGTCTTCTCACGGAACTTTGAAAAAGCCTTTGCCATTGCAGGAAAATTGGAAGTGGGCACAGTCCACATCAACAACAAGACCCAAAGAGGTCCGGACAACTTCCCATTCCTGGGCGTAAAGAGCTCAGGGGCAGGCGTACAGGGGGTCAAGTACTCCATTCAAGCCATGACCCGGGTCAAGTCCGTTGTCTTCAACATTGAAGGCTAA
>LACTIS1119B1_01760 glycine betaine/carnitine/choline ABC transporter substrate-binding and permease protein
ATGAGTGAATTGATCAATACTATATCGTCGCACCAAGGGCAGATCTGGCAGGCTTTAGGTGAGCACTTGCTCTTATCCATGGAAGCCCTCTTGCTTTCTTGCTTGATCGCCATTCCTTTAGGGATGCTCCTGGCCCACAGCAAAAGAGCCGGGGAAGTGGTCTTCCAGATCACCAGTATCATCCAGACCATCCCCAGTCTGGCCCTGCTCGGTCTCTTGATTCCTTTTGTCGGAATCGGGACGACTCCGGCCTTGATCGCCTTGACTGCGTACGGGATCATGCCAATCTACCAGAATACCTACTCGGCTTTAAGAAATATCGATCCCAACTTGGAAGAAGCGGCCGATGCCTTTGGCTTAAGCCGCTGGAAAAAATTATCCCGCCTGGAATTCCCCATTGCCCTGCCCATAATCCTTTCCGGCGTCAGCATTTCCTTAGTCATGATTATTGGGACAGCCACGCTGGCCGCCATGATTGGGGCCGGCGGGCTTGGGACCTACATCATAATCGGGATCCAGCAAAACAACAACACCTATATCTTGATCGGGGCTGGTCTGTCAGCTGTCTTGACTTTGGCCATGTCTGGCCTGCTCAAGTTCATGGCCTCATCAAAAAAGCACTTCCGTGTCACAGCCGCCGTCCTGGCAATTTTTGCCATTGGCTTAGGAGTTAGCCAGGCTCCGAAACATTTTACCCCGAAGCAAGAGGAAGTCGTCATCGCTGGCAAGCTGGGGAGTGAACCAGACATTTTGATCAACATGTACAAGGACTTGATTGAAAGGGACAATCCTCATGTCAAGGTGACCCTTAAGAACAACTTTGGCGGGACCAGCTTCCTGTTCAATGCCTTAAAGACAGGCAAAATCGACATCTATCCGGAATTTACCGGGACGGTTCTGCAAGGTCTGGCTAAAAAGAAGGTGGCCACTCCGCATGACCCGGCTAAAACTTACCAGCTGGCTAAAAAGCTGATGGCTGAGGAGGACCAGCTGACTTACCTGCCGCCAATGAACTATCAGAACGGCTACGACTTGGCGGTTACGAAGGCTTTTGCCAAGAAACATAATATTAAGAGCTTAAGCGACTTGGCGAAAGTGGACGCTTCCTTAACCGCTGCTTTTGACCCGGACTTTGCCAACCAGCAGGATGGCTACCTGGGATTAAAGAAGGAATATGGCCTGAACTTCAAGGTTAAAACTATGGAACCTGCTCTGCGCTATAAGGCAATTGCCAGCGGCAAGGTCGCAGTCGTTGACGGCTATACGACCGATCCCCAGATCAAGCAGTATGACTTAGTCGCCTTAAAGGATGACAAGAGCTTTTTCCCGCCATACCAAGGGGCGCCTTTGCTGAAAAATTCTTTTGCCCAAAAGCATCCCGGCGTCGTCAAAAGCCTGAACAAGCTTGCTGGCAAGATTACTGAAGCTGAAATGCAGGAAATGAACTACAAGGTGACCGTCAAGCACGAGAGCGCCAGCAAGGTGGCCCACCAGTACCTGAAGCAGCATGGTCTGCTCTAA
>LACTIS1119B1_01770 glycine betaine/carnitine/choline ABC transporter ATP-binding protein
TTGCTCAGAATGATCAACCGTTTAACAGAACCGACTCATGGCGATGTCTACTTAGACGGCAAAAGAGTCAAAGACCACGACCTGCGCCAGCTCCGCCTGCATATGGGCTATGTCCTGCAGACTAGCAGCCTTTTTCCTAACTTAACGGTTGGCGACAATATCACTATCCAGCTGGAAGAAGCCGGAGTCAAAAAGGTTGAACGAAAGAAGCGGGCCTTAGCATTACTGGCCCAGGTTGGCCTGGAAGGGGACAAGTATATCTCCCGGCTGCCCAAAGAACTTTCAGGCGGCCAGCAGCAGCGGGTCGCTATCGCCCGGGCCATGGCCAGCCAGCCCAAATTGATCTTGATGGACGAATCCTTCAGTGCCTTAGACCCGGTCCTGCGCCGCCAGCAGCAAGAGCTCCTACTTGACCTGCACCGGCAAAGCAAGACCACGGTTGTCTTCGTGACCCACGACATGCAGGAAGCCTTGCGTTTAGGGGACCGGATCGGGGTTATCCAGGATGGCTGCCTGCTGCAAGTCGGCAACCCGGAAGAAATCGTGCAAAAGCCCGCCAACTCCTTTGTGGCTGACTTCTTCAAGAGCGCCCGGCCACGGCTGGGCACTATGCTTGAGCTTTTGGCTAGTCCATACGTAAATAGAATTATAGAAGAGAATCTGCCGGAAGTTGAGAAAGTCGAAGAAGTCACGGGATTAGCTGAAAAAGCTGGCTTTTTGCAATTTGCCTACCAGGGAGCAGGTTACCAAATCAAGTCCAGCGACCTATTGCACTACTTTGGAAAATGGGGGGACTAA
>LACTIS1119B1_01780 Rrf2 family transcriptional regulator
ATGAAAGTATCAACCCGCTTTAGTGACAGCATCCACCTTTTGACCTTTCTCGTGATCTACAAAGGAAAGACCACTCTGTCCAGCAACATCATCGCCAGTTCTTTAAATACTTCGCCAGTTGTGGTGAGACGGTTAATGTCGAATTTAAGGGATGCCGGCTTTATCAAGACGACCCATGGGTCACCGGATCCAGAGCTGTTAAGGGAGCCAAAAGACATCAGCCTGCTGGAAATCTATCTGGCAACTGAAGGTAAAAGTCCCCTTTTTACAATCGACCACGAAACAAATCCGGACTGCATTGTCGGCGGCAACATCCAGCCAACCTTGACCGATTACTTTTCCCACGCGGAGATCGCGGCGGAGGCGGTTTTAGGTAAGATCAGCCTGCAGGACGTGATTGACACGATTTTGGTTAAAGAAGCCGCGAAAAAGCAGGCAGAAAATAGTAAAGAAGAATAA
>LACTIS1119B1_01790 hypothetical protein
TTGGTCCCATACCTGCCGGAGTTGATTGCAAGAGGCAATGTGATCTACCCGGTTGGCGATCAGGCGATGAGTTTTATCTCAAGAAAAGACAGTGCGGAAGCTATTGCCAATGTCGCTGTCCGGCCTTACCTCAGAGACAAGGAGCAGATTTACCTTTTGACCCAGGAAAAGAACTATAACATGGTTGAATTAAGCCGGATCATGACTGAAATTACCGGAGAAAAGATCGGCTACCAGCCGGTCAGCCTAGAAGAATTCGCAAATATCTACCGGGCTGAAGGCGACGGGGATGAACTGGCCTCCATGTACAAGGCGGCAGCCATGGGCTTGATGGACGGAGTTACTGATGACTTCACCCGGATCACGGGCCATACCCCACAGAATATGAAGGACTTTTTGGCAGAAAACTATAAGAAGTAA
>LACTIS1119B1_01800 protease
ATGTTGTCAGTTTATTTGACCTTCTGGGCCGGCATGATCTTTTTAGCCGCGGGAATCATTTACATGGTCTATATCTACTTTTATTCGACCAGACACTTGATGCGGATCACCCATGCGGTGGAAATCAACCAAGAGAACGTCCCTCAACTTTACGAAATGGTGGAGGAGATGAGCCTGGCCGCTGGCATCCCCATGCCGAAAGTCTACGCCATTCCAAGCAATATCCCCAACGCCTTCGCGACCGGCCGTGACCCGGAGCATGCCAGCCTGGCGGTTACTTCCGGCCTTGTAAAAATCATGAACCATGATGAACTCTTAGGCGTGATCGGCCACGAGATATCTCACATCCGTAACTATGACTTGCGGGTAACGACGATTACCTCAGCTCTATCTAGTTTTATCTACCTGGCTGCCGTTTACCTGCTGGCTCTTGGCTGGACCTTGTTTAAGATGGATGGCGGGGTTATCACCAAGTGCATTTGCTGGTTCTTTGGCTCGATTGCCTTAGCAGTTGGCGCTGGCCTGTTCATCGTGGCTTTGCCAATCGCCAAATTGCTCAACTTGTCTATGTCCCGGCAGCGGGAATACCTGGCGGACATTGGTTCAGTCGACCTGACCAGAAATCCGAAGTGCATTGTCGGTGCATTGAAAAAGCTGGAAGCTATTGAGCAGCAATATCAGCAGCAAAAGGAGAACCCCATGGTTTCAGCTTTAGCTTTTAACAACTTCCAAGTCAAGCACTGGTGGACCAACTTGATCTCTGACCACCCGTCTTTAGACCGGCGGATCGACCGCTTGGAACATACGGCAGATTTGCCTAAATAA
>LACTIS1119B1_01810 cystathionine beta-lyase
ATGGCAGAAAAGCAATATGACTTTACACATGTGCCAAAGCGGCAGGGCAATTCCATCAAGTGGGGCGGCTTAAAGGAAAAAGAGCTACCGATGTGGATTGCTGAGATGGACTTTAGGATCGCGCCGGAAATTATGACCAGCATGGAAGAAAAGCTCAAAGTAGCTGCCTTTGGCTATGAAAGCGTGCCAGCTGAATACTACAAAGCTGTAGCTGACTGGGAAGAAATTGAGCACCGCGCCCGGCCTAAAGAAGACTGGTGCGTATTTGCCTCAGGCGTCGTGCCAGCGATTTCTGCCATGGTCCGGCAGTTCACCAGCCCTGGCGACCAAATTTTGGTCCAGGAGCCCGTCTACAACATGTTTTACTCTGTCATTGAGGGCAATGGCCGCCGGGTAATTTCCAGCGACTTGATCTATGAAAATAGCAAGTACTCGGTCAACTGGGCTGATTTGGAAGAAAAATTAGCGACTCCGTCTGTCCGGATGATGGTCTTCTGCAACCCTCACAACCCAATCGGTTACGCCTGGAGCGAGGAAGAAGTCAAGCGGATCGCGGAACTTTGCGCCAAGCACCAGGTCCTCTTGATCTCTGACGAAATTCACGGAGACCTGGTTTTGACGGATGAAGACATTACCCCTGCATTTACGGTAGATTGGGATGCCAAAAACTGGGTAGTTTCTTTGATCTCACCAAGCAAGACCTTCAACTTGGCGGCGTTGCACGCGGCTTGCGCGATTATCCCTAACCCGGATTTGCGCGCCCGGGCTGAGGAGAGTTTTTTCCTGGCCGGTATCGGGGAACCAAACTTGTTGGCTATCCCGGCAGCTATTGCCGCTTATGAAGAAGGCCATAACTGGCTCCGTGAACTCAAGCAAGTGTTGCGGGACAACTTTGCTTATGCCCGGGAATTTTTGGCAAAAGAAGTGCCGGTAGTGAAGGTACTTGACTCGAACGCCAGCTACCTGGCCTGGGTCAACATCAGCGCTCTTGGAATGAACGCGGAGGACTTCTGCAAGTACCTGAGGGAGAAGACGGGCTTGATCATCTCTGCGGGGAACGGCTACCGGGGCAATGGACATGAATTTGTCCGGATTAACCTGGCCTGCCCGAAAGAATTGGTAATTGACGGGATGCAAAGGCTAAAGCAGGGAGTACTTAATCTAAATAACTAA
>LACTIS1119B1_01820 peptidase S8
ATGCAGAAGAAAAAATCCGCACGCCATTTGAACAAAGTGGCTGAACTAGCGGCAGCACTGCTCCTATCAGCGAGTCCACTGGCGGGAACTTTCCAGTCAGCCGCTTTTGTCCAAGCTGCCAGTCAAGAAACGGTTAGTCCACGGTCGGCTAGCCGGGCAGCATTGACTAAGTACTTGCAGCAAGAGCAGCGCTATAACGCTAAGGAGAGCTACAGCAAGTTCCAAGAGGCTGCTAAAGAGCAAAGACAGGCTTCTGGCCAAGCTGTCAGCAAGAAGAATGAGTCCTCGGTCCGGGTGATTGTCAGTCTGAACAAGTCAGCGGCATTTGATCACACCAGTAAGCCGACTGGATCAGCTGCCTCAGTGAAAAAGATTGAGCAGGCAAGTGACCAAGTCAAGGATGGTCAAGAAAAGGTTATCAAGCAGGTAGAAGAAATCACCGGCAACAAGGTCCGCCGGCAGTTCGGCTACTTGGTCAATGCTTTTTCAATCGATATGGATTTAGACGATATCGACAAGGTTAAGGATCTGCCCCAGGTTAAGAACGTTACGCCTGTCAAGGTTTACCACCCAACCGATGAGAGTGCTGATCAAATGGCCCAAGTGCAGGACGTTTGGCAAGAACAAAAGCTCAAGGGTGAAGGTATGGTCATTTCGATCATTGATACCGGGATCGACTCCAGCCACCAGGACTTGAAGTTGGACAGTGGCGTCAGCACCGCGTTGAGTAAGAGTGAGGTTGAAAGCGACAAGAGTAAGCTAGGTCATGGGAAGTATTACACGGAGAAGGTTCCTTACGGCTATAACTACGCTGATAAGAACGACCAAATCGTGGACAATGGATCTGGCGAAATGCACGGCCAGCACGTGGCCGGGATTGCCGGGGCCAATGGCCAAGTCAAAGGTGTTGCTCCTGATGCCCAGCTTTTGGCAATGAAGGTCTTCTCCAACAATGCCAAGAATTCTGGAGCCTATGATGACGACATCATTTCCGCGATCGAAGATTCAGTTAAGCTGGGGGCCAACGTTATCAACATGAGTTTGGGCTCAGTTTCATCAGATGTCGATCCAAGTGATCCACAGCAACAAGCCGTAGCAAAGGCATCAGAGGCTGGCGTCATTAATGTTATCTCTGCTGGGAACTCCGGTGTTGCCGGGTCGACTGCAGATGGTAATCCGGTCAATAATACCGGGACAAGTGAACTCAGTACTGTTGGCGCGCCAGGGGTTACACCGGATGCTCTGACGGTTGCCTCTGCTGAAAACAGCAAAGTGACCACCGACACGGTTAAAGACGAACTCGGTGGGGTCACCTTTAGCGCAAATTCCGAATTGAAGGGTGCTGCACAAGTAACAACCCAGCTTGAAAGCAACTATTCCGTTTTAACCAAGAAGCTTAAGCTTGTTGACATGGGCTTGGGCGGTGCAGATGACTATACTGCTGAAAAGAAGGCTGAGGTTAAGGGACAACTTGCAGTTGTTAAACGGGGATCTTATACCTTCTCAGAGAAAGTTGCCAATGCCAAGGCAGCTGGCGCGGCAGGGATCGTCATTTACAATAACAATGATGACGGCTTACTTTCAATGGCACTGGACGACAAGACTTTCCCAACCTTGGGGATGAGTAAGGCTGATGGGGAAGTTCTGGCTCAAGCAGCAAAAGATGGTAAGAGCATCAAGCTGAAATTCGGTACTGCTTTAATCGATAACTCCAGTGCGGGAAAGATGAGCGACTTTACCAGCTGGGGACCAACGCCGGAACTCGACTTCAAGCCAGAAATTACTGCTCCAGGCGGGAAGATCTACTCGCTGGCGAACGACAACAAGTACCAGCAAATGAGTGGGACTTCAATGGCTTCACCATTTGTCGCAGGTTCCGAAGCATTAATTTTGCAAGGTATCAAGAAACAAGGTTTGAACTTGTCCGGGGAAGAATTAGTACAATTTGCTAAGAATTCAGCTATGAACACTTCGCACCCCGTCTATGACACTGAGCATACCAAGGAAATTATTTCTCCCCGCCGGCAAGGGAGTGGCGAAATCAATGTTAAAGATGCCATCAACAATACGGTTGAGGTTAAGGCAGCCAACGGCAACGGGGCAGCAGCCTTGAAAGAAATTGGCCGGCAGACGACCTTTAAGGTTACCTTGACCAATCATGGCAAGAAGGCCCAGACCTATGCAGTTGATAATTATGGCGGTCCATACACCCAGGCAACCGAAGCGAAGAGTGGCGAAATCTATGACACAAAGATTGTTAAGGGACAGCTGACGACGGAGACGCCAAAGGTAACTGTCCAGCCTGGCGAAAGCGTGGATGTAAGCTTTACCTTGACCCTGCCATACAGTTTCCAGCGGCAAAATTTTGTTGAAGGCTATGTTGGCTTTGAAGCAGAAGACCGGGCAACACCAAACCTGGTTCTTCCATACATGGGCTTTTTCGGCAGCTACAGTCAAGCGAGTGTCAGCGCACCAATGCTTTATGAAGTTGGCAATTCAAATCTAATCAACACAATTCACTCCCTGGTTGGCGTCATGTCTTCTAACGACAATGATATTCTCGGTCACACTGGCTATGAGGGTGATGATTACAGCAAGTATACTGATCCTGATCTGATCGCGATTTCACCAAATGGCGATGGTAGCCGGGACTACGCATATCCTGTTCTCTTCTTTGACCGGAACTACAAGGAATACACGGAAACGATTACTGATGCTCAAGGAAACAAAGTTAAGAGCTTGGGCGTTGGCAAAGAGGGAACTAAAGATTACTACAGTTCTTCAAGCGGCAAGTGGACAACCCACTCACTGGACAAGTGGGATGGCACTGACGCTGACGGCCAAGTCGTCAAGGACGGGCAATACATCTACAAGGTTGAATTTACCCCAGCAACTGGCGGCAGCAAGCAGGAATTGAACATCCCTGTCAAGGTTGATACCCAAGCGCCAGAAGTGAGTGACTTGCAGGTTACCAAAGATGGCAAGCTCCGTTTGAAGGCTAAGGATTCCGGCAGCGGTCTTGACATGACAATGTTTGTTGCGGCAGTAAACGGTGAAAAGCAGAAGCTGGCGCTGGCTCCGGTTAAGGGAGAAAGTGATGTTTACGAGTCAACGACTGCCTTGACTGGACTTAAGGACGGCAAGAACCAAGTAGAAACTGTTTTGGCTGACTATGCCGGCAATGTTGGCTATGCTGCAACTTTCTCCAGTCAAAATAACGATGCTGATAACAAGCTTCTTCTCTTTAACTTAGCTGACGGTCAAAAGATCACTAGTCAAAGCCCGGCTTACGATCAAGAGAAAGAAACTTACACTGTAACTGGTACTTACAAGAAGAATGCCAAGCTTAAGTTTAATGATGTCGAGGCAGAGAGCGATGAAGATGGCTACTTTGAAGTTAAGCTGCCAGTCAAGGATGGACAAAACCTGCTTTTGATCAAGGATGGGGACCAAACCCTTGAAGCAGTCAACTTCACTGTTAAGGCTGAAGGACCGAAAGTCAGCGTTGACGAAGAAAGCTCAGGCCGCATTTTGGCTAAGGATGATTCCTATACTTTATCCGGGACGGTATCTGGTCTTGGCGAAAGCGGCAAACTGGAACTGACAAACTTGTCTGACAAGAGTAAGACTAAGTTAACGGTTGACCAGGACGGCAAGTTTTCACAAAAGGTTGACTTGAACTACGGTGACAATCCTTTTGAACTGACGGCAACTGATGCGGATGGCAATGTTACAAAGAAGGACGTAACGATTTTCACCGCTAGAAGTTACACTTACACCAAGGATATGCTGACTTTTGACAATATCGCCAGCGATCTGACGATTATTGGCAAGACGACGCCGGGTTACGATGAGAAGGACCACAGCTTCACAGTAACGGGTAAACTCGCGTACCCAGTCGCCCGCTTCCAGTTAAACGGGGATGACGTTAAGTACGACCCAGATACTCTGAAGTTCAGCTACACGATCAAAGACTTAAAGAACGGCAACCATCCATTGACTGCTCTGGTGCAAGATCCACGGCTTAATGACGGCAAGCCAGTCGTTGAATGGGGCTACAAGCTCTGGGTTGACTTAACAGCGCCAAGCCTGCAATTGGAAGGGATGTCCTTAGGCGAGGATGGCCAGTTGGCTGTCTACACCAACAAGGATGTTTACGATCTTAAGGCAACGATCAATGACAACTTGAGCGGATACAGCCTGCAAGTTGGCAGCGATACAGCCTACCAAGACAAGACTTACGAGGTGTTTAACGAAGACTTCTTTAAGAATAGGGATGCAGTCAAGGTCAGCTACCCGATCAAGGCTGAGAAAGACGGATCCCGGAAGGTCAAGGTCACTTTGACTGATAGCAGTGACAACAAGACTGAACAAGACTTTACCCTGTACAACCACCAGGCAGATCTTGAGGCACCGGAGGTTTCCGCTTCAGAAAGCAAGAAGACCAACCAAGCTGTTCAGCTGAAGGTTGAAAATCTGTCCGATGTACAAAAGTCTGCTGGCAAGTTTAAGGCGGCTGATCTCTACTACTCAGTTGACGGCAAGACTTGGACCAAGCTGGACAAGGATACTGTACAGGTAGCCGAAAACGGAAAGGTTGAGTTCAAGTACCAAGACGTTTACGGCAATGAGTCAAAGGTTACGACTTATGAAGTCAAGAATATCGTCAAGGAAGTCGCTGCCCAGCCGGAATTGAAGCTGACTCCGGATGGAGAAGGCAAGGTCAAGGCTGAGCTTGCTTTTGACAAGAAGGATGTTGACCAGGACTTCAACCACATCAAGTACAGCCTTGATGGTGGCAAGACCTGGACTGACTACAAGGATGCCTTTACGCTGACTCACAACGGAACTGTGGAATTCAAGAGCTATGACGACGCTGGCAATGAGAGCCAAGTCTACACCAGCGTGGTCAAGGTAGAACGGAAGTTGCCCGCTCCAGATTTGACTGGCACGGTTGAAGCTGATAAGAGTGTTGAGGTTAAGGCTGGCAACGTTGAACAGGCTGAAAAGGATGCTGACGGAAAAGTAACTTTGCTTTACTCAACTGATGGCAAGGATTGGTCAAAGGTTGACGGCGAAGTTAAGCTGACTGACAGCGACCGGGCTATGTTCAAGTACCGCGACGGAGACGACAACGAATCTGCTGTTGTCGTTTACGAAGTCAAGAAGGTTGTTGAAGAAAAGACTGCCGAGTCTAAGCCGGAAAACAAAGACGATAGCAAGTCAGACAGTAACACTGACACTAAGAGCGATACTAAGTCAGACAGTAAGAGTGATTCCAAGTCTGATAATAAGGCAGAAACCAAGAGTGATGTGAAGACTGACAGCAAGACGACTTCAAAGAGTAGCGCGAAGAAGACTAGTGCTAAGAAGAACAAGAAGGCAAGCAAGAAGACAGTTAAGAAGACTAAGACTTACAAGAAGGTCAAGTTGACTAAGCTGACAAAAGTCTACAATAAGAAGGGCAAGGTAGTTGGCAAGCTTAAGAAGACTAGCGTCAAGCTATTAAGCAAGAAGCAAAAGCTTCATGGCAAGTACTACTACCGGGTTGGCAAGAACAGATATATTCTGGCAAGCAGCCTGCCGAAAAAGACTAAGAAGGTTAAGCAAGTTCGCGTACGGAAGAATGCCAAGGCCTATAACAAGAAAGGGAAGGTAGTTGGCCATCTGAAAAAGAAGCAGAAGGTTAAGCTCTTAAGCAAGAAACAGAAGCTTCATGGCAAGTACTACTACCGAATTGGCAAGAACAGATATGTTAAGGCAAATGTGCTGTAA
>LACTIS1119B1_01830 GNAT family acetyltransferase
ATGCTGAAATTTGACCAGGCAAGAGCGGAAGATTTAGACAGGATCGTGGAAATTGAAAGAGCTGGTTTCAATGAGGCAGAAGCAGGCAGTCCGGCTCAGTATAAAGAGAGAATTCAGAAATTTACCGGGAGCTTTTTGGTCGCCAGAAATTTGGAAGAAGAGATCGTAGGCTTTATTACCGGGCCAGTCGTTGACAGCAAGTATGACTACATCGAGGACTGGATGTATGAAAAAGAGACAGAGAGTCTGGCGGGCCCTGGCGGCAACCAAATGGTCTTGACCATCGCGGTTCATCCGGATTACCGGGTCCAGGGGATTGGCAGCCAGCTTTTAGATAGATTCGCGGAGACCGCTAAGGAAATGAAGCGGGGGCGGATCGCCTTGACCTGTCTGGAAGACCGGGTGCCATTTTACGAAAAGAATGGCTACGTCAACCATGGGCAAGCTGAGTCAGAGCATGCCGGGGAAATCTGGTACAACATGATCAAAGAGATAGAAGGCTAG
>LACTIS1119B1_01840 hypothetical protein
ATGACTAACGTAACTATCGAACAAGCAGTTAAGGGCTATCTTGTATTCTCAGCTAAGGAAGGCAAGCTTTTCCGTGAAGGCCGCAGCTACCTGGCAGGCAAGACCTACCACAACCGCTACCTGGCTATCTACGAAAAGCTGGAAGACGCTGTTGTCAACGCCAGCCAATACCCAAGTGAAGAAGGCATCACCATTTACGAAGTAAGTGGCTGGGGCCAGGTAACTGACTTTGGCAAGTGCAAGGTCACTGAATGGCTGAAGCTGGACCAAATCGTAGCTAAGAAGGAATGGGTTGCTCTCTTGGGCAAGCAAACTAACTCAAACTACGCAAGTCTGCGGATCTTGGCAGCTAAGCTGAGCGAAGACGCAGCTGCCCTGAAGAAGCTGGCCCAAGACAAGAACCAGCAAGTTCGCAGCGCTGTAGCTGAGAATGCCAACACTCCAGCCTTGGTTTTAGCTAAGCTGGGCGTGGCTGCTGAAGTTAACGCGATGGCTATCTAA
>LACTIS1119B1_01850 alkaline phosphatase
ATGAACGAGACAATCACGCAGCTGATTCAAAACTATGGCTATGTCGCCGTTGCCTTGTTGATTGCAGCTGAAAATATTTTTCCCCCAATCCCTTCCGAACTGATCCTGACCTTTACCGGTTTCCTGACCCTGTCAGCCAACCTGTCTGTCCCGGGAGCCATCATCGCCTCCACGATCGGTGCCTTCATTGGCGCGGTAACTCTCTATTGGGTCGGCACCTTCTTTGACCAAGACCGCCTTTCCCGCTTCGCCGCCAGCAAGGTCGGCCGCCGCTTCGGCCTCTCCCCGGAGAAAATCACCAAGACGGAAAACTACTTTAACAGCCACGGCCGGGCAGCCACCTTCTTTGGCCGCTTTATTCCAGTCGTCCGCAGCTTAATCTCCCTGCCAGCCGGGATGAGTCGCTTCTCTTTAGCCCGGTTCAGCTTCTACATCATCCTGGGCACGGCAATCTGGAACACGGTCTTGATCTACACCGGCCGCTTTGCCGGCAATGCCTACCAGCAAATGGTCCAGGAATTTGAAGGCCTTAGCTTGATCGTGTTAATCGCCTTCTGCGCCATCGCAGCCGCTGTCTACCTGCTCAAGAAGAAGGGCTTGATCTTTAAAAAATAA
>LACTIS1119B1_01860 aspartate-ammonia ligase
ATGGCTAAATTAGTTATTCCAAGTGATTACGATCCGAAAATGACCATCCGCGAAACGGAAAAGGCAATCCGCTACATCCGGGAAACCTTCCAGACTGAATTCGGGACCGCGATGAATCTGGAAAGAATTTCCGCTCCTATGTTTGTTAAGAAGTCTTCCGGCTTAAACGACAACCTCTCTGGCTGGGAAAAGCCGGTTTCCTTTACCCTGCACGACGGGGATGAAGGCGAATTGCAAATCGTCCACTCCCTGGCCAAGTGGAAGCGCTGGGCCCTCAAGCACTACGGCTTCGGCCACGGTGAAGGCCTCTTCACCAACATGAACGCCATCAGAAAAGACGAAGAAGTTTTAGACAACCTCCACTCCGTTTACGTTGACCAATGGGATTGGGAAAAGGTCATCGACAAGAGCGAACGGACGGAAGCAACCCTCCGCCAAACTGTCCAGCGGATCTTTGAAACCATCAAGGGGATGGAATACCACGTCCGTGCCCTCTACCCGCAAGCCGCCTACCACCTGCCAGAAGAAATCAGCTTTGTAACCAGTGAAGAACTGGAAGCCCGCTGGCCATCCCTGACCCCAAGCGAACGCGAAGACAAGATCTGCCAGGAAAAGGGCGCAGTCTTCTTGGAACACATCGGCGGCGCGCTCCCGCTTTCCAAGAAACCGCATGACCTCCGGGCACCAGACTACGATGACTGGACTTTGAACGGTGACCTCCTCTTCTGGTACGAACCCCTTCAGCGGGCCTTTGAAGTCTCCAGCATGGGCATCCGGGTCGATGAAGACCGCTTGCAAGAGCAGCTGAAGCTTGCCGGTGCTGAAGACCGGTTAGACCTGCCTTTCCACCAAGCCCTCTTAAAGGGTGACCTCCCTTACTCCATCGGCGGCGGGATCGGCCAGTCAAGACTTTGCATGCTGCTTTTGGGCAAGGCCCACATCGGTGAAGTCCAAGCCAGCATCTGGCCTGACGAGATCGTAGAAAAGTGCCAAGCAGCCAAGATCCAGCTTCTGTAA
>LACTIS1119B1_01870 LacI family transcriptional regulator
ATGGCAACGATCAGAGAAGTGGCCAAGGCAGCCGGCGTGTCGCCAGCGACGGTTTCCCGGGTCTTGAACTATGACCAGACCCTGTCGGTCAATGAGGCAACGCGGCAGAAGATATTCAAAACTGCTGAAGCCATGCACTACCATAAGAGCCGGAAGACCAGAAAGAGCAAGCAAAAGCGCCTGGCGATCTGCCTGTGGTGTGACCAAGACCAGGAGATCAAGGACCTCTATTACTATTCAATCAGAACCAGCGCGCAAGCAGAGGCCAAGAAGCAGGGACTTGAAAGCCAGGTCATTTATCCGGCTGATCCTTTGCCCGATCCAGCTGCTTTAAGCGGGATCATCATGATTGGCTACCAGCAGTATTCGCCAGACCGCTTGAATGAAGTCAAAAAGTCTGGCCTGTCCCTGGTCTTTGTCGATACTGACACCTTAAAATTGGGTTACTGCTCAGTTGTGGCTGACTTTGGCCAGGCCATGCAGGAGGCGCTAGAGGTCTTCTGGGGGCAGGGCAGGGAGCGGATCGCCCTTTTGGATGGTGATTTGGACAGTAATTTTGATAAAAACAACTTGGTCGACTTCCGCTTCCGCGATTATAAGAAGAGCCTCGCGGCCCGCGGCCAGTACGACCCGGACTTAGTCTATGTTGGAAACTTCACCCCTCAATCTGGCTATGAAGCCATTAAAGAAGCTCTTAAGTCCGGCTCCTTCCCGAAAGCCTTGATTGCGGCTAATGACGCCATGGCTATTGGAGCATTGAAGGCCTTTAAAGAAGCTGGAATTAAAGTCCCAGAGGACGTCAGTATGATTTCTTTTAATGACACAACGGCAGCAGAATTTGCCAACCCAGCCTTGACTAGCGTACATGTAGAGACCCAGCAGATGGGCCGAGCCAGCGTCAAGGTCATGAAGGACCTGCTGGAAGATGATGAAGCAGGGACTTACAAGGTCACTTTCCCGACTAAGCTGGTTTACCGGGAATCTTGTCCAAAAGAATAA
>LACTIS1119B1_01880 beta-galactosidase
ATGAGCAATAAGCTAGTAAAAGAAAAAAGAGTTGACCAGGCAGACCTGGCCTGGCTGACTGACCCGGAAGTTTACGAAGTCAATACAATTCCCCCGCACTCCGACCATGAGTCCTTCCAAAGCCAGGAAGAACTGGAGGAGGGCAAGTCCAGTTTAGTGCAGTCCCTGGACGGGAACTGGCTGATTGACTACGCTGAAAACGGCCAGGGACCAGTCAACTTCTATGCAGAAGACTTTGACGATAGCAATTTTAAGTCAGTCAAAGTACCCGGCAACCTGGAACTGCAAGGCTTTGGCCAGCCCCAGTATGTCAACATCCAATATCCATGGGACGGCAGTGAGGAGATCTTCCCGCCCCAAGTTCCAAGCAAAAATCCGCTCGCTTCTTATGTCAGATACTTTGACCTGGATGAAGCTTTCTGGGACAAGGAAGTCAGCTTGAAGTTTGCCGGGGCGGCAACAGCCATCTATGTCTGGCTGAACGGCCACTTCGTCGGCTACGGGGAAGACTCCTTTACCCCAAGCGAGTTTATGGTTACCAAGTTCCTCAAGAAAGAAAATAACCGCCTGGCAGTGGCTCTCTACAAGTATTCTTCCGCCTCCTGGCTGGAAGACCAGGACTTCTGGCGCTTGTCTGGTTTGTTCAGATCAGTGACTCTTCAGGCCAAGCCGCTTCTGCACTTGGAGGACCTTAAGCTTACGGCCAGCTTGACCGATAACTACCAAAAAGGAAAGCTGGAAGTCGAAGCCAATATTGCCTACCGCTTGCCAAATGCCAGCTTTAAGCTGGAAGTGCGGGATAGTGAAGGTGACTTGGTTGCTGAAAAGCTGGGCCCAATCAGAAGCGAGCAGCTGGAATTCACTCTGGCTGATTTGCCAGTAGCTGCCTGGAGCGCGGAAAAGCCTAACCTTTACCAGGTCCGCCTGTATTTATACCAGGCAGGCAGCCTCTTAGAGGTTAGCCGGCAGGAAGTGGGTTTCCGCAACTTTGAACTAAAAGACGGGATTATGTACCTTAACGGCCAGCGGATCGTCTTCAAGGGGGTCAACCGGCACGAATTTGACAGTAAGTTGGGCCGGGCTATCACGGAAGAGGATATGATCTGGGACATCAAGACCATGAAGCGAAGCAACATCAATGCTGTCCGCTGCTCTCACTACCCGAACCAGTCCCTCTTTTACCGGCTCTGTGACAAGTACGGCCTTTACGTCATTGATGAAGCTAACCTGGAAAGCCACGGCACCTGGGAAAAAGTGGGGCACGAAGATCCTAGCTTCAATGTTCCAGGCGATGACCAGCATTGGCTGGGAGCCAGCTTATCCCGGGTGAAGAACATGATGGCTCGGGACAAGAACCATGCTTCAATCCTGATCTGGTCTTTAGGCAATGAGTCTTACGCCGGCACTGTCTTTGCCCAAATGGCTGATTACGTCCGGAAGGCTGATCCGACCCGGGTTCAGCACTATGAAGGGGTGACCCACAACCGGAAGTTTGACGACGCCACCCAGATTGAAAGCAGGATGTATGCACCGGCCAAGGAGATTGAAGAGTACTTGACCAAGAAGCCGGCTAAGCCATTTATCTCAGTTGAATACGCTCACGCTATGGGTAATTCGGTCGGCGACCTGGCCGCATATACAGCTCTTGAAAAGTACCAGCACTACCAAGGCGGTTTTATCTGGGACTGGATCGACCAAGGCCTGGAGAAAGAAGGTCACCTCCTTTATGGGGGCGACTTCGATGACCGGCCAACCGACTATGAATTCTGCGGAAACGGCCTGGTCTTTGCTGACCGGACTACGTCTCCGAAACTGGCCAATGTCAAGGCTCTGTACTCCAACCTTAAGCTAGAAGTAAAAGATGGGCAGCTCTTCCTTAAAAACGACAATTTATTTACCAACAGCTCAGCCTATTACTTCTTGACCAGTCTCTTAGTTGACGGCAAATTGACCTATCAGAGTCAGCCTTTGACCTTTGGCTTAGAACCTGGTGAATCAGGGACCTTTGTCCTTCCTTGGCCGGAAGTCGAAGATGAAAAAGGGGAGATCGTCTACCAGGTAACAGCTCACTTGAAAGAAGACTTGCCATGGGCAGATGAAGGCTTCACGGTGGCTGAAGCAGAAGAAGCGGTCACCAAGCTGCCAGAATTTTATCCAGCAGGTCGGCCGGAACTGGTTGATTCCGACTTCAACCTGGGCCTTAAGGGTAATGGCTTCCGGATTCTCTTTTCTAAGGCAAAAGGCTGGCCGGTTTCCATTAAGTATGCCGGCCGGGAATATTTGAAGCGGCTTCCGGAATTTACCTTCTGGCGAGCTCTGACTGACAACGACCGGGGAGCTGGCTACGGCTATGACTTGGCTAAGTGGGAAAACGCCGGCAAGTATGCCCGTTTGCAAGATATCTCCTACGAGATCAAGGAAAACAGCGTCTTAGTCAAGACAGCCTTCACTTTGCCTGTCGCTTTAAAGGGAGATTTGACCATAACTTATGAAGTTGATTCTCTAGGAAAAATTGCGGTAACTGCCAACTTCCCTGGAGCGGTAGAGAACGGCCTCTTGCCAGCCTTTGGCTTGAACTTTGCCTTGCCAAAAGAACTCAGCGACTACCGCTACTATGGCTTAGGGCCAAATGAAAGCTATGCCGACCGCTTGGAAGGCAGCTACCTTGGCATTTACCAGGGAGCGGTGGAAAAGAACTTCACTCCATACCTGCGTCCGCAAGAAGCTGGCAACCGGAGCAAGGTCCGCTACTACCAGCTCTTTGATGAAGAAAGCGGGCTGGAGTTTACCGCTAATGGGGCAGACTTGAACCTGTCAGCCCTGCCATATTCAGCCGCGCAAATTGAAGCTGCAGACCATGCTTTTGAACTATCTAACAATTACACCTGGGTCAGAGCTTTAGCGGCCCAGATGGGTGTCGGTGGGGATGACTCCTGGGGGCAGAAGGTTCATCCAGAATTTTGTCTGGATGCTCAGGAAGCCCGCCAGCTCAAGCTGGTGATTCAGCCACTTTTTACTGAATAA
>LACTIS1119B1_01890 sugar transport protein
ATGAAGAAAAAGCATGTCTCACGCTTGTCGTACGCGGCCGGTGCCTTTGGCAACGACGTCTTCTACGCGACTCTGTCAACCTACTTTATCGTCTTCGTCACCACCCACCTCTTTAATGCCAGTGACCACAAGATGATCTTTATCATCACCAACTTGATCGCCGCCATCCGGATCGGGGAAGTCCTGATCGACCCCTTGATCGGTAACGCCATCGACCGGACCGAAAGCCGGTGGGGGAAGTTCAAGCCCTGGGTTGTGGGCGGGGGGATCATCAGCTCATTAGCCCTCTTAGCCCTCTTTACCGACTTTGGCGGCCTTAATCAAAGCAACCCCGTTGTTTACTTAGTAATCTTCGGTGTTGTTTACTTGATTATGGATATCTTCTACTCATTTAAAGACACTGGCTTCTGGGCCATGATCCCGGCCTTGTCCCTGGACTCCCGGGAAAGAGAGAAGACCTCCACCTTCGCCAGAGTCGGCTCCACCATCGGGGCCAACCTGGTCGGGGTAGTCATCACCCCAATCGTCCTCTTCTTCTCGGCCAGCAAGGGCAACCCCACCGGGGATAAGCAGGGCTGGTTCTTCTTTGCCTTGATCGTGGCCATTGTCAGCATCTTGACCTCAATTGCCGTTGGTCTTGGTACTCACGAAGTAAAATCCGCCCTGCGGGAAAGCAAGGAAAAGACCACTTTGAAGCAGGTCTTTAAGGTCCTGGGGCAAAACGACCAGCTCCTCTGGCTGGCCTTTGCCTACTGGTTCTACGGCCTGGGTGTCAACACCCTGAACGCTCTGCAACTTTACTACTTTTCATACATCTTAGGCGATGCCCACGGCTACAGCCTGCTTTACACCATCAACACCTTTGTCGGTTTAATCTCTGTATCCTTCTTCCCATCACTGGCCAAGAAGTTCAACAGAAAGCGCCTCTTCTACGCCTGCATCGCGGTGATGCTGTTAGGGATCGGGGTCTTCTCCGTGGCCAGCGGTTCTCTGGCCCTGTCCCTTGTTGGGGCAGAATTCTTCTTTATTCCGCAGCCTCTGACCTTCCTGGTCGTTTTGATGATCATCTCTGATGCGGTTGAATACGGCCAGCTGAAAACTGGCCACAGAGACGAAGCTTTGACCCAGTCTGTCCGGCCATTGGTCGACAAACTGGGCGGGGCCTTGTCCAACTGGTTTGTTTCCTTGATTGCCGTAACTGCCGGCATGACCACTGGGGCGACTGCCTCAACAATTACCGCTCATGGCCAGATGGTCTTCAAGTTAGCTATGTTTGCCTTCCCGGCAGTCATGCTCTTGATCGCTGTTTCTATTTTCGCCAAAAAGGTCCTCTTGACTGAAGAAAAGCACGCGGAAATCGTCGACCAGCTGGAAGCTCAATTCGGCCAAAGCCATGCCCAAAAGCCGGCGCAAGCTGAAAGCTTCACTTTGGCCAGCCCAGTCTCCGGGCAATTAATGAGCCTGGACATGGTTGACGACCCGGTCTTTGCCGACAAAAAGTTAGGCGACGGCTTTGCCCTGGTGCCAGCAGACGGTAAGGTCTACGCGCCATTTGCCGGTACTGTCCGCCAGCTGGCCAAGACACGGCACTCGATCGTCCTGGAAAATGAACATGGGGTCTTGGTCTTGATTCATATTGGCCTGGGCACGGTCAAATTAAACGGGACTGGCTTTGTCAGCTATGTTGAAGAGGGCAGCCAGGTAGAAGCCGGCCAGGAGATCCTGGAATTCTGGGACCCGGTGATCAAGCAGGCCAAGCTGGACGACACGGTAGTCGTGACCGTCATCAACAGCGAAACTTTCGCAAATAGCCAGCTGCTCTTGCCGATCGGCCACAGCGTCCAAGCCCTGGATGATGTATTCAAGTTAGAAGGGAAGAATTAG
>LACTIS1119B1_01900 hypothetical protein
GTGGCCGGAGGTGTAGAAGCTGCAGTCAGGGCCGATGAAGACATTGTCACCAAAGGTCACTCCCCCAGCATCCAGGACGGTCAAATTATGGTTGGCGTAGAAGTTGTCGCCTACTTTAATATTCCAGCCATAGTCGCACCAGAAGTTGGGTTCGATGTGGCAGTTTTCCCCGCTTTGGCCCAGGATTTCCTTTAA
>LACTIS1119B1_01910 hypothetical protein
ATGTATGTCTCGGCCAACCACAAGAACGGTAAGCCAATTCAAATGAACGACAACTACAAGCGGCAGCTGGTTCTCAGGAAGCTCTACCCGCATGTCAAGGTGCTGAATGTTTACGGAGACCTGTAA
>LACTIS1119B1_01920 integrase
ATGTATCCCCACCAGGAAGGTTTTGAGAATTGGTGCCGGGGTCCGCAAAGACTCAGCCCCAAGTCAATTGAGAACGCCGATTACTGTTTGGACCACTTCTTTACCTATGCAGAAGTGAATTTCCCATCCAGTGACGTTAATGAAATCACGGCCAGCAATGTCCGTGACTACCTGCAGCAGTTGGCGACTAAGGAAAATTTGCAGGTCACGACCGTCAACAAGTATGTCTCCTACATTAAAAAGTACTTCTACTACCTGGCCCTGGCTGGAATTACCCCAAGCTATCGTTTACTAGACCTCAAGGGCTACTCTTTTGAGCGGCGGAAGACCTATGTAATCGACTGGCCAGAGCATTTGCCTGCCCTCATCCCCTATGTCAAGCAGCCGGTGACTCTCTGGCTGCTGCAGCTTTTTGCCCTGGGCTATCAGGCTAAGGAACTCTTAGGGATTCGCTATAGCGAGGTGAAAGACAATTTGGGCGAGATGACTGACTACCTGACTGGCACACTTTCCTTTGAAAAGGACCCGGATCCTTATATTTTCGCCTCCAGGTCCGGTGAACCATATGCCAGTACCAACAACATCATGCAGCTGGTCAAGACCGACAAGGATCTCCTCTCCCCCATGCCAATCACTCTAACCAATCTCCGCCTCTCTTATGTCTATTCCTTGATCAGCCAGCAGAAGTATTCTGACAAGGAACTCCTGGAGATTTTCCGCTGCCCGCCAAAGCGTCTGGCCTACTACCAGTACAACGCTGCCCAGTGTAATCTCATTCCATTTTCTGAAGAGATGCTAAAAAAGGCCGGCCCGAACGCCGCCCCTGCAAGAAAATAG
>LACTIS1119B1_01930 signal peptidase I
ATGAAGAAAAAGAATAAGCAAGCAGCTGAAGAAGAAAGCTGGGGTAAATTTTTTCGGGACGTCCTGGTCATGTTCCTGGTCTTTGTCTCAATTTATTATGTTGTCTTCTCCTTCTTCTTAGCCAATGAAGTGGTGTCTGGCCCGTCCATGCAACCGACCTTTGAAGACGGCGACCGTTTGATTGCTGTGCGCCACTTCACTCCTAAGAGAAATGACGTTGTCATCATCAAGGCGCCGGACCAGGCAAACGCCATGTACATCAAGCGGGTGATCGGCCTGCCAGGCGACACGGTTCAGTCCAAGAACGACGTCCTCTACATCAACGGCAAGAAGACGGCCCAGCAATACTTGAACAACAAGTACAAAAAGGCTGACCATTTAGCCGGGGTCTACTACACCAGCAACTTCAAGATCAAGCTGAAGAAGAACCAATACTGGGTCATGGGTGACCACCGGGACGTTTCAAAGGACTCCCGCTACTTCGGCCCAATCAAGCGGAGCAATATCTTGAGCAAGGTAGTTCTGCGCTACTGGCCAGTTACCCAGATCAGCAGCGACTTTTACTAA
>LACTIS1119B1_01940 hypothetical protein
ATGAAACCAGAAGAACTTTCGGATGCAATCATCGAATTTCAGAGCAAGCACGCTGTGAGCGATACTACCCTGGCCTTTGCCAGCCACCTCTCAGTGGAAAAGGTGCACGCCATGAAGCAAGGGCGGGGCAACTTTACCAGCGATGAAATCAACCAGATGCTGGACTATCTCCAGAGCTATCTCCAGAGCTAA
>LACTIS1119B1_01950 peptidase T
ATGGAATACCCAACTTTGCTGCCAAGATTTTTGAAGTACGTCAAGATCAACTCCCGGTCAGATGAACATGCTGACCGCTTCCCATCCACCCAAAGAGAAGTGGACTACCAAATGGTCATCATGAAGGAACTGGAAGAACTGGGCTTAAGTGACGTTCACTACAATGAAAAGGCTGGTACGGTCATCGCAACTATTCCTTCCAACGTTGACTGGGACGTGCCGGTTATGGGCTTCTTGGCTCACTGCGACACGGCTGATTTCAATTCAGAAAACGTTAAGCCGCAGATTACTGAAAACTACGACGGGGAAAGCAAGATCCAATTGGGCGACAGCGAATTCTACCTGGACCCGGCCGTCTTCCCGAACTTGAAGAAGTACAAGGGGCAGACCATTATCTCTGCTTCCGGTGACACCCTTTTGGGCGGGGATGACAAGTGCGGGGATGCCGAACTGGTCACCTTTGCTGAATACCTCCTGGCTCACCCGGAAATCAAGCACGGGGAAATCCGCCTGGGCTTCACGCCAGACGAAGAAATCGGCACGGGTGCTCAGCATTTTGACGTGGAAGACTTCAACGCTGCCTTTGCCTTTACGGTTGACGGGGAGGGCCCGGGCAAGCTGGACTGGGGGACCTTCTCAGCAGCTCAGTTTGAACTGGACATCCAAGGCGTTAACGTGCACCCAGCTGTAGCCAAGGGGCAGATGATCAACGCCATTCAAGTCGGGATTGACTTCCAGAACTCCCTGCCGCAAGACGAAGTGCCGGAAAAGACTGAAGGCGAAGAAGGCTTCTACCACTTGATGGACTTCTCTGGTACGGTTGACAACGCCCACCTGGCCTACATCATCCGTGACTTCAAGCGCGACGGCCTGGAAGCCCGGAAGAACCTGGTCAAGGAAAAGGTGGCTGAACTCAACGCCAAGTATGGGGAAAGAATCAAGCTGAAGATGTGGGACCAGTACTACAACATGGCTGATGAACTGGCCAAGCACATGGAAATCATTGACCTGGCCCGGGATGCTTACAGAGCCTGCGGCTTGACTGAAATCAATGAAGAACCAGTCAGAGGGGGTACGGACGGGTCACAACTGACTTACATGGGTCTGCCATGCCCGAACCTCTTTGCCGGGGAAGAAAACATGCACGGCCGCTACGAATACACGGTTCTGGAATCAATGTGGAAGGCTGTTGACGTCATGATCAAGATGGCTGAACTGCAAGCTGAACGGAACAAGTAA
>LACTIS1119B1_01960 Nif3-like dinuclear metal center hexameric protein
ATGACTAAAGTAAAAGACATTGTAGCTAAACTGAATGAAGCTTTCCCGGAAAGTATCGCCAGTGCCGGTGACCCGGTCGGCCTGCAGATCGGCAGCCTGGAAGCACCAGTCCACAAGATCCTGGTGACTTTAGACGTCCGGCCAAATGTGGTTGATGAAGCCATTAGGAGAGGTGCTGACCTCATCGTCAGCCACCACCCCTTGATCTTCCGTCCGGTTAACAACTTGGACTACAGCGACCCACAAAAGGCCATGTACGCCAAGATAATTGCTAACGGCATCACCGTTTACTCCATTCATACTAATTCCGACAAGGCCCAGGGCGGGTCAAGCGACTGGCAGGCTGAAGAACTTGGCCTTTTGGACGTAACCGGCTTTGCCCCAGACGAGGACGGCATCGCCATTGGCCGCAAGGGCCGCCTGCCAGAAGCAATGAAGGCGATCGACTTTGCCCACTACGTCAAGGAAAAGATGGGGGTGGACATGGTTCGCCTGATCTGCGCTGACCAGGATAAAATGGTGGAAACTGTTGCCTTCGTCTGCGGGGACGGGAACAAGTTCTGGAAACAGGCCTTAGCTGACAAATGCGACGCCTACATCACCGGTGACGTCTACTACCACACTGGCCATGACATGATTTCATCAGGCTTGGTAGTAGTTGATCCGGGCCACTATACGGAGAAGCTCTTCAAGTATGAAGCTGCCAAACGGCTCAGTGCCTGGCAGAAGGAAGAGGGCTGGAGCGTAGAGTGCTTAATCAGCGCTGAATCAACCGATCCCTTCCAGAATATTTTTTAG
>LACTIS1119B1_01970 SAM-dependent methyltransferase
ATGGTTGATCCAGGCAGCCGCCTGGCCGATATCGGCACCGACCACGCCTACCTGCCGATCCTCCTGGTAAAGAGCGGCAAGATCAGCCACGCTATCGCCAGTGACGTTGCGGCTGGCCCCTTAGAGAACGCGAAAACGGACATCGCCGCCGCGGGACTTTCTGACCAGATTGAAACCCGGCTGGGTTCAGGCTTGGAAACCATTAAGGAAAGCGACCAAATCGATACGGTCGTCATCGCCGGCATGGGCGGCAAATTGATGGTCAACCTGCTCTCTGAAGCCGCCTCCCGCGGCGTTTACTACCCAAGCCTGGTCCTTGAAGCCAATATTGGGGAAAACACCGTCCGCCGTTGGCTGATGGCCAACAAGTACGAGATCGTCGCTGAAGACATCGTCTATGAAGCAGGCCACATCTATGAGCTGATCAAGGCCCGTTTAACTGACCAGGTTCACGAATTGACTGTCCGCGAGCAGGAATTTGGTCCCTTGCTCTTAAAGAACAAGACTGATGTTTTCTATAAGAAGTGGCAGGGACAGGAAGCCTACTACCAAAAGCTGCTGGCTAACCTCAACAAGGCTCGGAAAAAGGACCTGACCCGGATCAAGGAAGTCGAAAACTTGCTGGCTATGATCAAGACAGAATTAGGTGGGGAAAATGACTAA
>LACTIS1119B1_01980 transposase
ATGGCGGAACAGATAGAAGAAGTACCAGCTGAATTAATTCAGACAAGAGTCTATGAACTACATCCCAACAAGACTATGAGAAAAGTTTTGGATGAAGCTTGTGACTACCGTCGTTATTGCTGGAATCAAGGCCTCGCCTTGTGGAATGAAATGTACAAGGCAAGAAAAGCGATTAAATCTTCTTTGGCCTCCGATCCCAAAAAGCTGACCGAAGAGCAGAAAGTGTTGCTTAAAGAAAAGCCTTCGCCGAGTGAACGAAGAGTTCGTAATATGTTAGTTGCCGATAAAAAAGACTGGCAGTATACACAGTCAGCCCGGATTCTGCAACTGGCAATTTCCGACCTGGGTAAGGCTTGGAACAATTTCTTTGACAAGGCCCAACCAGGCTGGGGCAAACCAAAATTTCGGTCAAAGCGGGAAGCCAGACAAGGCTTCAAAAGCGACCGGAGTAAGATCAAAGATGGAATTCTTTATTTGGAGCGGGCAAGAAGAAGCAGCGTTCCAAAAGATCAATGGTGTGGCTTTAAGCTGAGCGAAAAGCCTTTGTCAGATGAATTTGGTGTTGTCAGCTACTTCAAAGAAAAAGGCCGTTATTACGTTGCTATCCCTTATAAGATCAAGGCTGAAGATGTTAAGTTGCCAGACAAAACAGGTAAAGCTACCGCAGTTGATGTCAATGTTGGTCACTTTGATTACACGGGTGGTCGGGTGAACGTACTGCCTAAGAGGCTTGATAGAATTTATAAAAAAATCAAGCACTATCAAAGGCAGCTTGCCAAAAAGCGAGTCAAAAATGGAGAAGCTGCTTGCGAAAGCATAAATTACTTGAAGACGAAAGCCAAGCTTCAAGCGTGCTATCGCAAGGCTGGCAATATTCAAAACGACTTGATGCACAAATTTACGACCGAACTGATTAATGACTACGACAAGATCGTGATCGAAAATCTGTCGGTTAAGGGTATGCTGATGAGTCATGTAGCTTCAAAGGGTGTTCATCGGTCGATGTTTGGCAAGTTTAGGCAGATCTTGACCTACAAGTGCGATTGGTATGGTAAGGAACTTATTCTGGCAAATAAGCTGTATCCGTCTACTCAGCGTTGTGCGGCTTGTGGCAATGTCAAAAAGGGCGATGACAAGATCACCCTTTACGGAAATAAGAAGCATGGTACTAAACACAATGAGTACATCTGCTACAACAAAAAATGCCCGAACTACAATAAAGTCGTAGATCGGGACAAGAATGCGATGCTTAGTCTTTTAGCGCTGACTGAGCATCCAGAATTAAATCATGCGCTATAA
>LACTIS1119B1_01990 DNA mismatch repair protein MutT
ATGGAGCGGACAGAGCCTACTACTTTAACTAATATGTGCATGATCGTGGACAAAGACCGGGTTCTGACGATCGACCGGGAAGACCCGGTTTGGCCAGGCCTGGCTTTTCCAGGCGGCCATATTGAAAAGCATGAGTCATTTCATGATTCAGTCATTCGCGAGGTCAAGGAAGAGACCAACCTGGACATAGTCAGTCCCCGCCTGGTCGGCTTCAAGCAGTTTTTTGACAAGCTGGACCGGCGTTACCTGGTCTTCTTCTACCGGGCCGACCAGTTCTCAGGAAGTCTCCACGCTTCAAGGGAAGGCAAACTGGAATGGGTCAAGATCAGCGATTTACCTAAGCGGCAGTTAGCCTACAACTTTGACCGAGACCTGGAAGTCTTTTTAAAGAGTGACCTTGATGAGCATGTATTGTTGGACAAGAAGGACTTTTTATATTAA
>LACTIS1119B1_02000 hypothetical protein
ATGAGCAAGAAAAAGAAAAATAATAAGAATAGCAAGCGGATTTGGGGCGGAGTCGTGACGGTGGCACTTTTTGCTGCCCTCTTCGCTTTCGCGGGCGTGTATATCAAGAATTATCCAGTGGAAAAGGATGTCAAGCTGGGCGCCACCCAGCCTAAGGCCTTGAAGGTCAAGAAGACGGTGGCTGAAAAGGACATCTGGGGCTATCCATTCGCCAAGTGCTACACCAAGAAGATCAAATACCTGTCGGGCCAGCGCTATGGGAAGACCGACGTCTGCCGGCGGGTCTACCCGAAGAAGTCCTACTTCCATGACGGCTGGGACTTTGGCTGGAGCGAGGTCGGCAACAAGGCGGCTGTTTTGGCTATTCACCCGGGGACTGTGAAGAAAGTTGCCTACTGCACGGGTCTAGGCTGGTACATCTGGGTCGTTTCTCCAGACGGCTATGTTGAAGTCTACCAGGAAGGTTTCGCCAACCGGTCAGATATTACGGTTAAGGCCGGTCAGAGGGTCAAGCTGGGCGACAAGCTCGGCCGGCTGACTGACTCCCACCTGCACCTGGGGATCACTAAGACCAGCGCTGACTACATCAGCAAGCACGGTCACCCTTACAAGAATTACTGGCGGGACAACGGCACCTGGCTGAACCCGATTAAGGTGATTACTGACAGCTTGCAGCTACAAGAGGATGTCAAGGAATACAACGCTAAGGCAGCCAGCTACAACGAGAAGCTGGCAGCTAAGAAGAAAAAGCTGAAGCTGGAAGAAAGCAAGCACCCCTACCACTACTTGAAGTCATTTATCAAATAG
>LACTIS1119B1_02010 hypothetical protein
ATGACCGGCGACAAGAATGCCAGCCGGGCAATCGGCCTGGCCAACAATTGTAATCCGATCTTAATTTTAATCCCTTGCCACCGGGTTATCGGGGCCGACGGCAGCCTTACCGGCTACGCCGCTGGCCTTGCAGCTAAAAAACTCCTCCTTGACCTCGAGAAGGGCGGGACAAAAAAGTGA
>LACTIS1119B1_02020 hypothetical protein
ATGGATGACAACGAAATGTGGCAGGCAGTCCAAACTTGCGACCTGGCTTATGACGGCGAGTTCTTTTATACTGTGCAGACAACAAGAATTTTCTGCCGGCCTTCTTGTAAGTCAAAATGTCCCAGAAGAAACAATGTTGAGTATTTCAAAAGCAGTGCGGAAGCAGAAGCCGCTGGCTACCGCCCCTGCAAACGCTGCTGGCCTGACCTGCCCCAGTATGACCCGGACCGCGACCTGGCTGAAGCAAGCAAGGTCGTCTTTGATAACTATTTCAGTGACCGGCAAGAACTTAACCAGCAGCTGAAAGAGCTGGGCGTAACTAGAAAGCAAATGTCCCTGGTCTTCAAGCGTTACTATGACATGAAGCCGGCAGAATACTTGATCCAGGTGAGAATCGCTGCCGCTAAGCAAGCCCTGCAGGCCGGAGCCAGCGTTTTCGACGCTGCCGCTAATTCCGGCTACACTAACTACTCCAGCTTTTATGCCCATTTCCGCAAGCTGTCTGGGATGCCGCCAGCTAAGTACCGGCAGCTTTTTGCCCAAAATATCTCCCGGGCCGTCATGGACACGCCAATTGGGCTGCTCAGAATTGTCGCTTCCCAAGACGCCATCCTCTGTGTTGAACCGGCAAATTATCTTGAGAAAAAGGCTGGTCAAGCTATAGAGCAAGTCCCGGCTGACCGGATTATCCCAAATGACCCGTCAGGTGACTTGGTTAAGGCCTGCAAGAGAGAGCTGAAAGAATACTTTGCTGGCCAAAGACAAAAATTTGACCTGCCCCTTTCACCTGAAGGCACCATCTTCCAGCAAAAGGTCTGGCGTAAGCTTTCCTTACGGGGAGACCAGAAGCTACCAGCAGCTGGCTGA
>LACTIS1119B1_02030 hypothetical protein
ATGGCATTAAAGCTTATTAAGACGAAGAATGCTGCTTTTGTCGTGGATGAAGTTCAAGACGATGTTAGAGAAAAAATGGGTATCTTGTTCGGCAGAGCCATCCATCTCTATGCCAAAAGAGTGCCAACTGCTGCAAATCCCAAAGGAGTGATGCAGTACTCAGACTACTTTTCAAACCAAGCTGTGCAAGTTTGCCGGAAGGACAACATCGTCGAAGACCGCCCGGTAAACGAGGCAGAAAATAAGATTTACCAAGAGCTTTCAACCGGCCAGAGCCTTGATAAAGATGACCGCGAATATTTACGTGATAACTATTCTGAAGATCAAGAATAA
>LACTIS1119B1_02040 restriction endonuclease
ATGGCTGACATGAAATTTAAATTTACGATCCAACAATACCAAACAGATGCTGTGAACAGTGTCGTTAATGTTTTTAAAGGTCAACCGAAGCAGGGAGTTGTCAGCTACCGACGTGATGTTGGTAAGGAGTATGAGATCAAGTTTTCCGATTCAATAGATAATACGTATCTAGCTGGTTTCTCCAATGCACCAGTAGCTTTGTCGGCAGAGCAACTTCTTAATAATATTCGTGAAGTTCAAAAAGAGAACAATATTAAAGAATCCTCAACTCTTGCAAAACATATGGGTGCTTGCTCTTTGGATGTTGAGATGGAAACTGGTACTGGTAAGACCTATGTATACATCAAAACCATGTTTGAGCTAAATGAACGATATGGATGGAATAAATTTATTGTTGTCGTTCCATCTATCGCTATTCGTGAAGGTGTTCAGAAGAGCTTCCAAATGATGGAAGATCACTTTATGAACGATTACGGAAAGAGAGCTAACTTCTTTATATATAACTCAAAGAATCTAACAGAAATTGATGATTTTAGTTCTCGTGCAGATTTGTCAGTCATGATTATCAACGTTCAAGCCTTTAATGCGCGTGGAAAAGACGCTCGAAGAATTCGAATGGAGTTAGACGAATTTGCTAGCCGTAGGCCAATTGATGTTATAAAGGCTAACAGGCCAATCGTCATTCTCGATGAACCTCAAAAAATGGGTGGTAAGAAAACACAGGAATCTCTTAAAGAGTTCAATCCTCTGTTTACCTTGAACTACTCTGCAACGCATAAGGAACACCATGACTTGGTTTATGTTCTTGATGCACTTGATGCTTACAAGATGAAGTTGGTTAAGAAGATTGAAGTCAAAGGCTTCGACATCAAGAACCTACGAGGTACAGATGGGTATCTATACCTAGAGAATATTGTTATTTCACCTAACCATCCGCCAAGAGCACGGTTAGAATTTGAAATTAAATACAACAAGTCAATCAACCGTGAAGTTCGGATTCTTGGAGTAGATGACGACCTGTACTCCCTTTCTAAAGGATTGGAGCAGTACCAGGGCTATCACATCAATGATATCGACCCAATAAATGGCCTAGTGACTTTCACTAACGGTGTTGAGATCCATACTGGGGAAGTCCAAGGGGATGTTAGTGAAAAGGATATTCGTCGAGTTCAAATCCGCGAAACTATCCGCTCGCACTTCGAGAAAGAGAAGGATCTCTATAATCGAGGCATTAAGACTTTGTCACTCTTCTTTATCGATAAGGTTGAACATTATCGTAAATATGATGAAGAAGGCAATGAGGTTAACTCAGAATATGGCCAGATGTTCGAAGAAGAATACAACTCTATCTTGAAAGAATATCTGACTCCATCTGATACGCCATATGAGAAGTATCTCGAGAGTATCGATGTGAAGAAGACTCATGCGGGTTATTTCAGCATCGATAAGAAAGGGCACAAGATTGACTCCAAGATAAAGCGAGGTTCTGATATTACTGATGATGAATCAGCCTATGAATTGATCTTAAAGGACAAAGAAAAGCTGCTTTCTTTTGATAATCCAGTCCGCTTCATCTTTTCTCACTCTGCTTTACGCGAAGGCTGGGATAATCCGAACGTCTTCCAGATTTGCACGTTAAAGCATGGTGGCGATAGTACAACCAATAAGCGTCAAGAAGTTGGGCGTGGGCTCAGAATCTGTGTTAACCAAGATGGGGATCGGATGGATGAACATATTTTGGGTGCGGAAGTTCAAGACGTTAACAAATTGACTGTCATTGCAAGTGATGGTTATAAAGATTTTGTTTCATCCCTTCAAAAGGAAATCAAGGACGACTTGTATGAGCGTCCAACCAAGATCACGCTGGACTTCTTTGAGAATAAGCAAATTAAGCATAATGATGAGGTTGTCAAGATCAGTAAGGAACAGAGCAATGTAATTATGCACTATCTGATAAAGAATGATTACATTGATGATGATGATCATGTTACGGATACATACCGAACCGATGTAGCTAATAATACTCTTAAACCTCTACCTGAAAAATACGGGGTGAGAGAGTTGACGCCAGAAATTCATGCCCTGGTTCAAAGTGTTTATGATGACCATGCCTTGGATGACTTTGTTTTGGATGGTCGGAAAACGAAGATTCCAGAGAACAATTTGAATGACAACTTCAATAAAGAAGAGTTTCAAAAGCTATGGCAGCAAATCAACCATAAGTACAGTTATACTGTCCACTTCGATAGTAAGGAATTAATTGAAAATTCAGTTAATTATATTAATAGTAAGCTGTATGTTGCTCCACTCCAGTACACGGTAACAAAGGGGACTCAAGGGGAAGAGTGGTCTTCTGACAGTGTGAAAGCAGGTTCTGGCTTTGTTTCTGAAAGCCGTCGAACCTATACGCTTACACGTGGTGAAACTAGTCAAGTTAAGTATGACTTGATAGGTAAGATCAGTGCTGGGACTCACTTAACACGTAGAACCGTTGTGAAGATATTGAAGACAATACAGCCAGCTAAATTCAAGATGTATCAATATAACCCTGAAGAATTCATTTCAAAGGTAATCAAACTGATCAATGAGCAGAAAGCAACTATGATCGTGGATGATATCACCTACAATGAAACTGAAGGTCGCTATGATTCAAGTATCTTTACTCTTGAGAAGAACCATGAATTTTCTAAAGCTTACAGAGCTAAAAAGAACGTTCAAGACTATGTATTTGCGGATGGGTCCGCAGAAAAGTCAGTTGAACGAAAATTTGCGGAGGATATGGACTTAGATGATAAGGTTGCTGTTTACGCTAAATTACCTCGCGGTTTCCAGATCCCAACTCCAGTTGGTAATTATGCCCCTGACTGGGCAATTGCCTTCAAGAAAGGTAGCGTAAAGCATATTTACTTTATTGCTGAAACCAAGGGCTCGTTGAGCAGTATGGATTTGCGACCAATCGAGCAAGCTAAGATTAAGTGCGCAAAGAAGCTATTCAATGAAATGTCAACGACTGACGTAATTTATGAGCAGGTAGATTCCTTTAATAGCTTGCTTGATATGATGAATGAGATTCCCGATAAAGAGAATACTAAGTAG
>LACTIS1119B1_02050 DNA methylase
GTGGATAAGCTGAAGATGCACACGCCGGATATAGCGGAAGAGAACTATAAAAAGTTAGTAGCACTGTTTCCCGACGCAATAACTGAAACAACTGATGAGGATGGTAACATTGTTCGGGCAATTGATAAGGATGTATTGATGCAAGAAATCAATACTAAGGTTATCGATGATGGACAGGAAAGATATCAATTTACGTGGCCGGATAAACGTAAGTCTATGGTTATGGCAAATACTCCAATTTCAAAAACTTTACGTTTAGAAAAAGAAAAGTCAATTGGTCGAGACGGTACACCAGGAGGAGTTGATTCAGAAAATATCTATATTGAAGGTGATAATTTAGATGCGCTGAAACTGCTTCAAGAAACATATCTAGGCAAGGTTAAGATGATCTATATTGACCCACCGTATAATACAGGGAATGACTTCATTTATGAAGATGACTTTGCCCAGAGTTCTGATGAATACGCTGATAACAGTGGTCAAACTGATGAAGAAGGAAATAGGCTTGTCCAGAATAGCGAGAGTAATGGACGATTCCATACTGATTGGCTTAATATGATCTATCCAAGGCTAAGATTGGCTAGGGACTTTTTAACTGATGATGGTGTGATTTTTATTTCTATTGATGATAACGAACAAGAAAATCTAAAAAAGGTATGTGATGAAATATTTGGTAGCAACAATTTCCTTGCACAAGTTGTCTGGGAAAGAGCGTATGCTCCGATAAATTTGAAGAAGAATTTTTCAGTGAGTCATGACTATATTCTTGTTTATGGGAAAGATAGTTCAATAATTCAAACAAATGGTATTGCGAGAACAGATGAGTCAGACAATCGGTATCAAAACCCAGACAATGATCCCAGAGGCCCTTGGAAATCAAGTGATTTATCAGTAGGCCCTGCCGTAAAAGCAAATATATACCCAATAACCACGCCCTCCGGGCGTGTAGTAGAGCCTCCAGCGGGACGTAGCTGGAGGCTCTCACGTCATGCATTCCGTGAGAGACTCCAAGACAACCGTATCTGGTTCGGAAAGAACGGAGATGCCATTCCAAGTATGAAGCGATTCAAATCTGAACTTCGAAAAAGCGGTATAACTCCCATGACGATCTGGAACTATAAGGAAGTTGGACATAGCCAGTCTGCTACCCAAGATCTCCAAAAATTGATGGGGGGGAAGAAATATTTTGACTATCCTAAACCTGTCCCTCTAATTCAACGTTGTATTCAGCTTTATACAGAGGAAGATTCAATTGTAATGGACTTCTTTGCTGGGTCAGCGACAACAGCGCATGCGGTCATGCAACAAAATGCAGAGGATGGTGGGAAGAGACAATACATTTTGGTTCAAATTCCAGAAAAAACAGATCCTAAAAAAGATGCGTTTCAAGATGGCTACAAAACTATCTGTGATATCGGTGAAGAGCGCATCCGTCGTGCTGGCAAGAAGATCAAGGAAGAAACAGATGCTGACATCGACTATGGTTTCAGGTGTTTTAAAGTCGACTCATCAAACATGAAGGATGTGTACCACGCACCAGCAGATGTTGAACAACTTAGTCTCGATTGCTTTGAGGACAATATAAAGGAGGATAGAACGCTCGAAGACCTGTTAATTCAAGTTATGTTGGATTTAGGTATTCTACTTTCATCAGATATCGAAACACAGGAGATTGCTGGCAAGAAAGTCTTCTCTGTTGCAGACGACTATCTCTTGGCTTGTTTCGATAAAGATGTGACTGAGGAAACAGTAATTGAAATTGCTAAGAAAAAGCCATTTTATGCTGTTTTCCGGGATAATAGCATGGCTAATGATAGTGTTGCTGCCAATTTCGAACAGATCTTTGAAACATATAGCCCAGAGACTGTAAGAAAGGTTCTATAA
>LACTIS1119B1_02060 hypothetical protein
ATGATTGATTTTCCAGAAAGTACAAAGACTAATCGACGGATTCCTAAGGAAGCATTTTACAAACACTTATCACTGAGTACAGCTCTGAAAAGCAAGTTTGTGTCAGACATTAGCCGTATTGTGGCTGAGAATAGCCTGACTAAAGAGAATTTGAACTTAGTTAAGGACTCGGAAATAAAAGAAATTCTACTGCTGTCTATTGAGCTTAAGAAGCAGGACTACGACCAAAGGATTATTGAAGCAATAGCAAAAGGCAACCCGCATAAACTTGTCTTTCTGATGAGCTATGAAGATCAGAGGCAATTAGCTGTTTATTATCAGAAACTCTATCTAACAGAGTGGATGTCGGAAGCAAAGGTTGAGATGCACCTTTCCGGCGATAGCCTAGAGGAGATTTGGAGTGGTTTAGTCCGACAGATTGCAATTGGACCAGATGTTCAAAGAAATTCAAATCTGAGTCTTGATGATCAGTTGAACAGACTAGATGAAATGCAGCAGCTGCAACAACAAATTAAGAAATTAGAAAAAGCAGCCTGGGGAGAGACCCAGCCAAAGAAGAAATTTGCTCTTTATCAAGATTTAAAAAAGTGTAAAGAGCAGTTGGAGGTATTAGAACGTGGATAA
>LACTIS1119B1_02070 helicase
GTGGGAGTAAAAAACTTTAACAACACAACTGAGGTAGTGAGAGACGACTTGAAGAAGCAGATTACACCTAACAGCAAAGTTTCTGTTGCTGCAGCCTGCTTCTCCATTTATGCCTACCAAGCCTTAAAAGAGGAATTGGAAAAATGCTCTGAGTTTCGCTTTATTTTTACTTCACCAACGTTTGTACCTGATCAAATGCCAAAAGAGCGTCGTGAGTTCTACATTCCGCGGATTACTCGAGAAAAGAGTTTGTATGGTACTGAGTTTGAGGTTCGCTTGAGAAATGAACTTAAGCAGAAGGCAATTGCTAAAGAGTGTGCCAACTGGATTCGACACAAGGCTCGTTTTCTAACCAATACGACAGATGAGAGTATAAACCAATTCTTAACGGTAGAAAATTCCGAAAATACCTATACTTACATGCCATTTAATGAATTTACGACTGTCGGATTGGGATGTGAGCGTGGCAACACCATGATCAACATAACAACGAGGCTCGATAATCCAGCTAGTCAGGCCTTCTTAGATACGTTTGAATCAATTTGGCAGGACAAAGAAAAAATGGCAGATGTGACTGACGAAATTATCGATAAAATCTCGTCAGTTTATCAAGAGAATTCTCCTGAGCTGATTTACTTTATGACTCTCTACAACGTCTTCAGTGAATTTCTGGCAGATGTGTCTGAAGATGTGCTACCAAACGAAGCTACTGGGTTCAAAAACAGCGTAATCTGGAACAAACTTTACAACTTCCAAAAGGATGCGGCTTTAGGCATCATCAACAAACTGGAGCAATACAATGGCTGCATTTTGGCCGACAGTGTTGGTTTGGGTAAAACATTCACTGCACTAGCAGTAATCAAGTACTACGAAGGGCGCAATAAGAGCGTATTAGTTTTGTGTCCAAAGAAGCTGTCAGAAAACTGGATGACCTACAAGGGAAATCTGGTTAATAATCCGCTCTATAAAGATCGTTTCCGCTACGATGTCCTTTATCACACTGACCTCTCAAGAGACCACGGCAAAACAGCGACAGGTTTACCAATTGAACAAATCAATTGGGGTAACTATGACCTAGTAGTAATTGATGAAAGTCACAATTTCCGAAATGGTAACGGGACCAACACACATGGCGGCGAGAAAGAAAACCGGTATATGCGTCTGATGAATCGGATTATTAGAGCCGGTATTAACACTAAAGTTTTGATGTTATCAGCGACTCCCGTTAACAATCGGTTCAATGATCTTAGAAACCAACTTGCCTTGGCTTATGAAGGCGTACCAGATGAGATTAACGAGAAGCTCAATACCGAATCAGACATCGACACGATCTTTCGGAGAGCTCAGTCCGTCTACAATGCTTGGTGCAAGCGGCCTGAAGTGGAGCGGACAACTAAGAACTTATTGAGAGAACTAGATTTTGACTTCTTTGAAGTTTTAGATGCTGTCACGATCGCGCGGTCTCGGTATCACATTCAAAATTACTATGACACTACTGAAATAGGCACATTTCCTAAACGATTAAAGCCAATCAGCCTTTACCCTAAGCTAACTGATAAGCCTGGAGCAATTAATTACAAAGACGTGTATGAGTGTTTAAACCAGCTAAATCTGGCTATCTACACACCAACGAAATACATTTTGCCAAGCCGGCTGTCAAAGTACGTTTCTGAAAGAGAAACTGAGAAATTCAGAGTTGGTCGTGAATCTGGGATTCAGCGTTTGATGAGTATTAACCTTCTGAAAAGAATGGAAAGCTCAGTTCACTCATTTTTACTAACGTTGCAAAAGATATATGCATACATGTGTGACACCTCAGATGCAATTGATCGTTTCCAAAAAGATGGCAAGGGAAAGCTTAATGAATTAACTGACTTATCAAACGCGGCCACTGACTTTGACGAGGATGATCAAAACACTGATATCTTCACAGTGGGCAAGAAGGTTCAGATTGATTTGCGGGACATGGATTATCTTTCTTGGCAACGAGAAATTAAGGCGGATGTTGACGTCTTGGAAACCTTGATCCATATGACCGAGGACATCTCACCAGAGTATGATTTTAAGCTCAACCAATTATTTGAGGTTATCCGTAATAAAGAAGAGCACCCTATCAATCCAGGCAATAAGAAGATTTTGATCTTCACTGCCTTTGCAAACACTGCTGAATACTTGTACGAGAACATTGCTCCTCGTGCTAAGGAAATTGGGTTGAATACTGCCTTGGTGACTGGGAGCATCGAAGGAAAGACAACTATTCCGAATTTTAGAGCAGACATGAACCATGTTTTGACTTGTTTTTCACCAATGTCGAAGGACAGAGATGTTGTCTACCCGGAAGATAAAAATAAGGATATTGACATCCTAATCGCAACTGACTGTATTTCTGAAGGTCAGAACCTGCAGGACTGCGATTACTGTATCAACTACGATATTCACTGGAACCCAGTACGGATTATTCAGCGTTTCGGTCGAATTGACCGTATCGGCAGCAAGAACAAGGTTATTCAGTTGGTCAACTTCTGGCCAGATCTGACACTTGATGAGTATATCAATCTTAAAGATCGTGTTGAGACCAGAATGAAGATCTCCGTAATGACCTCAACAGGGGATGATGACTTGATCAATCCAGAAGAGAAGGGAGATCTGAATTATAGAAAAGCCCAGTTGAAGCGTCTGCAAGAAGATGTAGTCGATCTGGAGGACATGAACGAAGGCATCTCAATTACGGATCTTGGGCTAAACGACTTCCGAATGGATTTACTGGCCTACATGAAAGAACACAAGGATCTAGACCATTTGCCATTTGGTATTCATGCCGTTGTTCATGGTGATAAGCCCGGAGTGATCTTCGTACTGAAGAATGTGAACAAGAAAATAAATATCAAAGATAGGAATCGCCTTCATCCGTTTTACATGGTCTACGTGGATATGGATGGAGAGATTCTGGTTAATCATTTACAGCCGAAAGACATCCTTGACGAGATGCGTCATCTAGCAAAAGGACGAAATGAACCAGATAAAGAGCTGTGCAAGGAATTCAACCGAGTAACAAAGGATGGTCGTCAGATGCAAGAGGTCTCAAAGCTCTTAGAACATGCGATTGGATCGATCATCGAGGCTAAAAATGAAGAGGACATTGAGAGTTTCTTCTCTGCAGGCACCACTACTTTTCAATCTGGTGGTTTCTCGGGCTTGGATGACTTTGAATTGATTGACTTCTTGGTGGTGATGTAA
>LACTIS1119B1_02080 hypothetical protein
ATGAAGGGTACCGCGATACCAATTTATGAGATGTTTGACGGTTCAAAAACTAAGCTACAAATTCCTGTATACCAAAGAAATTATGATTGGAAGGTTCCGAACTGCCAACAACTTTTTGATGATTTGGTTGATATGGTAAAAGAGGATAGAGACACCCACTTCTTTGGTAGCATTGTTGAAATTGGCGGAGATTACAGCAGCAAACTTCAAATTATCGATGGTCAACAGCGCCTAACTACCGTATATCTTCTTATTTTGGCTATGGTTAAACTACTAGAAGATGGTCAAATTGAAGCCGAAGATCCAGACCTAGTTGCTGAAGAAATTGAAGAGGATTATTTAATCTGCCGGCATGTGAAAGACAGAGAGAATATTGACCATTATAAATTGCAGCCCGTCAAGCATGATGCCGAAGCCTTGATGAAACTATTTGGACCGGAATCAGGCTATGTAGGAGACTCGAATCAAACGACCAACTTTAAGTTCTTCCAAGATGAGATATTAAAGAAAAGGATCTCAGTTGATGAGCTATGGGATGCAATTCAACGTCTTATCGTAATTGATATTTCACTCAGACAAGGAGAAGATGATGCCCAGCTGATTTTTGAAAGCTTGAACTCCACCGGCGTTGATTTGACCGAAGCGGATAAAATTAGAAACTTTGTTTTGATGAACTTGCCAGCTGATCAACAGGAAGAATTCTATAACAAGTATTGGCATCCGATTGAACTTGATACGGAAGAAGGTAACGAGTATCACGTTTCTGAATTTATTCGTAACTACTTAACCTTCAAGCTCAAAAAGGTACCTGCAATGGGCAAAGTTTATCAAGTCTTCAAGCATTTCATTGAGCAGAAAAAGATAACCACGGAATCTGTTTTGCAGGATTTGCTCAAGTATGCAGGTTACGAGAAACAGATCAGAAGTGCGCAGAGTCCAAGCGACAAGGTAAACGTGTTGCTTAAGCGTTTGGCTGTCTTGGAAGTGAATGTTACCAGACCGTTTATTCTGCCGCTTTTTGATTATTGGCAAGAAGGTAAAGTCAATGCTGATGAAGTTGCAGCTGTTTTAGGGAGTATTGAATCGTACATTTTCAGACGACTAATTTGCGGGATGCAGAATAATTCATTGAACAAGCTGTTTGCGACCATGTTCAGCGACTCCCTTAAGTACGTTGACCAGTCAGACAACTATGTTGATATCATCAACTACTTGCTTCTGTCTAAAACGGAAGTCTCACACTTCCCGACAGATGATGAATTCGCGGAGAGCATTGAGACTAGGGATGCCTACAACATGCGGCAGCAGACCAAGTATTACATCTTTGATCGCTTAGAGAACCAAGATTCACTTGAAAGAGTCAATGTCATTGACGGGATGCAAAATAATCAATTTACGATTGAGCATATTATGCCGCAAACGCTGTCCAGCGCGTGGAAAAAGGAGCTTGGGGATGATTATCAAGCGATTTATGACCGTTGGGACAACCGTCTCGCTAACTTGACGTTGACGGCTTATAATTCAAGCTACAGCAACAAGAGTTTTCACGAGAAAAAGACGGCTGAGAACGGCTTTGATCATAGTGGATTTAGACTGAATGATTTTGTTAAGGGATGTGACCATTGGACTGAAAAGGAATTAATAGAACGCAGTGAACTGTTGAAGCAGACGGCTTTGAAGCTCTGGCCAATGCCAAGCAGTAATTTTCAGCCAAAGGTTGTCGAAAATGAAGTTTATGGGCTTGATGACGACAATAATTATGCTAACGTGAAGATCGCTTTCTACAGTTTGATGAACACACCTTACAAGCTACCTAAGCGTACTTGGAAAGAGATGTATATCGGAGTTGTGCGGGCACTCTATGAGCTTGATCCTGCGCCTATGCGCCAACTAATTGCAGGGGATCGAACTAAACTTGAAAAAGTTCTGATTGATCATCCAGAAAATGGCTTTAGCCAAGTTGCGGATGGTGTCTACTTATACACGAGCACTGACAACTGGAACAAGATCCATAAGTTGAGAGACTTGTTTGACTTCTATGGCATTGACCAAAGTGAATTGCAGATTGAGGTTGTGTCTGGGAAGAAGGAATAA
>LACTIS1119B1_02090 hypothetical protein
ATGAACATCAAAAAGATTGTTAAGCTGGCTATTGTTCTAGCATCCCTGATTGCCTTATCGCAAACTGGCCTGCCAAGCGCTATCGCAGACGCCTTGACCCCGGCAGCTGTTGGCAGCACGGCAACTATCGCACAAGCTGCCAAAAATGCGGATGTAGCAACCACCGCGGCGACTGCTCCAACGGCTCCAACTGAACCAAGCAAGCCAACCACTCCAACTCGCTAA
>LACTIS1119B1_02100 hypothetical protein
ATGACAACAGAATTAGTAAAGCTGGATGAAAATTTTGCGGAGGATTTTTGGCGGCTGAGAAAAGAACTGTTTACGGAACTAGGGGAGGTTGCTGAAAGTGAAGATTTGTCTGCCCTGGAAGAAGCGACTAAGCAGTACTTTTTGGCCCATATTGGCCAGTATATGGTCAGCTGGGGGATGCTGGAAGACGGGCAATTGGCAGCAACCGGTTCGCTCTGTCTTTTTAGCCGGATTCCCTACGCGGAGAACTTGACCGGACAGGAAGGCTATATCTTGAATATCTACACGTCGCCTAAGTCCAGAAAGCAGGGCTACGCCAAGAGAATTGTCGATGAAATAATTGGCTATGCCCGTAGAACCGGGATAAAACGCCTTTGGTTGAATGCCAGTGAAGACGGCGCGGGCGTGTATGCTCAGCGGGGCTTTACTAAAAAGGACAACGAGATGGAGCTGTTTTTGTAG
>LACTIS1119B1_02110 alpha/beta hydrolase
TTGGCTAAAACTATCCCGGTTCTGCTGACCGCCTTGCTTTTCCTGACGGCTTGTCAAAAGCCTTTGACTAAGGCGGAGAAAGAGGCGCAGGCCAAAGAAACGGTAACCTTTTTCTTCCATGGCTACGGGTCCAGCATCAACGCGGAAAAACACATGGCAAATGCAGCTAGACAAGCAGGCAAGAGTAATGAAGTTTTAGAGGCCAGGGTTGAAGAAAACGGGTCAGTCAAAATCAAGGGCAAGCTCGCGGATAATCCGAAGAACCCAATCGTTCTGGTCGGCTTCTCCGACAACCGGAATCCTGATTACCACAAGGATGGCTGGTATGCCTACAAGGCAGTTAAGGCAGCCCAGAAGAAGCTGGGCTTTTCCAAGATGAACCTGGTCGGCCACTCCATGGGCAATATGGCGATCAGCTACATGATCATGGATTATTCTGCCAAAAAGAATTTTCCAACGATCAAGAAACAGGTTGATATTGCCGGCCACTTCAACGGGATTGTTGGTATGGAGAAGGATTCTCCAATCGATGCAGCCGGCAAGCCGAAGAAAATGAATTCGACTTATCAAGAACTGACGAAGCTTCGGCAGGTCTATCCAAAGGGGATTGGCGTCCTTAACATATACGGCGATACTGGTAAAAAGTCAGACGGCAGCGTCTACAACAATTCATCAAGGTCCCTCAAGTATCTTTTAATTAGGGCCAAGAGCTACAAGGAAGTGAAGATCACTGGCAAGGGCGGCCAGCACAGCCGGCTCCACGAAAACAGCCAAGTGGACCAGGTCCTGCAGAAGTTTTTGTGGAAATAA
>LACTIS1119B1_02120 hypothetical protein
TTGGCAGAAGAAAAGCTGACTGAACTTTTTAAAGACGATCCGAACTTCACGGTCATGGAGACCCTTGTTGCCAAGGAAAAAGTCTACGTAGTCGGGGTCAGCTACCAGACCCGGCGGCCATTTGACGGGGCGGTCTATGAAGTCGATCCAAGTACTGGTGATGCTAAGCTCCTTTTACCAGCAGGCAAGGCCGAAGTTTCAGCGATTTTTGCTCTTAAAAATCAAGTCTACTGCTTCGCCAACACTCATAAAAAGACTGGCTTAAACGAAAATCCGGAATTCTACCAGCTAACGGAAGATGGCCTGGAATTAGCAGCTAACTTCGATAATTCCGGCCAGAGCGCGATTGCTGGGGACTGCGGGGTGATCGGCGGCAATGCCTTTGACGTCTATGGCGACAAGTTCTACTTCGTGACCACCATCGTTGACCACGATGAAATCTACGTTTTTGACGGGCAGGAAGTCAAGCCGTTTTTTGCAACGGATGGCATCATCAAGGGCTTTCGTTTGACAGGTGAAAATGAACTTTTCCTGGAAGCAGCCTTTGCCAACGAGCTTTTGGAATTCTACCTGGTTAAAAATGGCCAGGTGAAAAAATTGTCCAGCTACAATAACCAGGCTTTAGCCGGCAAATACGTAGCTAAAGTCAACGAAGTCGAATATGAATCAGTTGAAGACGGGATCCAGCACGGCTGGGTGCTTTTGCCAAAGGATTACCAGGCAGGCAAAAAATACCCGGCGATCCTGGACGTTCACGGCGGCCCCCGCGCCACTTACAGCAAGGCCTTCTTCCATGAGATGCAGGTTTGGGCCGGAGCCGGCTACTTCGTCTTCTTCTGCAACATCCACGGTTCAAACGGGCAGGGGAACCAGTACGGGGACCTGCGGGGCCGCTACGGGACAGTAGACTACGAGGACTTAATGAAGTTTACTGACGCGGTTTTAGCGGCTTATCCAGACATCGACCAGACCCGTTTAGGCATCACCGGGGGTTCATACGGCGGCTTTATGACCAACTGGGTGATCGGCCATACCGATCGCTTCAAGGCGGCAGCTTCCCAGCGGTCCATCTCCAACTGGCTCAGCTTTGAACATATGTCTGACATCGCCCCAGAATTTTGCGTTGACCAGGTGGGGGCCAGTGAAGATGATAATCCGGAAAAGGTTTGGCTGCACTCACCGCTCAAGTACGTGAAGAATGTGAAGACGCCGACCCTGTTTTTGAATTCAGACGAGGATTACCGCTGCCCGGTTGAAGAAGGGATGCAGATGTTCCATGCACTTCTGTCTCACGGCGTGGAAAGCCGGATGGTGGTCTTCCACGGGGAAAACCACGAACTGTCCAGAAGCGGGCGGCCAAAGAACCGCTTGAGCCGGTTGCAGGAAATCCAGACCTGGTTTGACGGGCATTTGGGCGAGTAA
>LACTIS1119B1_02130 hypothetical protein
ATGGAAGCAGTTAAAGCAGAAGATTTGTATCAAGTCGTCAGCCTGGGCAACTTGCAAGCAAACGGCCAAAGGGCAGTACTGGCCAGAAACCAGGCCAAAGCCGATGGAGAAGGCTACTGGAACTGGCTGGACGTCTTTGAAAATGGTGAGCTCAAGCGCTTAACGACTTTGGGGCAGGAAAAGAGCTATGCCTTGGTAAATAATAGTGTCTACTACACCGCTCAAGAGGGCAAAGGCAATTGCTTGCTCTACAAGCAGGAACTTGACCAAGCCAGTCCGGCAAAAGTTGCTGATTTCAAATAA
>LACTIS1119B1_02140 lipase
ATGACACTTGATAGAAAAATTTTACAAGCTGTTGAAGAAATGCGGACTGGATCCAAGATGTACGACGACAAGCGCGATGAAGGCTTGCCAACCGAAATTCCAGAAGTCGAAAGAATTAATGACTTAAGCTACGGACCAGACCCAAGGTGGAACTTACTGGACATTTACTTGCCTAAGAAGCGGACCGGCAAGGTCCCGGTCATCATCAGCATTCACGGCGGCGGCTGGGTTTACGGGACTAAGGAAACCTACCAGTTCTACGGGCTGGGCCTGGCTAAAGAAGGCTTCGCCTTTGTCAACTTCAACTACTGCCTGGCTCCAGACGTTCAGTTCCCAGGCGAAATGGATGATGTCAACCGCTTGATGCACTGGGTGGCTGAACACGGAGCTGAATATGACCTGGACACGGGCAATGTCTTCTTAGTTGGCGACTCAGCCGGCGGGCAGATGGAAGAGCAGTATCTGGCCATCTTAACCAATGACAAGTTCCGCCAGCTTTTTGGCTACGAACTGCCAAAACTAACAGTCAGAGCAGCCGCGCTTAACTGCGGGGCCTACTTCATGCTCACCCCGGGCTTTACTGATGGCGCGCCAGGCGCCTACTTTACCCCAGAAGCAGTCAGCGGCAAGGAAGAGATGCTGAACACAGAAAAGTACTTGACGCAAAACTTGCCACCGCTCTTTATCATGACGGCTAACCAGGACTTCCTGCACGATTCTGCTGTCCGCTTGGACGGCTATCTTTTGGCCAAGGAGATCCCGCATGAACTCCACATCTACGGGGATATGGAGAACCCGCGTGGCCACGTCTTCCACTGTAATCAAAGAGACGACATCGCCAAGCAGTGCAACCTGGACGAGCTGAACTTCTTCAGAAAGCACTTAAAGCAGTAG
>LACTIS1119B1_02150 hypothetical protein
TTGATCGACAGCGATGACCTCAAGTACATCAATGACCTCTATGGCCATGATGCAGGTGACGCGGCGCTGAAGACTTTTGCCAAGGTTCTGGAAGACAATTTCGGCCAGCTGGGCAAGGTTTGCCGCAACGGCGGGGATGAATTTGCCGTCTTTTTGAAGCGGACGACAAGGACTGAGGGACGGGCGATTTTTAAAAAGCTCTTCCGGCAAAAGTTGACTTTTAGCTACCAAGGCAAAGACTATCCTTATACGATCTCCCTGGGTTTCGCCGTTTACCCGGACCAGGGGGCAAGCCGGGAAGAACTCTTGAACAAGGCTGATACGGCCCTCTATGCCGTGAAAATGACCGGGAAGGGAACGATGGCGGCTTACCACCCGGATATGGTCAAGGAAGGACGGGCACAACTGGGCTTTAATCTGCGCGACTTGGCAGTCAACCTGCCTGGTGCCTTCTTCATCTACCGGGCTGATGACGGGAAGATCCTTTTTGCCAACAGGGAACTGCTGCGGATTACGGAATGCTCTAGCATGGAAGTGTTTATCGAATTTATCGGCCGGAAAGTCAAGGGCTTGATCGCTCCGGAAGACTATGCTGAAGCTGTAGAGAGCTGTGACCAGCAGGTGGGGGACAGCGATGATACAGTGGCTCATATGGTCAAAAATCCCTACTTTGGTCAGATCTATTATGTTATTCTCAGCCCCAAGCCAGAGCAAAAATAA
>LACTIS1119B1_02160 hypothetical protein
ATGGAAAACAAAATGTTGGTAGTAACGACGGAAAATATCCCAGGCCGCAAGTATGAAGTAATCGGTGAAGTCTTTGGGGTAACCACCCAGTCAAAGAACTTCGCGTCAGTCTTTGGGGCTGGTCTTAAGAGCATGATTGGCGGGGAAATCAAGGCCTTCACCAAGATGCTGACGACTTCAAGAGAAGTCGCCCTGGACCGTTTGCGTGAAGAAGCAGGCAAACTTGACGCGGACGCCGTAGTCATGATGCGCTTTGACTCCGGCTCAATCGCCGGCGACATGCAGTCAGTCGTAGCTTATGGGACCGCCGTTAAGTTCGTCGACTAG
>LACTIS1119B1_02170 cellobiose-specific PTS system IIC component
ATGTCTGAATCACAAAGCTCATTAAGAGATAAACTCGCGACTGGCATTGGGAAGTTTGCTGGTTCACGTTTTGTTAGATCGATCATTGATTCCGGTTATGCGGTAATTCCTTTTACGATCGTCGGGGCGATCTTCTTGATCCTGACGGTTCTGCCGCAAGCCTTTCCGATCCCGGGCTTCGCCGGTCTGTACGCGCACACGCTTGGCAAGTTCTCAAACATGTTCACGGTCGTTTACAACGCCACCATGGGTATCTTGTCATTGATCTTCGGCGGGCAGTTTACCTACTCATACGCCAAGATCTACCAGCAAGAAGAGAAGATCAACATCGTGCCACTTAATGCCTTGTTCATGATGCTGATGGCAATGTTTATCACTGTTCCAGAAATGGTTTACAAGAACGGGTCAATCCAGTTCGTACAATCATTGAAGGCAGATAACATCATCGGTGGCGGTATTCAAGTTTCAGCTTCTGGTGTGACCAGAATCGGGACGACCGGTTTGTTCACGGCGATCGTGATCGGCTGGGCAACGGTACAGATTTACCGCTTTACTATTAAGCACAACTGGCAGATCAAGATGCCAGACGTCGTTCCAGCTGGTGTTTCCAACTCATTCAGTTCATTGATTCCAGGCTTCTGCGTTGCCTTTGTAGTAGCAACTATCAACTTAATCCTTGTCTTGATGGGCACTGACATCTTCAAGGTTATGTATGTGCCATTCTCATTCGTCGGCAACATTGCCGGTACTTGGTGGGGCGTGTTGCTCATCGTCTTCTTCATCCACTTCCTTTGGTGGTTCGGGATCCACGGTGCCAACATCATGAGCTCATTCTACACTCCAATCGCTTTGGCTAACCTTGCAGCCAACGTTAAGGGTGCTCACAACTTCTTTGCTGGTGACCCAATGAACGCCTTCATCATCCTTGGTGGTTCAGGTTCAACCCTCCTGATCGCCTGGTGGATGGCTGGCCGGGCAAAGTCAACCCAGCTTCGTGAAATCGGTAAGGTTGAAGCAGTTCCAGCCTTGTTCAACATCAATGAACCATTCTTGTTTGGTCTGCCAGTAGTTTACAATGTTAACCTCTTTGTACCATTCATCGGCGCGCCAATGGCTTCTGCCATCGTAGCTTACATTTTCCACGCGATCGGTTTTATGCCAGATATTAAAGTTCAACAACCATGGCCAACTCCAATCGGCCTTGGCGGCTACCTGGCTACCTTGTCATGGAGAGGTACTGTCATAGCGATCGTCTGCGCGATCGTTGCTTTCTTAATCTGGTACCCATTCATGAAGCGCTTCGACCTCAAGACTTACAAGAAGGAACAAGAAGAAGCAAAGCAAAACGCTAACGCTTAA
>LACTIS1119B1_02180 hypothetical protein
ATGTCTGCAAAAACTAAGCAGCAAAGCCGGACTTACGTGGACAGACGGCATGATGACCGGGTTCGTTACGCCTACTTTGCCCGCTATATGATGGTTCGCTACTTCGTCATCGCTTTCTTTTTCGCCAACTTCTTCTGGCTGCTGGTGAGCTATTCTGTTAACAGCCAGCTGGGAATGATCTTGGCGGCAGTAGCTGTCGCGTGGTGCACGGTCAGTGTGATTGAACAGCTGAGCAAGCTGCATAATAAGCAGGCTGATGTGCCGAGAACCCGGCAATACCTTATTTTCCAGCTTGTTCTCAACTTGCTGCTGAGCGTATGCTTGTTCACGCCTTTAAAGAGTATGATCTATCCTTTTGCAATTAATAAGAGTGACGTTCTGGCCTTGCTTTGCATATTACTGCTCGGGATGGCAGCCGTTTTTGCTGCTTTAGTAAGGATCCACAATATTTTCCTGGGAAGAGACAAATATTTGCCGCTGATCCGCAATGCGGAAAAGAGCCGGGCTTGGACCAGGAGTAGCTGCTTTTTATGA
>LACTIS1119B1_02190 cellobiose-specific PTS system IIA component
ATGGCTGAATTAAAAGATACAGCAAAAGCCTTGAAGCAGGTAGCTGAAAATCAGCAAAGCCGGGAAGAAGCAACCTTGATGGCGGCGATGGGCCTCATTGCCAACGGCGGCAACGCCAAGAGCCTGGCTTTTGAAGCAATCCGCCTGGCCAAGGCTGGCAAGATCAAAGAAGCAAGAGAGAAGCTGGAAGAAGCAGACAAGTCTCTGCTTGACGCCCACAACTCACAAACGGACATGTTAACTAAGGAAGCCCAAGGCCAGCATACCCACGTGACTCTTTTGGTTGTCCACTCACAGGACCACTTGATGAACGCCATCACCTTCCGCGACTTGGCGGGGGAAATGGTCGACTTGTACGAAAAGCTTTACGCCAGCGGTAGTTTGAAGACCGAAGTGTAA
>LACTIS1119B1_02200 cellobiose-specific PTS system IIB component
ATGGCTACCAAAACCATTATGTTGAACTGCGCGGCTGGGATGAGCACTAGCCTGCTCGTTAAGAAGATGCAAGAAGCTGCCAAGGCCCAAGGCAAGGACTACGAAATCTTTGCCTGCCCGGCATCAGAAGCCGACAACAAGCTGGCCAACCAAGAAATCAACTGCGTATTGCTTGGGCCGCAAGTTGGCTACATGAAGGCTGACTTTGAAAAGAAGCTGGAAGGTACTGGCATTCCGATGGGGGTAATCCCGATGCAGGACTATGGAATGATGAACGGGAAGAAAGTTCTGGAATTTGCTGACAGCTTGATGGCTGAATAG
>LACTIS1119B1_02210 6-phospho-beta-glucosidase
ATGTATTCTGCAAAAATGCCTGAAGGATTTTTATGGGGCGGCGCGGTTGCTGCCCACCAGATTGAAGGTGCCTGGGACGTAGGCGGCAAGGGCGTGTCCGTTGCCGACGTCATGACCGTCGGTTCAGCCACTAAGCCGCGGGAAATCACCGACGGCGTATTGCCGGGGAAGAACTACCCAAACCACTCAGCCATCGATTTCTACCACCGCTATAAAGAAGACATCAAACTCCTGGCCGGGATGGGCTTCAAGGCTTTCAGAACCTCCATTGCCTGGACCAGAATCTTCCCTAATGGTGACGACGCTGAACCTAATGAAGCAGGCTTGAAGTTCTACGATGACCTTTTTGACGAAATGCACAAGTACGGCATTGAACCAGTCATCACCTTGAGCCACTTCGAAATGCCATTCAACCTGGCCAAGAACTACGGCGGCTTCACCAACCGCAAGACCATCGACTTCTTCGTCCGCTTTGCTGAAGTCTGCTTCAAGCGCTACAAGGACAAGGTCAAGTACTGGATGACCTTCAACGAAATCAACAACCAAAGTGCCTTCAACAACGACTTCTTGATGGCTACCAACTCTGGTATCCTCTTTAAAGAAGGCATGACTGATGAAGAAAAAGAAGCCGCCATGTACCAGGCTGCCCACTATGAATTCGTGGCCAGCGCCCTGGCAGTCAAGATCGGCCACAAGATCAACCCTGACTTCAAGATCGGCCTGATGATCAACTACTCACCAGTCCGCCCGCTGACGCCAAGCTCAGAAGACACCCTCTTGGCTGACAAGTTCGAACAGCACCGGGACTTCTTCTCAGACGTCCAAGTCTTCGGCGAATACCCGAAGGCAATTGAAGCCTATATTGAAAAGCACGGCTACCGGCCAGACATCACTGACGAAGACAGAGTCGTCCTTAAAGAAGGGACCGTTGACTACGTGGCCTTCTCTTACTACCAGTCAACTACTGTCTCCAGCGAAAAGGTCTCAGCTGATGAACTGAGCGACCTGGAAAAGGCGGTTGCGGTTAACCCGACTTTGGAAAGAAGCGACTGGGGCTGGGAAATTGACCCGGTTGGCCTCCGCCTGGCTTTGAACCACTTGACTGACCGCTACCACCTGCCCCTCTTCATCGTTGAAAACGGCCTGGGGGCCTACGACAAGGTCGAAGACGGCAAGATTCACGACCCATACCGGGTTGACTACCTGAAGAAACACATTAGCGAAATGGAAAAGGCAGTTACGATCGACGGCGTTGACCTGATGGGCTACCTGCCATGGGGGCCAATCGACCTGGTTTCTGCAGGGACTGGCCAAATGGACAAGCGCTACGGTTTCATCTACGTCAACAAGAATGACCAAGGAGTCGGCGACCTCAGCAGAACCCCAAAGGACTCCTACTACTGGTACAAGAAGGTCATTGCATCCAACGGGACTGACCTCGACTAA
>LACTIS1119B1_02220 RNA polymerase sigma factor RpoD
ATGGTGATTACCGGTTTAAAGAAGACCAAGCAGATCCGCGAAAAGGACTTGAAGGCCCGGCTCTTGCTGCCGTATGGTCTGAATGATGCCGAAACTGCCAAGCTGGTAGAAGAGTTTGCGGACAATGGGATTAGTATCGTTGACGACCAGGGTGAACCGTCTGCTCTGGCCCTCAAGGCTGAAGAAGAAGCTGAAAAGAAAGAACAAAAAGAACTGGTCGCTTCCAGCGACAATGACCGGGTTTACGACTCGGTTCGGATGTATTTAAAGGAAATCGGCAAGGTCCCGCTTTTGAGCCGGGACGAAGAAGTAGAAGTAGCCAAGCGGATTGAAAACGGCGATGAGTCAGCCAAGGATGAACTGGCCGCCGCCAACCTCCGTTTGGTTGTCTCCATTGCCAAGCGCTATGCCAAGCACAATGGGAAGATGGGGATCCTGGACTTGATCCAGGAAGGCAATATCGGCCTGATGAAGGCAGTTGACAAGTTCGACTACTCCAAGGGCTTTAAGTTTTCAACTTATGCTACCTGGTGGATTCGGCAGGCCATTACCCGGGCCCTGGCTGACCAGGACCGGATGATCAGAATCCCGGTTCACGTAGTGGAAAGCATAAACAAGATGAACCGGATCCAGCGGATTCTACAGCAGGACCTGGACCGGGATGCCAAGCCGGAAGAGCTGGCCGCGGAAATGAATGAACCTTTGCAGAAGGTGCAGGAAATTATCACGGTAGCCAAAAACCAGGAAACTGACTCTTTGGACAAGCCGGTTGGCGAAGAGGGGGACTCGCAATTGGGGGACCTTTTGGAAGACAACAAGGCAACCAACCCGGAAGAATACACTGCTTTTGAAATGCTGAAGGACCAACTGTCCAGCATGATGGGTGAGTTCCTGACTAACAGAGAAGCTAAGGTCTTGAAGCTGCGCTTCGGCCTGGAAAACGATGAGCCGCACACTCTGGAAGAAGTTGGCCGCAGTCTGGGCGTTACCCGGGAACGGGTCCGGCAGATTGAAGCTAAGGCTGTCAAGAAGTTGAAGCACCACTCAGACCTGCTCCAGGACTACTTCTCAGCAGAATAG
>LACTIS1119B1_02230 RNA polymerase sigma factor RpoD
ATGACAGACAAAGCTAAGCAGACAGGAAAGGCAGACCAGGTATCCCTGGCTAAAGCCGTTAAGTTAGTTGTTAAGGATGTCAAGAAGAGCAAGCAAATTTCTGAAAAGGAATTTACCGACCGCTTGCTGAAGCCTTACCAAATCGAAGGCCGGGCGGTCGATCAGCTGGTCCAGGAATTTGAAGACAACGGGATCAGCATTGTCGATGACAAGGGCGAACCGTCCAAATTGGCCCTGGCCAAGCAGAAAAACGTGGAAAAGGCAGAGCTGGAACACTTGTCAGCCCCAGGCAGCCGGATGAATGACCCGGTCCGCCAGTATTTGAAGCGGATCGGCCGGGTCAGCCTGCTCAGCGGGGATGAAGAAGTCCAGCTGGCCAAGCGGATTGAAGCCGGCGACCAGGAGGCCAAGGATGAACTGACCAGTGCCAACCTGCGTCTGGTGGTTTCCATTGCCAAGCGCTATGTTGGCCGGGGGATGAGCTTTTTGGACCTGATCCAGGAAGGGAACATGGGCCTGATGAAGGCGGTCGGCAAGTTTGACTACCAGCTGGGCTTCAAGTTTTCTACTTACGCGACCTGGTGGATCCGACAAGCAATCACCCGCGCGATTGCCGACCAGGCCCGGACGATCAGAATCCCGGTTCACATGGTGGAAACCATTAACAAGCTGATCCGGATTCAACGGCAGCTTCTCCAGGATCTGGGCAGAGACCCGGAGCCAGAAGAAATTGCCGCGGAAATGGACTTGCCGGTCAAGAAGGTCCGGGAGGTCCTCAAGGTGGCCCAGGAGCCAGTTTCCTTGGAGACACCGATTGGGGAAGAGGATGACTCCCACTTAGGCGACTTTATTGAAGACAAGGACGCGACCAGCCCGGAACAGCACGCGGCCAGTGAAATGCTGAAAGACCAGCTGGCGGAAGTGCTTGACACTTTGACTGACAGTGAGGAGAATGTATTGCGTCTGCGTTTTGGTCTGGATGACGGAAATCCCCGGACTTTGGAAGAAGTCGGCCGGGTCTTTGGCGTGACCCGGGAGCGGATCCGGCAGATCGAGGCCAAGGCCTTGCGCAAGCTGCGGCACCCAAGCCGGAGCAACCAGTTGCGTGACTTTTTAGAGTAG
>LACTIS1119B1_02240 RNA polymerase sigma factor RpoD
GTGACAGAAGAAAAGCAAACCAAGGCTAATGAGATGTCCCTGGAAAAGGCGGTGAAGCTGGTTGTTGAAGGGGTAAAGGCCAGCCACCAAATCACTGAAGCTGCTTTCGAAGACCGCTTGATCAAGCCCTACAAATTAGAGGGCAAGGCCGTCGACCAGCTGGTCCAGGAATTTGAAGACAACGGGATCAGCATTGTTGATGAGGACGGCAAGCCTTCCAAGCTGGCTCTGACCAAGCAGAAAAATGTTGAAAAGGCGGAACTGAACAATATGGACGCCCCGACCGGGATGAAGATGAACGACCCGGTCAGAATGTACTTAAAGGAAATCGGCCGGGTCAACCTTTTGACCAGTGAGGAAGAAGTCGCCCTGGCCAAGCGGATTGAGGCCGGCGATGAAGAGGCCAAGCAGGAACTGGCTGAAGCCAACCTGCGTTTGGTTGTCTCGATTGCCAAGCGCTATGTCGGCCGGGGGATGAACTTCCTGGACTTGATCCAGGAAGGGAACATGGGCCTGATGAAGGCGGTCGACAAGTTTGACTACCGGCTGGGCTACAAGTTCTCCACTTACGCGACCTGGTGGATCCGGCAGGCCATCACCCGGGCAATTGCCGACCAGGCCCGGACGATCAGAATTCCGGTCCACATGGTGGAAACCATTAACAAGCTGATCCGGATCCAGCGGCAGCTCCTCCAGGATTTAGGCAGAGACCCGGAACCGGAAGAAATCGGGGCGGAAATGGACTTGCCGGTCAAGAAGGTTAGGGAGATCTTGAAGCTTTGCCAAGAGCCGGTTTCTTTGGAGACCCCAATTGGGGAAGAAGACGACTCCAATTTGGGCGACTTCATCGAAGACAAGGACGCGATGAGTCCCGAACAGCACGCGGCCAATGAGATGCTGAAAGAGCAGCTGGCCGAGGTTTTGGATACCTTGAGTGACCGGGAAGAAGAAGTCCTCCGTTTGCGTTTTGGCTTAGATGATGGCAAGGCCAGGACTTTGGAAGAAGTCGGCCAGCATTTTGAAGTGACCCGGGAACGGATCCGGCAAATTGAAGCCAAGGCCCTCAGAAAGCTCCGCCACCCGAGCCGGAGCAGCCAGTTGCGGGATTTCTTAGATTAA
>LACTIS1119B1_02250 DNA primase
TTGGCTGGAAGAATTTCGGAAGATTTTATCAATGAAGTTCGGGGCAGCGTAAATATCGTTGACGTGATCAGCCAGTATGTATCACTGGAGAAGAGAGGCAAAGACTATGTTGGTCTTTGCCCTTTTCATCAAGAAAAGACCCCCTCTTTCAGCGTCAACCCGGACAAGCAGTTCTTCTACTGCTTTGGCTGCCATAAAGGCGGCAATGTCTACAAGTTCATCATGGAAAAGGAAGAAGTTACTTTTCCAGAAAGCGTTGAAAGAGTAGCGGAATTCGCCAATATCCCCATGCCCCAGGAATACCAGGAGCAGCCGGTCAAGCTGAATCCTTTGATGCAGATGCACAAGGAAGCGGCGGACTTTTACCAGAAGGTTCTCATGACTACCAAGATCGGGGAAAGGGGCCTGGAATATGCAAGAAAAAGAGGCTTGGACGATGACCTGCTCAAGCACTTTAAGATCGGCTATGCCCCAGGCAAGTCCGACCTGCTCTTGACCTATTTGCGAGGCGAAGGCTATACGGATGACCAGCTGGCGGAAAGCGGCTTGTTTGTCAAGAGCCAGGACGGCCGCCTCTTTGACCGCTTCAGAGACCGCTTGATGTTCCCGATGAGTGATGAAAGCGGCCACCCGGTGGCCTTTTCCGGCCGGAGAATCAGCGATGACCCGGAAGAACCCAAGTACTTGAACAGTCCGGAAACCAGCATCTTCAACAAGTCCGACCTGCTCTTCCACTTTTCAGAAGCCAAGAAACATGCCAGAAAAGAGGGACACCTGGTCTTGTTTGAAGGACATATGGACGTGATTTCGGCCTATAAGGCCGGGGTCAAGACCGGGATTGCCTCCATGGGGACCAGTTTGACCCAGCAGCAGGTCTATATGATCCGCCGGATCACCAAGCAAGTCGTCATCAACTATGACGGCGACGATCCAGGCCAGCACGCAACTGAACGGGCGGTGGGCCTCTTCAAGCAGGCCGGCAACTTTGACCTGGGCATCGTGATCCTGCCTGACAAGCTCGACCCGGACGAATATGTCAAGCAGTACGGACCGGACAGCTACCAGGCCGCGATTAGAGGGGCTATTTCGACCACTGACTTTTTCCTGCAGCGCTTGAAGAAGAAGTACAACTTAAACAATGAGCGCGAGCAGGTGGCCTATTTAAGCGAGGCAGTAGCGGAAATCGCCGCCTTGCCCAATCCGGTTGAACAAGACCTTTATGTAGGCCGCCTGGCCAAGGAAACCGGAGTCTCCCTTGACGCTTTAAAGGTCAACTTGTCCAGGGCCCGCCGCAAGCAGCGCCGGGTGGACCAGCATACCAGCAGCGAAGTCCTGCCCGAGCTGGCCCCCTTGGCTCCAGCCGCGGATCCGCAGCCGGTCACCAGGGCTCTAAAGGCCCAGCAGCGCCTGCTTTATGCCTACATCTATTCTGATGAGGCCCGGGACTACTTGACCGTCAACGGTTTTGTTTTTCCAAACCCGGAATACGAGCGCCTGGCCAAACTTTGGCTCAATTACATTGAAACTCATGAAAATGTTTCATTGAGCGGCTTTTTGGATTTTATTCCTGAAGAACTTCAGAGTATAATTGTTAGTACTGATATGACCGGGCTGCCAGGGAAAATCACCTTGGAAGAGCTCGAGGCGCAGGTTCGGGTACTCAACCTGTGCAAGATAGATGATGAGATCGACCGCCACATGCAGGCGATTGCAGACGCGCGTCGGCGAAACGACCAAACGGCAATTTTGCTGGAAACACAGGCAATTTTGCAGCTAAGGCAACTGAAGCTGCAGGAAGAGGAGGCAGTTAGTGACAGAAGAAAAGCAAACCAAGGCTAA
>LACTIS1119B1_02260 glycyl-tRNA synthetase beta chain
ATGACTAAAGACTTTTTATTTGAAATCGGCGTTGAAGAAATGCCAGCCCACGTGGTCAGCAAATCAGTCAAGCAGCTGGCTGACAGAACTGGCAAGTTCTTGAAGGAAAATGGCCTGGGCTTTAAGGAAATCAAGACCTACTCAACTCCCCGCCGCCTGACTGTCATGGTCAAGGAACTGGATGAAAAGCAGGCTGACGTAGACGAAGTCAAGAAGGGGCCGGCCAAGAAGATCGCCCAGGACGCTGACGGCAACTGGACCAAGGCCGCTGTCGGCTTTGCCCGCGGCCAGGGGATGAGCGCCGACGACATCTACTTTGAAGAACTCAAGGGCGTGGAATATGCCTACGTGCACGTGCAAAAGGCCGGCAAGGAAGCTAAGGAAATCCTCTTGGGCCTGGATGAAGTAATCAAGGCCATGACCTTCCCGACCAAGATGCGCTGGGACTCCCAAGACTTTGAATTTGTCCGCCCAATCCACTGGCTCGTTGCCCTTTACGGCAGCGAAGTCGTCCCAGTTGAGTTCCTGGACATCACTGCCGGCCGCAAGACTGCCGGTCACCGCTTCCTGGGCGACAGCGTGGTTTTGGCCAACGCTGACGACTACGTGGAAGCTCTGCGGGATCAATACGTCATCGTTGATGCTGACGAACGCAAGGACATGATCGTTTCCCAGATCAACGACCTGGTAAACAGCCACAACTGGCAAATCAAGCTGGATACCAGCCTCTTGGAAGAAGTCAACAACCTGGTTGAATACCCGACTGTTTTTGCCGGCTCATTTGACCAAAAGTACTTGGAAATCCCGGACGAAGTCCTGATCACTTCCATGAAGGACAACCAGCGCTACTTTGAAGTCTACGACCAGGAAGGCAAGCTGATCAACTACTTCATCTCCGTGAGAAACGGGAACAAGGACCACTTGGAAAACGTGATTTCCGGTAATGAAAAGGTCCTGGTTGCCCGCCTGGATGACGCGGTATTCTTCTACGACGAAGACCGCAAGTACCCGCTCAGCCACTTTGTTGACCGGATGGACAGCGTTTCCTTCCACGACAAGATCGGTTCTATGGCAGAAAAGATGACCCGGGTCCGGATCATAGGCGACTACCTGGCCAAGAGATTCGGCCTGTCAGCTGAAGAAGTGGCTGACTTTGACCGGGTAAGCGGCCTGTACAAGTTCGACCTGGTAACCCAAATGGTCGGCGAATTCGCTGAACTGCAAGGGGTTATGGGGATGCACTATGCCCGCCTGGCTGGCGAAAACGAAAACGTTTCTGTTGCCATCAAGGAACACTACATGCCAACCACGGCTGAAGGCGACTTGCCGAAGACCAAGGTCGGCGCCCTCTTGTCAGTTGCTGACAAGCTGGACACTATTATCGCCTTCTTTGGTGCCGGGATGATTCCTTCATCATCAAACGACCCATACGCTTTGCGCCGTTACGCTTACGGGATTGTCCGGATCCTTTTGAACGAAGACTGGTCCCTGCCATTTGACCAGGTTGTTCCAGAAATCGTGGAACTTTTGTCTGGCAAGACTCCGGCCAAGCTGCCGCAAGGGGCGGAAGAAGACAAGCAACTTGCTGACTTCATCCGTGACCGGATCAAGCAGTTCTTGCAAAAGAACAACTACCAATACGACGTTATCGACGCCGTTCTGGCATCAAGCGAACAAGATCCAAGCCAGATCCTGGCCGCTGCCAAGGTTCTGCAGCAGCACCATGACGACAAGGCCTTCAAGCCAGTCGTTGAAAGTCTGACTAGAATCGCCAACATCTTGAAGAAGGCTAAGTTCAGCCAGGCTAGTTCGGTTGACCCAAGCTTATTTGAAGACAGAAGCGAACAAGACCTTTATAATGGAGTTGAAGCTTTGGCAAATGTCAAGGACCATGCTGAACTTTACGAAGCCTTCGTTGCCTTGCAAGGGGTAATCGACCGCTACTTCGACGTCAACATGATCATGGCCAAGGATGAAGCAGTCAAGAACAACCGCTTGAGCCAGCTGGCAGCTGTCAATGACCTGGCCAAGCGCTTGGGCGACTTGAGCAAGTTGGTTATCAAGTAA
>LACTIS1119B1_02270 glycyl-tRNA synthetase alpha chain
ATGGCACAAAAATTAGATATTCAGACCATGATCTTCAAGCTTGAACAGTTCTGGGCTTCAAAAGGCTGCATGATCATGCCGTCATATGATGAAAACAAGGGTGCGGGGACGATGAGCCCATACACCTTCTTGCGGGCAGTCGGGCCTGAACCTTGGAAGGCCTGCTACGTTGAGCCTTCCCGCCGGCCAGCTGACGGGCGCTACGGGGACAACCCGAACCGGCTCTTCCAGCACCACCAGTTCCAAGTTGTTTTAAAGCCGGCTCCGCTGGAAATCCAGCAATACTACCTGGACTCCTTGAAGGTTCTAGGCATTGAACCTTTGGAACACGACATCCGCTTCGTTGAAGACAACTGGGAAAACCCATCCATGGGCTGTGCCGGTGTTGGCTGGGAAGTCTGGCTGGACGGGATGGAAGTTTCCCAATTTACCTACTTCCAAACTGTCGGCGAACTGGACGTCAAGCCAACCATGGGCGAAATCACTTACGGGGTTGAACGGCTGGCTTCCTACATCCAGGACGTTAACTCAGTCTTTGACCTGGAATGGGGCGACGGAGTCCTTTACCGGGACATTTTCAAGGAACCTGAATACGAACACTCCAAGTACGCCTTTGAAGAAAGCGACCAGAAGCAACTGCTGGAATTCTTTGACACTTACGAAAGAATTGCCAAGCGCCTTTTGGGCCAGAACCTGGTTCACCCGGCTTACGACTACATCTTGAAGTGTTCCCACACCTTCAACCTACTGGACGCCCGGGGGACAGTCTCAGTAACTGAACGGGCCGGCTACCTGCACCGAATCCGCAACATGGCTCACGAAGTAGCGGTTAAGTTTGTGGAAGAACGTGAAAAGCGCGGCTTCCCATTGTTGAAGAGTGCACAAGCAAAGGCGGAGGCAAGCAATGACTAA
>LACTIS1119B1_02280 DNA repair protein RecO
ATGGCCGCTGACCTGCTCGATGTCCACGGCCTGCTTTTTAAAAGGCAGCAGTATAAGGAGGCTGACATCTTGGCCAAGCTCTGGACCAAGGAACTGGGAATCGTCACCGTAATTGCCAAAGGTGGGATGCGGCCCAAGTCTCAGCTGGCCGCCGCGGTTTTGCCCTTTACGGAAGGGACTTTTGGCATCTTGACCCGCTACAAGGGGATCAGCCAGCTGTGGACCTATAAGAAGCTCAGCCAGCACGATGAGCTTTTTACCGACCTGGACAAAAATGCCTATCTTTCTTATCTTTTTGACTTAGCTGACCATGCCTTCAGCGAGTACCAGAAACTGGGGGGCTACTATGACCTTTTGCTAGTGGCCTTTAACCGGATCGTGGCCGGCCAGGACCCGGAAATTATTGCCCAAATTGTCCAGCTGCAGCTCCTGGATGCCTTCGGGGTAGCTCCTCAGCTGGGGGCCTGCGTGATCTGCGGCAAGGAAAAAGGAATTTTTGACTATTCAATCGCCGCCGGCGGGGTGGTCTGCAGCGACCATTTCCGCTCTGTCAACCGCCTGCACCTGTCGCCAAAGGCTACTGCCTTAATCAGAACCCTGGCCCTTTTACCAATCAGACGTTTAGGGGAGATCCAGATCGGCGAAGATTTGAAAAAGGAAAGCCGGCGGGCCATCGCCCAGATCTACCAGGCAACAGTGGATTTGCACCTGCCCAGCCTCCGCTTTTTAAATGAGGTCCGGGGCAGCTGA
>LACTIS1119B1_02290 GTP-binding protein Era
ATGGGGCAAACAAGTAAACACAAGTCAGGTTTCGTAGCATTGGTTGGCCGGCCAAATGTCGGCAAGTCAACCTTGATGAACCGCTTAATCGGGCAGAAGGTGGCGATCACCTCCGCCAAGCCGCAAACTACCAGAAACAAGATTTCCGGCATCTACACTGAAGATGACATGCAAGTTGTCTTTGTCGACACGCCGGGAATTTTCAAGAGCCATTCCGACCTGGACGAATACATGGACAAGGCCAGCCTGTCTTCTTTAAAGGACGTTGACTTAGTCATGTTCATGGTTGACGCTAAAGAAGCCGGCAAAGGTGAGGAATACGTGGCCGGTCTTTTGAAGGATTTGGATATTCCAGTATTTTTGGTTATCAACAAGATCGATCAGGTTCACCCAAATGACCTTTTGCCAATCATCGACTCCTACCAGGCCGTCGGCAAGTTCGCGGAATTTTTGCCAATTTCCGCCCGGCAGGGCAACGGGGTCGACGACTTGCTCAAGACCTTGAAGGACTACCTGCCAGAAGGACCGCAATACTACGCTTCAGATGAAGTAACCGACCGGCCGGAATACTTCGTGGTGGCTGAGATGATCAGAGAACAGATCCTCCGCTTGACCGACCAGGAAGTTCCCCACTCAACTGCTGTCTGGGTTGACCAGATGAACCAGCGGATCAATGGCAAATTGCAGATTGATGCCACGATTTTTGTGGAAAAAGACGGGCAAAAGCGGATCATTATCGGGCAAAGAGGGTCCATGATTAAGCAGATCGGGATGCGGTCCAGAAAAGAAATCGAAAATCTTCTGGGCGAGAAGGTTAACTTGAAGCTCTGGGTCAAGGTACGGCGCGACTGGCGGCAGGACCCGGCCTTCCTCAAGTCCATCGGCTATGACAAGAAGGAACTTTAA
>LACTIS1119B1_02300 cytidine deaminase
ATGAACGAGTTGGAAGAAAAACTCTTTTTGCTGGCCAAGGACCATTTGGCGGATGCCTATAGCCCTTATTCCCACTTTCACGTGGCCAGCGCTTTAGTGACGGACGCGGGAGAAATTTTTACCGGGGTCAATATTGAAAACTCTTCTTTTGGCTTGACCAACTGCGCCGAACGGACGGCGATCTTCTCCTGGGTGAACGCTGGCCGGCCGGGCAAGATCAAGTGCCTTTTGATCATCGGCAACACTGACCGGCCAATCTCCCCTTGCGGGGCCTGCCGGCAGGTAATGAGCGAATTTATGGCTCCGGAAACGGAAGTAATTCTGACCGACAGCCAGGGGGACTATGAGCACTTTACAGTTGAGCAATTGATACCATACCATTTCACAGAAAAGGACATTCAAGATGGGGCAAACAAGTAA
>LACTIS1119B1_02310 16S rRNA maturation RNase YbeY
ATGCAGGGAATTGACGTAAGCTACAGCGATGAAGTCGGTTTTTTGACTAAGGGAGACCGGGACTGGGAAGGCTGGATCATGCAGCTGCTCCTCATGGCGAAAAAGGAAATCGGCAAGGACAATGCCCAGGAAATGAGCATCAACTTCGTTGACGAAGACCGGTCGCAGGCTATCAACCGGGACTACCGGGATAAAGACCGGCCAACCGATGTGATTTCTTTCGCCATTGAAGACGGCGACGACGGCCTGGACCTGGCTATGTTCACCCAGGACCCGGACTTTACCGAAGACATTGGCGACTTGTTCATGTGCCCAAGTGTCATCGAGCGCCACAGCAAGGAATATGGCACCGGCTTTGACCGGGAATTTGGCTACACGATCGTGCACGGCTACTTGCACTTAAATTGCTATGACCACATCGAGCCAGACGAAGCCAAGGAAATGTTTGGCATCCAGGGTAAGGTTTTGGAAGAATATGGCCTGCCCCTTTATCCGGACCAATTAGACGAAGGAAGAGGAAAATAG
>LACTIS1119B1_02320 phosphate starvation protein PhoH
TTGGAAAAGAAGTTTTTGCCCCACAGCAGCGAAAATGTCCAGAAGCTGGTGGGCGTAAATGACAGCAATTTGAAGCTGATCGAAGAAGGCTATGAGGTTATCGTTACTGACCTGGGTGGTCAGATCAAGGTTGCTGGACCTGAAGAGCAGGTGGAGACCGTCTTGCGGGTTTTAAAGGCCTTGGACGGGGTAGCCAGCAACGGGATCAATTTAACTCCGGCCGATGTGGTCAGCGCCATGAAAATGGCTGACCGGGGGACAACTGAATACTTTGGCGACCTCTACAAGCAGATCTTGATCAGAGATGCTAAGGGCCGGCCAGTCCGGGTCAAGAATATGACCCAGAAGAGCTATGTTGAAGCCATCAACAAGAGCGACGTGGTCTTTGGGATCGGACCCGCCGGGACAGGGAAGACCTTCCTGGCTGTCGTCTGCGCGGTTGCTGCCTTTAAGCGGGGAGAGGTCTCCAAGATCATCTTGACCCGGCCGGCAGTTGAAGCCGGGGAATCCCTGGGCTTTTTGCCAGGGGACCTTAAGGAAAAGGTTGACCCTTACCTGCGTCCAATCTATGACTCCCTTTATGCCATCTTAGGGCAGGGACCAACTGACCGCTTGATGGAGCGGGGCGTTATCGAAATCGCTCCTCTTGCTTACATGAGAGGGCGGACCTTGGAAGAAGCTTTCGTCATTTTAGACGAAGCGCAGAACACGACTGACGCCCAAATGAAGATGTTTTTAACCCGGCTGGGCTTTAACTCCAAGATGGTGGTCAACGGGGACATGACCCAGATCGACCTGCCTGGCAAGGCCCACAGCGGTTTGATCACGGCCCGCAATATCCTGCAGGGGATCGACCAGATCGAGTTCGTGGAATTCAGTGCGGCTGACGTTGTCCGGCACCCAGTCGTAGCAAAGATTATCAAGGCATATGAAGAGGAAGGAAAATAA
>LACTIS1119B1_02330 30S ribosomal protein S21
ATGGCTAAGACTATCGTTCACGAAAACGAGTCTATTGATGATGCTCTTCGTCGTTTCAAGCGTTCCGTTTCTAGAAGTGGTACTTTGCAAGAATACCGCAAGCGTGAATTCTACGAAAAGCCAAGCGTTCGTAGAAAGTTAAAATCTGAGGCCGCTCGCAAGCGTAGACATTATTAA
>LACTIS1119B1_02340 phosphotransferase
ATGACTGAAAATAAAGCAGAAAACAAGCAAACAGAAAAAACTGAAAAGATGGAAGTCAACATTATCATTATTTCCGACTCAGCTGGGGAAACGGCCTTTAACAACGCCCAGGCGGCTGCCGTCCAGTTCCCTGACGCCGAAGTCAACTACCGCCGCTATCCTTTCATTGTTAACGAAAAGAAGCTGGCCGCTACCCTGGAAGAAATCGAGCAGTATCCTAACCTGGTCATCGTCTACAGCATGCTGGATGAGCAGCTGCAATTGCCGATCATCAAGTTTGCCCGAGAACACAAGGCTAGGTACATCGACATTTTGTCTCCGATCATTGAGGCTATCAGCCAGACGACCCATATGAAGCCGACCGGCCTGGTTGGGGCTAACCACCAATTGACCAACAAGTACTTCAACCGGATCTCCGCCATGGAATTCGCGGTTATGTACGACGACGGCAAGGATCCGCGGGGCTTTTTGGAAGCAGACGTTGTCTTGTTAGGTGTCTCCCGGACTTCCAAGACTCCCCTTTCCTTGCTTTTGGCTAACAAGGGGCTTAAGGTGGCCAACTTGCCGCTAGTACCGCAGACCCACATACCAAAGGAAATCTACCAAATTGACCCGAAGAAGATCATTGGTTTGACCACCGATCCGCAAGTGCTCAACCGCATCCGCCGGCAAAGAATGATCAGCTACGGGATGGACCCCGACACTGCCTACTCCAACATGGACTCCATCAATGCCGAACTGGACAGTGCCATGGCCTTATACAAGAAGCTGGGCTGCTTCGTGATCAACGTGGCTGAACGGTCAATCGAAGAAACCGCGGCTTTGATTATGAACCACCTGGGTTACGAAGAAGATTAA
>LACTIS1119B1_02350 hypothetical protein
ATGCCAGATGAAAGGGACAATAGCCGCTATCAACCAAAATATATAGGCTTGGATTTGGCGACTGAGATCGCCACTACTTACGCTAAACAGCATGGACACCACAATGTCAAGCTGCTGATGACTAAGACCAGTCCAGACAAGCGGTCAGAGTATTTTTACGTCTTCAGCGTAACTGACAGCTTGCGCGAGAACGGCAAGAAGGAATATTTCATTTTTTTAGTTGATCCGGTTTCTGGAGAAGTCTTCAGAGTGGATGAAAGTCCGCTGAAGTAA
>LACTIS1119B1_02360 YitT family membrane protein
ATGAAGCTGTTTGATTTAAATCGATTTTCACGCAATTACGGCTTTTTGGTAAAAATCGGGACGGCAATTCTATACTCAGTTATGGTTGCCGTAGCCCTGAACTTCTTCTGGCATCCCGGCCACATCTATTCTTCCGGGATCACAGGCTTCGCGCAGATCGTCAACACTGTGACCAGCCGCTACATGCCATTTACCATCCCAACAGAAGTGATGTACTTTGCTTTGAACGTACCCCTCTTTATCCTAGCTTGGTTCAAGATCGGCCGTGAGTTTACCGCCTACACCATCTTCGCGGTTGCTATGTCTACGATCATGATGCGTTTCATCCAACCGACCCAAGTTAGCCTGGACCCTATCCTCAGCGCCATTTTCGGGGCAGCAGTCAACGGGATCGGCACTGGTATGGCTTTGAAGAGTGGGATCTCTACAGGTGGTTTGGACATCTTAGGTATCGTGGTCAGGAAGAAAACTGGTATGAACTACGGCAAGTTCAATATCTTGATCAACTTGATTATCGTTTTGATCGCCGGTTTTCTCTTTGACTGGTCCAGAGCCCTCTACACGGCCTTGAACATTTTCATCAACGGCCGCTTCATCGACTCAGTCTACACTCAGCACAACAAGCTGCAGGTAATGATTGTTACTGAACATCCCAATGCTATCATCGAAGGGATTCAAGAAAAGATGCACCGCGGGATCACTATCTTCCACGACGTGGAAGGGGCCTACGGGCATACTGAAAAGACCGTCCTTTTAACCATTATCGACACTTACGACCTCTACGACATCCGGACCACAGTAGAAAAATGTGACCCCTTTGTCTTCATGAGTGTCACGGAAGTCCAGAAAGTTTATGGCAGATTTAGAGAACAAGAAGTCGTTTAG
>LACTIS1119B1_02370 hypothetical protein
ATGGATCACGAAAAGGCGCCGAAGCATGGGATTTCCTGGCAGGCTTCAGCGGATACCTTCATTGTGATCAATATCTTGCCTAAAGACAAGGCTATAGAGTCCGACGCGACTTTGGTGGCTAATCAAGGGATCAACTACTGTAGTCAAATGTTTAGCCTGGAGCGCGCCTGGGAAGACCTTTCCGCTGAAGAGAGATACGAAAAGCGCCAGTCCGAATTAAAGCCTTTGCTAGAGAAGTTTTCCGACTGGTGCTCCAAGAAATCAATTTCCGTGTTGCCTTCCGGTAAGCAGGGGACAGCTTTCAAGTATTGCATGAAGCACATGGACAAGTTCATGAACGTTCTAAAAGATAGTCGCCTTGAATTGTCCAACAACAGAGCAGAACGAGCAGTCAAAGAGATCGTCATGGGACGCAAGAACTGGCTCTTTTCACAGAGTAGTACAGGCGCCAAATCCATGGCAATCATTATGAGCATACTCGAAACCGCCAAGCAAAATGGCTTGGATCAATTCAAATACATCAACTATCTTCTAGACAAGCTGCTCAATGAGCTGTCAATTAGCGTCTGGAAGCCTATTTACCATGGGCTGAGAATGTTCAGCTCCACTGTAAGTAAAAGTCCCATAAACTGA
>LACTIS1119B1_02380 aspartate aminotransferase
ATGCCAAAATTAGCGCAAGATTTACTGCCGATTATCAACCACAAGCTCGATGCCGTGGTTCCTTCAGATATCCGCCGTTTTGACAAGTATGTTTCCCAGTTCGATGATGTTGTCAAGCTGACCCTGGGTGAACCGGACTTAAATACCCCGGAACACATCAAGCAGGCAGCCATCCGGGACATTGAAAACAATGACAGCCACTACGGCCCGCAGTCAGGCAAGCCGGAACTGCTCCAGGCCATCGGCAAGTACGTTAAGGGCGTGACCGGGGTTGACTATGACCCGGCGAGTGAAATCACCGTCACGGTCGGGGCAACCGAAGCCTTGAACTGCAGCTTGTCCGCCCTTTTGAACGATGGCGACAAGGTGATCGTGCCTACTCCAGTCTGGTCCATGTACATGCAGCTGGTCTGCTTGACTGGGGCTACTCCAGTTGAAGTCGACACTTCAGACACCGGCTTTATTTTGACTCCGGAAAAGCTGGAAGAAGTCATTGAACGGGAAGGCAAGGGGGTTAAGGCTGTTATGCTGAACGACCCGACCAACCCGACCGGGGTAACCTACCCTAAGGAAGTTATCGAAGGCCTGGCTGAAGTTATCAAGAAGCACCACATGTACGCGATCAGTGATGAAATCTACTCCGAACTGATCTACGGGGATGCTAAGCACTACTCTTTGGCGACTTACATTCCAGACAGAACCATCTTTATTTCCGGTCTGTCCAAGTCCCACGCCATGACTGGCTGGCGGTTGGGCTATATCTGCGGGCCAGATGAAATCATGGCCAGCGTCCGCAAGATGAATGACTTCATGATCACGGTCGTGACCAACAACGTGCAAGCTGCGGCCATTGAAGCCTTGACCAACGGCCTGGATGACCCGAAGGAATTCAGAGACATCTACCAGCGCCGGGTCAACTTCATGGAAAAGGGCTTGAAGAAGCTGGGTTTTGACATGGCTTTGCCGCGCGGGGCCTTCTACATCTTTGCCAAGATTCCTGAAAAGTACCAGGGTGACGACGTCGGCTTTGCCAAGGCCTTGGCAAAGGATGCCAGAGTCGGCGTGATCCCGGGCAGCTACTTTGGGGCTGGCGGGGCCGGCTATGTCCGCATGTCCTACGCTTCCAGCGATGAAGTCTTAAAAGAGGCTCTCAAGCGGATTACCAAGTTTGTGGAAGCAGAATAA
>LACTIS1119B1_02390 diaminopimelate decarboxylase
GTGAACGGATTAATTAAAGCAAGCGATGTCAATCAAGCCGGCCACCTGCAGATTGCCGGGGTAGATGCCCTGGAACTGGCGGCCAGGTACCAGACCCCCCTGCAGGTTTTTGACGTGGGGAAAATCCGCCAGGCAATCCGGGCCTTTAAGCGGGTCTTTGAAGAAGAAGGGGTAGACTATGAAGTCAGCTATGCTTCAAAGGCCTTTTCCTGCCTGGCCATTTACCAGGTCATCAATGAAGAAGGCGGCCACACCGACGTCGTCTCTGGCGGGGAACTCTGGACGGCCATGAAGGCGGGCTTTCCTATGGACAAGGTGAGTTTTCACGGCAACAACAAGAGCCGGGCAGAACTGGAAATGGCTGTTGACCAGGGAGTCGGGGTCATTATTTTGGACAACTTCCATGAAATTGACTTGCTCAGCCAGATTTTGGAAGAAAAAGACGCAAGCAGCAAGGTCATGCTCCGGGTTACCCCCGGCATCAGCGCCCACACCAACGAATATATCCAGACTGGCCAGGTGGACTCCAAGTTTGGCTTTGATATGGAAAGCGGCCAGGCTGACCGGGCCCTGGAACTGGTCCTGGCCAATCCGCGGATGAAGATGGCCGGCATTCACGCCCACATTGGCTCGCAAATTTTTGACGTCCGGGGCTTCGTAGGCTGCGCAGACAAGCTCTGCCAGCTGGCTAGTGCCTGGAAAGAGAAATACGGCTATGAAACGGACATCTTGAATGTGGGGGGCGGCTTTGGCATCCACTATACTGACCAGGACCAGCCGCTTCCGGCTGAAGAATTCGTCCGGGCCATTGTTAAAGAAGTCAAAAGCAAGTGTCAGGAAAACAATTTGAAATTGCCGGCCATCTGGATTGAACCAGGCCGGTCGATCGTCGGCCCTGCGGGCTTTAGCCTTTATACTGTCGGCTCAAGAAAGGACCTGCCTGGCTACCCGAGCTATGTCGCCCTTGACGGGGGGATGGGGGACAATATCCGCCCAGCTCTTTACCAGGCAGAATATTCAGCCGTTGTTGCTGACCGCCCTCAGGCAGAAGATGAAGAAAGGGTCAACCTGGTCGGCAAGTACTGCGAAAGCGGGGATATCTTGATCAAGTCTTGTCCTTTACCAAAAACCGAACCAGGTGACGTAGTTGCCCTTTTAAGTACCGGCGCCTATGGCTATTCCATGGCCTCAAACTACAACCGCAATCCGCGTCCGGCCGTGGTTTTTGCCGAGGACGGGGTTGACCAGCTGGTGATCAAGCGGGAAAGCTATGACGATTTGATTGCCAACGACTTAAAATATCAAAAATAA
>LACTIS1119B1_02400 hypothetical protein
ATGAGAAAAATCGAGTGTGAGCTTTGCGGGCAAAGAGATTTGTTAAAAGAAGGCAGCCGTTTTGTCTGCCAGACCTGTGGGGCAGCCTATTCAGCTGACCAGTTGCGCCGGCAATTTGACCTTGCCGACCAGGCGGAGATTTATGCTGAAGCCAAGCAGGCCTACCGGGCCAAGCGCTTCAAGCAGGCCAGGCAGCTGTATCTGGCCTTAGCAGAAGAAGGGGACCAGCAGGCGGCCTTTTACGCCAGCCTTTCCAGCAGCCAGCTCGACCCGGCGACGGACTTTGCCCCCCTTTTGAATCAGCTGCGGGCAGCTTTAGTGGCCAGCCGGGAAAAGGGTGGGGAAGGCTACTTTGCTTTTGCCAGCCGGGCCCTGGGCGAAGTGATCGTTTTTGCCCTGGCAGTGGAAGAAGAATGTGAAGAAGACTTTCAAAAGCAGGCTCAGCGCCTGGAACTCAGTTCCCGGCAGACCCTGGAGAAGGGCCACCAGAAGATGCAGAAAGAAGCCGGCCGAGCCTGGCTCTTGATGAGCCAGGCAGCCCACCTCTGCGTAGGGGAGAGCGATGACTTAGCCGCTGTCAGTCCCTATTTCTGGGAGCTGGTCGATGCGATTATCGATGACTTGAGCATCAACCAGAAGCGGGGAACGATTGCCTTGGGCAACGTGAAAGAAGAACGGGCTTATTTTGAAGCCTTGAAGGCTGAGAAAAAGGTCAAAAAGCTGGTTAATGGTTAA
>LACTIS1119B1_02410 hypothetical protein
TTGACGGTAACTGTCAATAATCCTGCTGACTCATCCCGCTACACCCCTGTCTTATTAGCCGCTAAAACCCAAGTGGGCAAGGCAATCGTGGCTTCCAGCTTGATTGCCAACTTCGCCTCCCCGCCAGCTGGCAGTCAGGCTAGCTACCTGACGGTGCCAGACTTTGCCAAGGCCGGCAGCTACAAGACCCAGATTAAGGTCACATACCCGGACAAGTCGACCTGGACCAGTTCAGAATTCATGATTGAGGTTGCCCCGGGAGCAGAACGCACGCAGAGCAACTAA
>LACTIS1119B1_02420 hypothetical protein
GTGACAAGATTTGTTAAGGTCACGGTTAAGCGGCAGACTGACAAGGCCCGCTACCAGGTCAAGGTCCGCCCAGGGCAGGTAACTTTAGGGCAGAAACTGTCACCAAGCCAGCTGGTAACTAACGGTAACTAA
>LACTIS1119B1_02430 aldose 1-epimerase
ATGGATTATACTATCGAAAACGAGATTCTGAAGGTTACGGTATCAAGCCGCGGGGCAGAGCTGCAGAGCGTCATTGGCAAGCACATCGGCAATGAATACATCTGGCAGGCTGACCCGGAAGTCTGGGGCCGGCATGCTCCAGTCTTGTTCCCGATCGTGGGCAAGCTGAAGAATGATGAATACAGCTACCAGGGCCAGACCTACCACATGGGACAGCACGGCTTTGCCCGCAACATGGAATTTGCCCTGGAAGAGCAGACTAAGGAAAAGCTGACCTTCCTTTTGACCGACACAGAAGAAACCAGAGCTGTCTACCCCTTCAAGTTTGAATTCCGGGTCAGCTATGAGCTTTTGAACAACATGATCAAGGAAAGCTTCCACGTCACTAACAAGGGTGAAGGGGACATGATCTTCGGTGTCGGCGGCCACCCGGGCTTTGCCTTGCCGGTTGAAGACGGGGTCAAGAAGGATGACTTCTACCTGCAGGTCAACCCGGCTAAGCCCCGGGTGCAGGTGCCGCTGGAAGGCGGCCTGCTCAACTGGGAAAAGCGGTTCCTGGCCCCAACTGAATCCTTGATCACGATCACTGACGATCTCTTTAAGGATGATGCCATGGTGCTGGTGATGCGGCACCCGGACAACAAGTTCTCCATCAAGACGGAAACCAGCCGCTTCCACATCAATGTCAGAACTGATTCAGCTCCTTACGTGGGCATCTGGTCCCAGTACCCAAAGACGGCTGATTACGTCTGTATCGAACCATGGTGGGGGATCGCTGACCTTACCGATACTGACGGGGACCTGGAAGATAAGAAGGGGATGAACCGGCTGGCAAGCGGGGAAGACTTCGAAGCCAGCTTCCGCATGTCCTTCCACAGCAAGGTCCAGAGCAAATAA
>LACTIS1119B1_02440 ATP-dependent protease ATPase subunit HslU
ATGAGAGAGAAAACGCCAAAGCAGATCGTTGACCTGCTGGACAAGTACATCGTCGGGCAGAATGAGGCCAAGAAGTCCGTGGCTATCGCCCTGTACAACCGCTACCGCCGGGCCCAGCTGCCAGAAGACGTGCAAAAGGACATTACGCCAAAGAACATTTTGATGGCCGGGCCAACCGGGGTCGGGAAGACGGAAATCGCCCGCCGCCTAGCTGACATCGTTGACGCGCCTTTCGTCAAGGTTGAGGCTACCAAGTTTACCGAAGTCGGCTACGTGGGCCGGGATGTTGAATCCATGGTCCGGGACCTGGCCAATGAAGCTGTCCGGATCGTGGAAAAAGAAGAATTTGTCAAGGTTGAAGGCCAGGCCATCCGCCAGGCCAACAAGACCCTGGTCCGCCTGCTGGTGCCAGGCGTTAAGCGCAACAACCGGCAAAACCAGATGCAGCAGATGCAGGAAATGATTCAGAGCCTGCTGGCTGGCGGCGGGATGCCGGAAGAAACAGAAGAAGTTACTGACGAGATCAGAAACCAAAGACTCAGCGTGGCTGAAAAGCTGGACCGGGGGCTTTTGGAAAACGAAGAAGTCACCATCGAAGTTGAACAAGCTCCAAAGGCCAACCCAATGGGCGACATGATGGGGCAGATGGGGATGGACATGTCCAGCATGCTGGGTGACATGCTTCCTAAGAAGAAAGTCAAGCGGACCCTGCCGGTCAGCCAGGCCAGAAAGCTTTTGGTCCAAGAAGAAGAAAAGAAGCTGGTCAACTATGACGACATCTACCAAAAGGCCATGGACCGGGCCGGGCAGAGCGGAATCATCTTCATCGACGAAATCGACAAGATTACCGCGGCTGATAAGCGCAACTCCGCCGGCGTCTCAAGAGAAGGGGTTCAAAGAGACATCCTGCCGATCGTTGAAGGCTCAACCGTAAGCACTAAGTACGGTCCGCTTTCAACCGACCATATCCTCTTTATCGCGGCCGGGGCCTTTGCTGAAAGCAAGCCGAGCGACCTCATTCCGGAACTGCAGGGCCGGTTCCCGATCAGAGTTGAGCTGGACGCCTTGACCAAGGATGACTTCGTCAGAATCTTGAAGGACCCGCAAAACTCCCTCTTAAAGCAGTACATTGCCTTGCTGAAGGCTGACGGGGTTGACCTGGTCTTCACAGCTGAAGCAGTCGACAAGATTGCTGAGATTGCCTTTGAAGTCAACCAGGGGACGGACAATATAGGTGCCCGCCGCCTGGCTACGATCTTGGAGAAGCTGCTGGAAGAAGTTCTCTATGAAGGGCCGGACATGGAAATGGGGCAAATCACCATCACCCAGGCCTATGTCGAACAGAAATTGAGCGATATCGTCAAGAACAAGGACCTGACCAAGTTCATCCTGTAA
>LACTIS1119B1_02450 ATP-dependent protease subunit HslV
ATGACAACGATTTGTTCAGTAAAATACAATGGCCAGACGGCGATTGCCGGCGACGGCCAGGTGACCCTGGGCAAGAGCATCATCGCCAAGACCACGGCCAAGAAGATCCGCCGCATTTACCACGACCAAGTGGTGATCGGCTTTGCCGGCGGGGTGGCGGATGCCGTCAGCCTGCAGGAAATGCTGGAAGGAAAGCTGGAAAGCTACAGCGGCGACTTACGCCGGGCAGCCGTGGAAATGGCCCAGTCCTGGCGGAAAGACCCGACCTTGCAGAAATTGGAAGCCATGGTTATTGCTTTTAACGACCAGGACCTGCTCTTGATTTCCGGCAACGGGGAAGTGCTCGAACCAGACGAAAGCGTGGTGGCCATCGGCTCAGGCGGCTACTATGCCCAGGCAGCGGCCGTGGGGATGCTCCGGCATGCCAGCGGGATGACGGCCAGTGAAATCGCCAAGGAAGCAGTCAATATAGCTGCGGACATCGATGTTTTTACCGACCACGAGATTGTTACGGATGAAATCGAGGAAAAATAG
>LACTIS1119B1_02460 tyrosine recombinase XerC
ATGACCCTTGAAGAGCAGTTTCTTTCCTACTTGAAAAATGAGCGCTCTTACAGCCCCAAAACCGTCCTGGCCTACCAAAAGGACCTGGCAGCAGCTAAGAAATTCTGGCAGGAAAACGGGGGCTTTCCAGGCTGGGATCAAATATCCCGCCGGGACCTGGAAATTTACCTGCTGGCAACCGGGCAAAAGCTGGCATCCAGCACTTTATCCCGAAAATTATCCAGCCTTAAGTCTTTTTACCGACTTTTGACCAGGCGGGGTTTGGTCAAAGCTGACCCGACCGTGGCCATTCAGCTTAGGCGAGGGAAGAAAAAGCTGCCGGAATTTTTCTACCAAGATGAAGTCGGCCAGGTCATCCGCTCGCTAAACGATGGCAAACCGTTAACAGTCCGCAACCGGGCAATTGTGGCGCTTTTTTACGCGACCGGGATGCGGCTGAGCGAACTGACTGACTTGAAAATTAAGCAGCTTGACCTGGAAAACGGCATGATTTTGGTGCACGGCAAGGGCAATAAGGACCGTTATGTCTTTTTTGACCAAGAGAGCAAAAAGTACTTGGAGGAATATCTGCAGGCAGCCCGGCCAAGTTTATTGAAAAATGAGCCAGATACCGGGGCAGTCTTTTTAAACAAGCTCGGTAGGCCAATTTCCAGCCGGGGGATTGCCAAAGCCGTCCAGCAAATTTTTCAAAAAGCAGGCTTGACGGCTGGTGCCCACCCCCATGAACTCCGCCATAGCTTCGCCACCGCCATGCTCAACAACGGGGCAGACCTCAGGAGCGTGCAGGAGCTCTTGGGCCATGAGGACTTGTCTACGACCCAGATCTATACTCATGTCAGCATGCAGCATCTTACGGCGGAATATCGCCAGCATTTTCCCCGAAAATGA
>LACTIS1119B1_02470 tRNA (uracil-5-)-methyltransferase Gid
ATGACAGAAAAAGTTACGGTAATTGGCGCCGGGTTGGCCGGCAGCGAAGCAGCATGGCAGCTGGCCAAAAGAGGGATCAAGGTTGACTTGTACGAAATGCGGCCAAAGAAAATGACTCCGGCCCATGAAAGCGGCAATTTTGCGGAATTAGTCTGCACCAACTCCATGCGGTCCAACCAGCTTTCAAACGCTGTTGGCCTCTTGAAAGAAGAAATGCGGCAGATGGACTCCTTGATCATGCAAGCCGCTGATGCCTGCCAGGTTCCAGCCGGCGGGGCGTTAGCCGTTGACCGGGAGCTTTTCTCCAAGTATGTGACCGACAAATTGACCAGCCTGCCGGAAGTGACCATTCACGATGAAGAAATCACTGACCTGCCAAGTGAAGGCATCACCGTTATCGCGACCGGTCCTTTGACCAGCGATAGCCTGGCAGAAAAGATCCAGGACTTTGAAGGCACCGAAAGCCTCCACTTCTTTGACGCGGCCGCTCCAATCATCGCGGCTGACTCCATTGACATGGACATCGTTTACAAGAAGAGTCGTTATGACCGGGGCGAAGCTGCCTACCTCAACTGCCCGATGACCAAGGAAGAATACGACCGCTTTGCCAATGCCCTGGTTCACGCGGAAACTGCTGAAATGCACGGCTTTGAAAACAGCGAGGTCTTTGAAGGCTGCATGCCGATCGAAGTCATGGCGGCCCGGGGGGCCAAGACCATGCTCTTTGGTCCTTTAAAGCCAGTCGGCCTGGAGAACCCGAAGGACGGCAAGACTCCTTACGCTGTCGTTCAGCTCCGCCAGGACAACGCTGCTGCCTCCATGTACAATATCGTGGGCTTCCAGACCCACCTCAAGTACGGGGAACAAAAGCGGGTCTTCCAAATGATCCCTGGCCTGGAAAACGCCCGCTTCGTCCGCTACGGCAAGATGCACCGGAACACCTACATGGCCAGCCCGGAAGTTTTAAAGGCCAGCTATGAAGCTAAAAAGCGGCCAGGCCTCTTCTTTGCCGGCCAGATGACCGGGGTGGAAGGCTACGTGGAAAGTGCCGGCAGCGGCCTGGTCGCCGGGATTAACGCGGCTAGAGAAGCCCTGGGGCAAGAGACGGTTGAATTCCCGGTAACCACTGCCCTTGGCTCTATGGCTCACTACATTACGACCACTGATGCCAAGCACTTTCAGCCAATGAACGCCAGCTTTGCCTTGATTCCGGGCCTGGAGGGCAAGAAGATCAGAAACAAGCGCGAGCGCCACGAAAAGATCAGTGAACGGGGCCTGGCCGACCTGGCCGCCTTTAAGGCAGAGAAGCTGGCTGACTAA
>LACTIS1119B1_02480 DNA topoisomerase I
ATGCCTGCTACAGCAAAAGAAGATAAAAGCAAGAGCAGTAAAAAGACCGCGGCTGCCAAGAAGAGCAGCCCGAAGCGGAAAAAGAGCAAGGTGAAAAAAGACCTGGTTATCGTGGAATCTCCAGCCAAGGCCCACACTATCGAGAAGTACCTGGGCCGGAAGTACCACGTAATCGCCTCTAAAGGGCACATCCGGGACTTGCCCAAGTCCCAGATGGGGGTCGACATTGAACACGACTACCAGCCAAAATACATCTCCATCCGGGGGAAGGGTGACACCATCAAGGAACTGAAGGCTGAAGCCAAGAAGGCGAACAAAGTCTACCTGGCTTCCGACCCCGACCGGGAAGGGGAAGCTATTGCCTGGCACGTGGCCCACGTTTTAGGCCTGGACGAAAAAGAAGCCAACCGGGTAACCTTTAACGAAGTTACCAAAGACGCGGTCAAGGATGCCTTCAACCACTCCCGGACCATCGATATGGACACGGTCAACGCTCAGCAGGCCCGCCGGGTCCTGGACCGCTTGGTCGGCTACTCTTTGTCGCCGATTCTCTGGTCCAAGGTCAAGAAGGGCCTGTCAGCCGGCCGGGTGCAGTCTGTTGCCTTGAAGCTGGTTATCGACCGGGAAAAGGAAATTAAGGCCTTCAAGCCGGTTGAATACTGGACGATTGACGCTGAATTTGCCAAGGGCAAGGACAAGTTCCAGGCTAGCTTTTACGGCGAAGAAGGCAAAAAGACGGAATTGCCAAATAACGAGGCCGTCCAGAAGCTGCTGGCTAAGTTTGACAAGAAGCAGCCGTTTACGGTCAGTAAGGTAGTTAAAAGAGAAGTCCGCCGGCAGCCAGCCGCGCCGTTTACCACTTCCACCATGCAGCAGGAAGCCAACCGGCGGCTGAACTTCCGGACTTCAAAGACCATGAACATTGCCCAGCACCTGTATGAAGGGATCAGCCTGGGCAAGGAAGGCACGGTCGGTTTGATCACCTACATGAGGACTGACTCCAAGCGGATCTCACCAGTTGCCCGCCAGGAAGCAGCTCAGTTCATCGCTGAGGAATACGGCAGCGACTTCGCGGTCAAGAAGGAGCGCCACTTCAAGAATCAAGGCGACGCTCAGGATGCCCACGAAGCTGTCCGGCCGACCAGTGTCTACCGGACACCGAAGTCCCTGGAAAAGGTTTTGACCAAGGATGAGCTCCGCCTTTACACCTTAATTTGGAGCCGTTTTGTGGCTAGTGAAATGACTCCGGCCGTCTTTGACACGGTCCGCTATGACTTGACCCAAAATGGGGTGACCTTCAGAGCCAGCGGGTCAGTTATGAAGTTTGCCGGCTACACCAAGGTTTATGACAACCGGAGTGAAAAGAACGTGGCCCTGCCAGCCCTGGAAGAGGGCGACGAGGTCAAGCTGACCAAGTCAGACAACAAGCAGCACTTCACCCAGCCGCCGGCCCGCTATACTGAAGCCAGCCTGGTCCGGGCTCTGGAAGAAAACGGGGTTGGCCGGCCGTCAACTTACGCGCCGACCATCCAGAACATCCAGTCCCGGAATTATGTCAAGCTGGAAGGGCGGGCAATCGTGCCAACTGAACTGGGGGAAATCGTCGACGGCTTGGTTGAGCAGTTCTTCCCGGACATCACCAGCGTTGACTACACGGCCAAGCTGGAAGATGAACTCGATGAAGTCGAAGAAGGCAAGAAAGACTGGGTCAGTGTGGTTGACCAGTACTACAAGCCATTCTCCAAAGAACTGGAGAAAGCCGACAGCGAGATCCAGAAGATCCAGATCAAGGACCAGCCAGCTGGCTTTGATTGTGAAGTCTGCGGGGCCCCGATGCTGGTCAAGATGGGCCGCTACGGCAAGTTCTACGGCTGTTCCCGTTTCCCGGACTGCCGCCACACCCAGACCATCGTCAAGAAGGTCGGCGTGACTTGTCCGAAGTGCGGGGAAGGCGAAGTTCTGGAAAAGAAGTCCAAGCGGGGCCGGAAATTCTATGGCTGTTCCCGCTATCCAGACTGCGACTTTGTTTCCTGGGACAAGCCGATCAGCCGGGTCTGCCCGCACGACGGCCACTTCCTGGTCGAAAAGAAGCGCAAGGACGGCATGGTCGTCCTCTGCCCGAATGGCGACTACAAGGAAGAGCCAAGAGAAGAACAAGACGAAGCAGCCGAATAA
>LACTIS1119B1_02490 DNA processing protein
ATGAATAAAACCGAATTCTTACTGCGCCTGAAGCTGCAGAAGGGCCTCAGCTATCTCAAAATATTGCAGGTCATGCAGCAGATGCCCCCGGATGAGGACGTGGACCATGAATGGCTGAACTGCCTGGAACTGCCTGATGAAATCCTCTACCGGGTGGAGCGGGCCTTTTTAAGTGACCGCTACGAAAGTGCCATTGAAAACTTGCAAAGGAATTTCAAAATAATTAGTTTCTTTGACGATGCTTATCCAGTACGGTTAAGAGAAATTTATCGGCCGCCGATTTTGCTTTTTGCCAAGGGGGACTTGTCCCTTTTGGAAAAAGAGGTGACGGTGATCGTGGGGTCAAGAACGCCAAGTCAATATTCCGGCAAGGTGATTGAGAACCTCATGCCGGTTTTGCTAAAGAAAAAACAGGTGATCGCCAGTGGCCTGGCTAAGGGCGTTGATGCCCTTGCCCACCAGAATACCTTGAATTTTGGCGGCAAGACCATCGCGGTTGTGGCTAATGGCCTGAACTATTTTTACCCCCGGGAAAATACGCTCTTGCAGCAGCAAATTGCCGCCCGGGGTCTCCTGCTTAGCGAATACCTGCCCGACACGCCGCCAAGGCCCTTCCGCTTTCCAGAGCGCAACCGGATTTTGGCCGGGATTTGCAAGAACGTGATCGTGACTGAAGCCAAAGCCCATTCCGGTTCGTTGATTACGGCCAATTTGGCCCTGCAGGAAAACCGGAACGTATTTGCCGTCCCGGGTGCAATCACCAGCCCCTTGTCGGCCGGCACCAACCAGCTGATTTCAGCCGGGGCAACCCCGGTTATCGACAAGGAAATTGACCTGTGA
>LACTIS1119B1_02500 ribonuclease HII
ATGAAAATTAATGAAATTAAAGACCTGCTGCAAGCAGATTCTATCGACCCAGCTATTCTGGCGGAATTAGCCAAAGACGACCGCAAGGGGGTCCAGAAGCTGCTGGTCAGCTACCAGCGCCGGCAGGAAAAGCTGGCTAAGCAAAAGGAAGAATTCTTGGGCCGCTTCAGTTACGAGAAGGATTTTTGGGCTAAAGGGCAGCTCGTAGCCGGAGTCGATGAAGTCGGCCGGGGTCCTTTGGCTGGCCCGGTTGTAGCGGCTGCCGTCATTTTGCCGGAAGATTTTTCCTTACTGGAAGTCAACGACTCAAAGAAACTGAGTCCGCAAAAGCGCCTGGTCCTGTATCCCAAGATCCTGCAAGAGGCTGTTGCTGTCGGCGTCGGGGTCATGGACAACAAAGTGATTGACCAGATCAATATTTACGAGGCTGACCGCCTGGCCATGAAGCAGGCCGTGGAAGCTTTGAGCACCAGGCCAGATGCTTTGCTGGTCGATGCCATGAACGTGCCGGTGGACTTGCCCCAGCTAGAATTGATCAAGGGGGATGCTAAGTCTAACTCGATTGCCGCGGCCTCAATTGTGGCCAAGGTTTTCAGAGACTCTTTGATGGACGATTACGCCCGTCTTTATCCAGACTATGCCTTTGACCATAATGCCGGCTATGGAACCAAGGACCACCTGGAAGCATTAAGAAAATACGGCCCAACGCCGATTCACCGCCTGACCTTCAGTCCGGTGAGCGAGATGGTTGGACTTAAAAAGGCTGACTAG
>LACTIS1119B1_02510 ribosome biogenesis GTPase A
ATGACTAAAATTCAATGGTATCCAGGCCACATGAACAAGGCTAGGAATCAGCTGGAAGAAAAATTAAACTTAATTGACGTTGTTATTGAAGTTTTGGACGCCCGGATTCCCAGCGCTTCCAGAAACCCGATGATCAGTGAACTGGTCGGCGACAAGCCCCACCTGATCATTTTAAACAAGACCGACCTGGCTGACCCGGTGATGACCAAGCTCTGGCAAAAGAAATTGCAGGGCCCGCGCACCTTGGTCATGGCAATGGATGCCCAGCACAACACTAATATGCAGGCCTTGATCACCTTGATCAAGAAGGCAGCCAGCGAAAAGGTCAAGAAGCTGGAAGAGAGAGGGGCCTCCAACCCGATCATCCGCGTCTGCCTAGTTGGCGTGCCTAACTGCGGCAAGTCCACTATCATCAACCGCCTGGTTGGCCGCAATGTCACCATGACCGGGGACCGGCCGGGGGTAACCAAGGGCCAGGCCTGGCTGAAGACCCCATATGGCATCCAGATCCTGGACACGCCGGGGATTCTCTGGCCAAAGTTTGAAGACCAGGACGTAGGCTACAAGCTGGCTGCTTTTGGGGCCATCAAGGACACGATTTTCCACGCTGACGACGTTGCCCTTTTTGTCATCCGGCAGCTGCGGCAGTACTACCCGGCTTATCTGGCCAAGTTCGCCAACTGCACTAAGGACAAGCTGGAAAATATCGGCGACACTGACCTGCTTTTGGCCATGACTCAAAACAACGGGATGCGGGACGACTATGACCGTTTCTCCCTCTTCATGCTGCAGCGGTTAAGAAAGGGCAAGCTAGGCAGGATCAGCCTGGACCGGCCAAGCGCGAATAATGAAAATTAA
>LACTIS1119B1_02520 hypothetical protein
ATGGTCTACCGACAAAGTTTTTACCAGTTTTTGATGACTTTGCGCGATCCGGATTCAAATGGCGACCTGGCCCAGTTTGCCAACAACGCCCAGTTTGATTCTACCTTTCCCAGACAGGAGCAGGACCGGACCAGGCTGTCAGAATATCTGGAGGAAAATGCCGCTTACCTGCCCAGCATGACGATTTTTGACGATGCTTACCAGGCTTATGAAGAGAAAATGCAGTACTAG
>LACTIS1119B1_02530 DegV family protein
TTGTCTAAGATCAAGATCATGACGGATTCCTCAGTACAGCTGAGTCCGGAAGAAATTGAAAAATACGGTATTACGGTGGTGCCCCTGTCGGTGACAATCGACGGACATACCTACACGGATGGCGTTGACATTACCCGGGCCGACTTTATCCAAAAGATGGATGAGGCAGAGAAGCTGCCCAAGACCAGCCAGCCCCCGGTCGGCCTGTTCGTGGAGAGAATGGAGGAACTGACGGCTGACGGCAGTGAAGTCCTGGGGATTTTCATGGCCAAGACCCTGTCGGGGACGGTTGATTCCGCCCGCCAGGCCGCTGAAATGGTAGCCGGCAAGATCACGGTCATCGACTGCGGCTATACTGACCGCTCTCAAGGCTACTACTGCATTGAGGCGGCCAAGGACGCGGAAGCGGGCAAGGAAATGGATGAAATCCTGGCTCACCTGGACCAGATCGGCAAGAATATGTACCTGGAAATGATGGTGCCCAACCTGCAGAACATTTTAGCCGGCGGCCGTTTGGGCAAGTGGGCCGGCCGGGTGGTTTCAGCTTTGAACTTCCACGTCGGCCTAACCATGAAAGAGGGCAGCTTGAATGTCCCTTACCGGGGCCGGGGGAAGAAATTCATCAAGAAGTTTGACGACATGCTTGTCGACCAGTTGAAAGAACTGGGCGACAAGGTCAAGTATGTCGGCATCTCCTATGTCGATACCAGAGACAAGATGGAAGAGCTCGCCCAGCGCTTCAAGGAGGTCAACCCGGACCTGGAGATCCTGGTCCAGGAAACCAGCCCGATCATCATCACCCACGCCGGCCATGGGGCCTACGCGGTCATGTTTTATACGGAGTAA
>LACTIS1119B1_02540 hemolysin III
ATGGCTTTCAATCCTTGGCAGCCGGTCGAAGACCGGCCCAAATCTTACTATATTATTGACAATGTTCTCTCAGCCGTCGTGCACGTGATCGGCTTCGGCCTCTCAATCGCCGGCCTGGTTATTTTAGTGGTCCGGGCCGCCCACAGCCACAGCGCCCTCAGAGTGACAACTTTTGCCATCTACGGGGCTTGCATGATCCTGCTTTACCTCTTCTCTACCCTCTACCACAGCCTGGTCTTTACCAAGGCGAACAAGGTCTTCCAGATCTTCGACCACTCTTCAATCTTTATCGCGATTGCCGGCTCTTATACCCCTTATACCCTGGTCACGATCGGCGGGGCTAAAGGCTGGGTCATGTTCGGCATCATCTGGGCCCTGACGGTCTTTGGGATCCTCTATTATATCTTCAACCAGGGCAAGCACGTTATCGGCGACACCATCCTTTATATCGCCATGGGCTGGATGGTGATCCTGGCCGGCAGCCAGCTTTATTTCAGCCTGGGGCCGACCGGCTTCTGGCTTTTAGTCTCAGGCGGAATTTCCTACACCTTTGGCTGCCTCTTCTTCTCTATGCGGGGCCTGCCATATAGCCACGTCATCTGGCACTTCTTCGTTTTGCTGGGCTCCATCTTGATTTTCTTTTCAGTTTTATTTTATGCGCCGATTGTAAAATTAAACTGA
>LACTIS1119B1_02550 tRNA CCA-pyrophosphorylase
ATGACTAATATTCGTATAACGGAAGTTTTTACCCAGGCCATGCCGGTCCTGGAAAAGTTGGAAGAAGCTGGCTTTGAAGCTTACTTCGTCGGCGGCTGCGTCCGCGACCTGCTCTTAGAGCGGCCGATTCATGACGTGGATATCGCGACCAGTGCCTACCCGGAAGAAGTCAAGGAGACTTTTGCCAAAAGTATCGACACTGGCATCCAGCACGGGACAGTGACCGTCCTTTATGGGGGATCCAGCTACGAGATCACGACTTTCAGAACGGAATCCGGCTACCAGGACTTCCGCCGGCCAGACAAGGTCACCTTCGTGCAGAACCTGGACGAGGACTTAAAGCGGCGGGACTTTACCATCAATGCCCTGGCCATGAACCGGCAAGGGGAGATCATTGACCTTTTCGACGGTTTAGGCGACTTGAAGCGGCGGGTGATCAAGGCTGTCGGCGTGGCTGAAGACCGTTTCCATGAGGATGCCTTGCGGATGATGCGAGCAGTCCGCTTCATGAGCCAGCTCTCTTTCAGCCTGGAAGAAAAGACCAGGCAGGCTATTATCAACAATCACGAGCTTTTAAGCAAGATTTCCGTGGAAAGAATCAGGGAAGAATTTGTCAAGCTGGCCCTGGGCAAGGACAGCCGGCAGGCTTTTAAGGACTTTTTGGCCACCGGCTTAAGCGAGGAATGCCCGGGTCTGGCTGGGAAAAAGGACCAGCTCTCTGTCTTCACTGACCTTAAGGCTGGTCCGGATGACGAAGCAGTCTTTTGGAGCTTGATCGCCGTTTTAATCAACCTGCCGGCTGACAAGATTTCGCCTTTCATGCGGGCCTGGAAGAACTCCAATGCAATGAACCAGCAAGTCAGACAGATCGTGGCCGCCTTTGACCTCTTGAGCCGGGGGGAAGAGAGCGATTTTGACCTCTTTGAAATCGGCCAGGAGAACCTGGAGGCGGCTTTAAAGCTAGCTGGGCTTTTGGGCAAGCCTCTATCCAGCCAGGTCCTGTTAGACCGCTATAACCGTCTGCCAATCAAGGCGGCAGGGGAGCTGGCCATTGACGGCCAGTGGCTGATCAAGGAGGGGATTAAGCCTTCACCGGAACTGGGCCAGCTTTTGCGCAAAGCCCTTGAGGGCGTGGTCAGCGGCCAGGTAGAGAACAACCAGGCGGCAATCGCGGAATTTTTGGCAATCTAA
>LACTIS1119B1_02560 YitT family membrane protein
ATGAACAAGCCAAAATTCAAATGGACCACTAGTGACACGATCAACATCCTGATGATTGCCCTGGGCTCGGCCATCTACGCCTTCAGCGTGGACATGGTGTCGATTCCCAACAAGCTGGCCGACGGGGGATTGTCGGGTTTCACCCTGATCATCCGCCACTTCTGGGGGGTCAACCCCGGTCTCAGCACCTTCATCATCAACATTCCCTTGATCTTTTTAGGCTTTAAATATATGGGCAAGCGGGCCATGATTTATACCGTCTGGGGAACCCTTTGCCTGTCCTTCTTCTTAAGCATGTGGACCCTGCAGTCTATTATAGACCAAGTTCCCCTCCATCACGACCCCTTCCTGGCTACTGTCACGGCCGGCTGCTTGTCGGGGCTGGGACTAGGACTGGTCTTCCACTTTAACGGGACCACCGGGGGCAGCGATATTGCCGCCCGGGTCTTGCAGGAAAAATATGGGATCACGCCCAGCAAGGGCCTTCTGGCCCTGGACTTCTTAGCCCTGGCCTGCTCCCTGTCTTACCTGGACTTCTTCCATGTCGGCTACACCATGGTCTCCTGCTTCATTTTATCCAAAGTCATGGCCTTGGTTACTGAAGGCGGGACCCGGGCCAAGGGGGTCTTTATCATTTCCCAGAATTACCGGAATATCGCCAAGCTGATTGACCTGCGCTTAGAGCGGGGCTTCACCTACATTAACGCTGAGGGCGGCTATTCCAACGAACCCCGCCACATGATCTACCTGGTCCTGTCACCAAGAGAAATCCCAGAATTAAAGAAAATCGTCAAGCAAGAAGACCCGCATGCCTTCATCATCTTCTTTGACGTCAACGAAGCTTTGGGCGAAGGCTTCAGCTACAAGACCAAGTCGCCAAGCTTATTTATCAGAAAGTAA
>LACTIS1119B1_02570 hypothetical protein
ATGACCGGAGATACTTCGGCTCGAGAGGCTGACTTTGCTGAACAAGGGGATTTCTGCGCCAAGAATGATATTGACCGCATTCTGCTGGTTCCGGTTAAGAATGACTTTGGTGAGATCCAAGCCTATTTGCTTCTGACTAATGTCTATGACAAGGGCGAAATTAATCCGGTCAGCCTCCTGCAGCACCTGGCGCCTGTCTTTAGCAAGAAGCTGCGGGACGCGGCTCTCAGGATTAAGCAAGATTAA
>LACTIS1119B1_02580 hypothetical protein
TTGACCCGCCGGGGCCTGCGCAGCTGGGTCAATTACTATACCAAGTCCTCGACCATGCCAAACCGCGTGGTGACGGTCTTTGCCCTGGATGAAGGCGGTGAGTCGGAATTCAAGCGGATCGCAGCAACTGACGTGGAATTTTCGAGGTCAACCAGCAGCTCCTAA
>LACTIS1119B1_02590 hypothetical protein
TTGCACCTGTGCTACATTACGCCGATCAACATCAACCGGACCTTTTTGACCGGCCTGCTGGACCTGCGTTCTTTCCAAGAAGTCGGCCAAAGCCGGACAAGGGACTGGATCAAGGAAGGCGAGCGTGTTTCGATCATTTCCTTTGACCTGGTGGGGATGAAGGATTACAACAACCAATACGCAGGGGGATGA
>LACTIS1119B1_02600 hypothetical protein
TTGTTTGCCTGCAAAAATATGGCTGAACTGACTGATTTTGCCTGGGAAAAGCTCTTCCCGCTGACTACAGGTCTAAGCGGTGATCATGCCGAACTTGAACACATGACAGTTGCAGATGCCAAGGGGCAAGAGCACCTGCTTAATGCTTAG
>LACTIS1119B1_02610 multidrug ABC transporter ATP-binding and permease protein
ATGAAAAAGCAAGACAAGAAAATGGCCAGCTGGCAGGCGATGAAGCAGCTTTTGCCAATTATCGGCCGCTACCGCCTTCTTTTATTCATCAGCATAATTCTGGCGGCAGTCTCCGTTATCTTCCAGCTTTATGTGCCGATCATCTTTGGCCGGGCCATTGACCAGATTGTCGGCCCTGGCAAAGTTGACTTTCCAGCTATTGGCCAGGACCTGGTCCAGATTTTAATCTTGGTGATTGTCTCAGCCGCCGCCACCTGGATGATGGGCCTGATCAACAATAAACTGACCTACCGGACCGTCCAGGATATCCGGGAAAAGGCCATCCGGCAGCTGCAGCTTTTGCCCTTGTCATATCTGGACCAGCACCCAAGCGGGGACATTGTTTCCAGAATCATTGCCGACGCCGACCAGCTCTCTGACGGCCTGCTCCTAGGCTTTTCCCAGCTTTTCTCCGGCTTGATCACTATTGTGGCTACCCTAGCCTTCATGCTCAGCCAGTCTGTGGAAATTACCCTCCTGGTTTTGGTCTTGACTCCTTTGAGTTTCATCGTGGCCCGCTTTATTGCCAGCCGGTCCTACCAGATGTTCAGAAAGCAGAGCCAGACTCGGGGCGAGCAGACCAGCTTGATTGAGGAAATGGTGAGCGGGGTCAAGGTGGTCAAGGCTTTTGGTTATGAAAAAACCGCCTCAAGCCGCTTCGCTGAAATAAACCACCGCCTGCAAGAATACAGCCAGCAGGCGACCTTTTATTCCAGCCTGACCAACCCGGCCACCCGCTTTATCAATTCCCTGATTTATGCCCTGGTCGCCTTGGCGGGTGCTTTTGCCATCATGGGTGGGCGTTTTACGGTTGGGAGGCTCAGCGTTTTGCTGAATTACTCTAACCAGTACATGAAGCCGTTTAACGACATCAGCTCGGTGATTACTGAGCTGCAAAACGCGGCTGCCTGCGCCGGCCGGGTCTTTGAACTGATCAATGAAGAGCCGGAAGCTGATCCGGTTGATTTGAACAAGGCTGATGGCGATTTGTCTGAAGTCAAGACCGGTTCAGTCGTCATTGACCATGTCAACTTCTCCTACCAGGCGGACAAGCCTCTGATCAGGGACTTCAACTTGAATGCCAAGCCGGGGATGCGGGTTGCCCTGGTCGGGCCGACCGGCTGCGGGAAGACGACCACCATCAACCTGCTCATGCGCTTTTATGACGTGGATTCCGGCGGAATCTACTTAGGCGGCAGAAATATCAAGGACATGTCCCGCCATGCCTTAAGAAAAAATTTCGGCATGGTCTTGCAGGACACTTGGCTGGAAGAGGGGACAGTCCGGGATAACCTGGCTTACGGCAAGGAAGATGCTACTGACGAGGAAATCATCGCAGCGGCTAAAGCTGCCCACAGCTGGGGCTTTATCCGCCGCCTGCCCCAGGGCCTGGACACGCCCCTTTCCGCTGACAGCTTAAGCGCCGGGCAAAAGCAGCTGCTCTGTATCACCAGGGTCATGCTGCTGGACCCGCCAATGCTGATTTTGGATGAAGCAACCAGCTCTATCGACACCCGGACAGAAATGCTGATTCAAGCTGCTTTTGACAAGTTGATGCAGGGCCGGACCAGCTTTGTCGTGGCCCACCGTTTGTCCACGGTCGTTAATGCTGACTTGATCCTGGTGATGAAGGACGGGCAGATTATTGAACGCGGCAAGCACGCTGACCTTTTGGCCCGGGGCGGCTTTTACAGCCAGCTTTACCGCAGCCAGTTCGCGAAATTGCCATCATAA
>LACTIS1119B1_02620 hypothetical protein
GTGCAGAAGCGGCTGGATGAAATTACCCGCTTGAGCAATGAAAACCTGGCCGGGGTCCGGGTCATCCGGGCCTTCAGAAAAGAAAGAGCCGCCGTGGCCAAATTTGATGAAAAAGTTTCCGCCATGACCAAGCTGAACGAGTTCGTCGGCCGCCTGTCAGTCGCCATGAACCCGGTGACTTATGTCATGATCAACATCGCGGCCATTGTCTTGATTCAAGTTGGCGCCATCCAGGTAAATACCGGAGCAATGGCTCAAGGGCAAGTGGTGGCTCTTTACAACTACCTGGCCCAAATGATCGTGGAACTGATTAAGCTGGCCAGCCTGATTATCACCATCAACCGGGCCTGGGCCTGCGGAGACCGGGTTGGCCAGGTTCTGGCCACGGAAAATGACTTGACTTATCCTAAAGCAGGTCCAAAGGTCACAAACAGCCAGGTTGACTTTGAAAATGTTTCCTTTACCTATCCGGCAGCCTCCGCGCCAGCCGTTTCAAACTTGACCTTTACGATCAAGCCGGCCGCGACCGTCGGCATTATCGGGGGGACGGGCAGCGGCAAGAGCACCCTATTGAAGCTGTTGACCCGCTTTTATGACTGCGGGGAAGGGGAGATCAAACTGGGCGGCGTTTCCATAAAGGAACTGACCCAAGAGGAACTATTGGACCAGTATGCCCTGGTGCCGCAAAAGGCCCAGCTTTTTGCCGGAAGCATCCGGGACAACCTGTTGATGGGCAGGCTGGAGGCCAGTGATGAAGAACTCTGGCAGGCCCTCAGCCTGGCCCAGGCGAAAGACGTAGTCTTGGCTAAGCCCGGCCAGCTGGACTTTCAGCTCGAGCAGGAAGGCAGAAACCTTTCCGGTGGGCAAAAGCAGCGTTTGACCATCGCCCGGGCCCTGGTCAAGCAGGCTCCGCTTTTGATTTTAGATGACAGCGACAGCGCCCTGGACCTGGCAACGGGGGCGCGTCTGCGGCAGGCTCTGGCCAGCTTGAAGGACGTAACTAAGATTCTGGTTTCCCAGCGGGCTTCCAGCATCATGCAGGCTGACCAGATTCTGGTATTAGACGATGGCAAACTGGTGGCTAGCGGCAAGCACGAAGAGCTTTTGGCCAACTGCCAGGTCTACCAGGAAATCTATTATTCCCAGTTCCCGAAGGAAAAAGAAGATAAGGAGGGGAGACGATGA
>LACTIS1119B1_02630 hypothetical protein
ATGAAATACGTCTTTAGCTACCTCAAAGACTATAAAAAAGAAAGCGTTCTGGCCCCGCTTTTCAAGCTGCTGGAAGCCCTGTTTGACCTGTTCGTTCCCCTGGTCGTGGCTAGGATTATCGATTACGGGATCAAAAAAAGAAACCAGGCCTATGTTTTCCAGCAGGTTGGCCTCTTGGCCCTTTTGGCCCTTTTAGGGATAACGGCCAGCATTACTGCCCAGTGGTTTGCCGCCAAGGCCAGCGTGGGCCTGGCCAGCCAGCTGCGGCAGGCGGCTTTTGACAAGGTGGAAAAGTTCAGTTTTGCCAACCTGGATCAGCTGCCGCCCAGCACCTTGATCACCCGCTTGACCAGTGATATCAACCAGGTGCAGACCGGCTTCAACATGGCTTTGCGCCTCTTATTAAGAAGTCCTTTTATCGTCTTTGGGTCAATGATCGCGGCCTTTACGGTCAATGTTAAAGCGGCCTTGATCTTTGCCGTAGTGATTCCGCTTTTGTCCCTGGTCGTTTTTGGCATCATGCTGGTCAGCATCCCCCCTTTACCGGAAGGTGCAGAAGCGGCTGGATGA
>LACTIS1119B1_02640 LysR family transcriptional regulator
GTGAGAATCGAACACCTAGAGATCTTTGTAAACGCCGCGCAGACGCAGAGCTTTACCAAGACTGCACAAAATATGAACATGTCCCAGCCAGCGGTTTCCCTGGCCATATCCTCAATCGAGAAGCAACTGGGCTACCAGCTGTTCAGCCGCTCCCGCCGCAAGATGCTGCTGACCCCAGCCGGCCGGTCTTTGTACAACAGCATCAAGAGCGAATTGAACGACTACCGGACCGCCGTTTCCAAGGCCAAGCGGATCGCCATGTCAGAAGGACAAATCACCTTGAAGGTCGGCTTAATCGGAATTCTAGCCGAACAGCTGATGCTTCCTGGCTTGATCCGCCAGTTCCGCAGGAGCCGCGACACCGTCAACATCGAATTCTTCGTTGAAAGCAGCCCGGTTCTCTTTGAGAAGCTGGCCTCCCACGAGCTTGACCTGGTCTTGTCAACTCCGGAAGCCATGCCGAGATTCCCGGACTTCACCGCCTACACGATCGGCAAGTTGAAGTGGTGCACCCTGGTGCCAAATGACCACCCTCTGGCTGAAAAGGACCTGCTTTCAGAAAAGGACCTGGACGGCAAGGACCTGGTCTTCCTGGACCTTTCTTGTTCATCACCGCTGATTACCCTGATGCAGGACCGGATTGAAAAGAACTGCAAGCAAAGCCGGATCTTCTTTGCCAACAATGTCGTGGCGCAAACCATGATGGTTTACACCCAGCAGGGCCTGGCTATCCAGCCATACACCGGCCCGCTTGATGACGACAATTGCGAAGTCAACGGCCTAAAGCGGGTTCCCCTGGACGTCAAGGTCAGCTCAGACCTGACCCTCTTCACTTGCAAGGACGTCCTCAACGAACACGTCCTGGACTTGATGAACTGGCTCAAGGCACAAAAGCTGGGCTAA
>LACTIS1119B1_02650 hypothetical protein
ATGAGAACGAGAAAGAAAATTTGCGATATGAATGTGGCGGTGGTTGACCGGCAGAACCTGCCTGCCTTACTGGCTAGCGGGAAAATAGCTGTCCAGGCCGACGAGGACTACCAGATAAACCAGAAGACGGTAGTAGCCTACGACTTCCAGATGGACCTGCTTTTGGGCAAGTACCGGACGATCATTTATGACGCCGATGCCGGTTGGGTCTTGCTTAAAAAGAAGACATGCCGCCGCCTGGTTCATGAACTGAGAAAGAAGGAGCCGGCCCACGAACTGACCATTAAAAAGCAGCTCTGCCGGCAGATCGGGATGTCGGACCAGTATGTGCAGTCCTTTGGCTCACATGCCTATTTCTCTTTTTTCATCATGCGCCACAAGCCGCTTGACCTGGTGGGCCTGCACCAGATGAAGCTGTTTGAGTGCCTTGACAATCACGGTCTTTTTCTGACTTTAGACCGGCAGTATTGCTTCAGTTTGGAGATGCCCAGACAATCTGGCCGGGGCCAGCGGATCCTGCAAGACTGCATTACCCACAACGCTGCCTTCTTGCACCTGGCAAGCGCCCGGGCAGCCAGCTGGGGCTGCCAGTTAAAGCCGGTCAGCCGCAAGTCTCTCTTAAACGACCCGGCTTATATTAGGGAAAGCCGGCTGGCAGAAATCAAGGCCATGGATCCCCGGCAGATTTTGGAAGAAGCAGAGGACAACTACTTAAACTATTGCTCAGAGGAATTTTTGAAGGAATTCCGGGCTTGGAACTGGGGCAAGCAGGACATGCGGCAGCTGATCAACTACTGCAACAAGTCCTTTAATGAAATCAAATAA
>LACTIS1119B1_02660 membrane-associated phospholipid phosphatase
TTGCAAGTCGACCTTATCTCACTGACAATCTCAGGGCTGGTCCTGCTGGTCTTGATCCTCAACATTCTCTATTCCCCGGCTTTCAACCGCCTGGACCGGAAGCTGCACAAGAAACTGGTGCGGACGCAGAAGAATATTTTTTGGAAGATCATCGCCTTCATCAACGAGCCCAAGCTGTTCATTGTCTGGGACGTCTTGATTGCCGGCCTGCTCTTAAACGAAGACAATTACCGGCTCGGCCTTTGGGTCCTGGCTACCTTAGGCGTGACCGATGCAGCCGGTTTTATCGTCAAGCACCTGGTCAAGCGGAGCCGCCCTCATGCCCACCTGTCTGAAGAAGAAGGCTACAGCTTCCCCAGCGGCCATGTCTTAGGGGCAACGACCATGTGCCTGATCCTTTACGCCCTGCTCAGACGGGAATTTGATCAGTTATTTGCCGTAATTCTTTTGATCTACTGGCTCTTTGTGGTTATCTCCCGCCTTAACCTCCGGGCCCACTACCCGTCAGACGTCCTGGGAGCCGTGGCCTTGTCGGTCTTCTGTTTTACAGTCGTGCAGACAATCTATGCTGCCCTCTTTTTGAAGTAG
>LACTIS1119B1_02670 DegV family protein
ATGGAAAACGTGAGACTGATAGTTGATTCAAGCGTCAATACTTTGACCGACCCAAGCCGCGGCCTTGAGGTCGTGCCCTTGACTTTGACCATCGGCCAGGAAAATTGGCTGGATGACGAGCAGCTGGACATGGGCGCATTTTTGAACAAGATGGAGGCCAGCCAGGAGGCAGGCAAGACTGCCGCGCCAAGCATCCAGCGCTGGCTGGATAGTTTGGAGGGCTGCGAGAAGGCAGTGATCGTGACGCTGACCAGCGGCTTGTCGGGGACCTACTCTTCCGCCTTGCAGGCCAGAGACATCTACTTAGAGACTCACCCGCATGCCCAGATTGTGGTCGTTGACTCCCGGTCAGCCGGTCCGGAACTGGAAGTAATCCTGGAAGGGATCGAAAGCATTCTTAAAGATGACAAGCTCCGCTTTGCTGACTTGGAAGCCAGAATTGCCGAGTACCGGACCAAGACTCACTTGCTTTTCATCCTCCAGTCCCTGCGAAACCTGTCCTTAAACGGCCGGGTGTTGCCAGCCGTGGCCAAAATTGCGGGGATGCTGAAGATAAATTTAATCGGGACGGCCAGCGTTGACGGTGACTTGCAGCCTTTGACCAAGGCCAGAGGAATGAAGAAGGCCCTGCGGGAACTGGTCAAGCAGATGAAGGAAGAGAAGTACCAGGGCGGCCGGGTCGTGATTGACCACTGCGAAAATGAAGCTGAAGCTGAGAAGCTGAAGGAACTGCTGCTAGCAGAATATCCGAAGGCTGAGATTACCATTCGGCCAATGCGGGGCCTGTGCTCTTTCTACGCGGAAAGAGGGGGGCTCATGGTCGGCTTTCACAATTAA
>LACTIS1119B1_02680 enolase
ATGACCAAGGTTGTTATTGAAAACGTTCATGCTAGAGAAATCTTTGACTCACGTGGTAACCCAACTGTTGAAGTTGAAGTTACTTTGTCAAACGGTGTAGTTGGCCGCGCTGAAGTTCCATCTGGTGCTTCAACTGGTGAAAACGAAGCTGTTGAATTGCGTGACGGTGGCTCACGTTTGGGCGGCAAGGGTGTTATGAAGGCTGTTAACAATGTTAACACTGCCATCAACAACGAACTGCAAGGCGCAGACCCATTCAACCAACCAGCTATCGACAAGGCTATGATCGAACTTGACGGTACTCCAAACAAGGGTAAGTTGGGCGCTAACGCTATCTTGGGTACTTCAATGGCTACTGCTGTAGCAGCTGCTAAGGCTACCCACCAACCTCTTTACCGTTACCTTGGCGGTACTGACTTGTCAATGCCTCAAACTTTCCACAACGTTATCAACGGTGGTGAACACGCTGACAACGGCATCGACATCCAAGAATTCATGATCACTCCAGTTAAGAAGACTTCATTCCGTGACGGCTTCGAAAAGATCGTTAACACTTACCACACCTTGAAGAAGGTTTTGGAAGAAAAGGGTTACGAAACTGGCTTGGGTGACGAAGGTGGTTTCGCTCCTAACATGAAGGACTCAGAAGAAGCTTTGAAGGCTTTGCACGAAGCTATTGAACGTGCTGGTTACGTTCCTGGCGAAGACATTGCCATCGCTTGTGACTGTGCCGCTTCATACTACTACAACAAGGAAGACGGCAAGTACCACCTGGAAGGCAAGGTTCTTGACGGTGACCAATTGGCAGAATACTACGACAAGTTGCTCGCAGAATTCCCAGAATTGATCTCAATGGAAGACCCTTACGACGAAAACGATACTGAAGGTATGGTTAAGTTCACTCAAAGCCACAAGGACCGTCTGCAAATCGTTCTTGACGACTTTATCTGCACCAACCCACGTTTGCTGGAAAAGGCCATCAAGGAAGGCGCAGGTAACGCTTCATTGATCAAGCTGAACCAAATCGGTACTGTAACTGAAACTTTGGAAACCATCCGGATTTCACGTAAGCACGGCTACAACACCATGATTTCTCACCGTTCAGGTGAAACTGGTGACACCTTCATCGCTGACTTCGCTGTTGCTACTAACGGCGGCCAACTGAAGACTGGTGCCCCAGCTCGTTCAGAACGTGTTGAAAAGTACAACCAATTGTTGAGAATCGAAGAACAACTCGGTGACGGCGAACGTCTCGACTTCTTCCCAGCTCAAGACTAA
>LACTIS1119B1_02690 hypothetical protein
TTGCAAAAAAGAACAGATAAAGGGTCTGGCAGAAGGACCGGATTTCTCCAAAAGCTGGCTGCCCTCTTGATCGCCGTGGTCTTTCTGGCTGGCGGGATCATGATAGGCCAGCATTTGCCCAAGAAAAGCCGGGAGCAGGTAACGGTGGCCACGGTTTCCGCTAAATTGAAGGCTATTGGGGAGCTGGCGACTGAGCAGTACACCTATACTGGCATTTACAAACTATCTAACGGGCAGATTCCTTTTATCACCAAGAAGGGCTTCACTATGGTCTATACAGCCAACTTTAAAGCCGGGGTCAAGGTCAAGGACATCAAGGTCCAAGTCAATCAAGACCAGGTGACCGTGACTTTGCCGCAAAGCCAGCTGCTGGACAAGAAGATCGACCCGTCCTCAATCAAGTTCTATGACCAGAGCTATGCTCTTTTTAACTGGAACCAAAAAGAAGACATTACCAAGGCTGAGCAGGCGGCCTTAAAGAAGGCGACAGGCGTGGCCAAAAAGTCCGGCCTCTTGGCCCGGTCGCAAAAAAATGCCAAGAAACTGATCAGGCAGCTGCTCCAGGGGACCCTGGATAGCCGCAAGCTGGTCATCAAGACGGAAGAATAA
>LACTIS1119B1_02700 amino acid ABC transporter ATP-binding protein
ATGAACAAGATCATCGAAGTTAAGCATCTGAAGAAGAATTATGGCGACAAGGAAGTTCTCAAGGACATCAATGCCGTCATCGAAAAAGGAAAAGTCATCACGGTTATTGGTCCATCCGGTTCAGGCAAGAGTACTTTTTTGCGCTGTCTGAACCTGCTGGAAAAGCCAACCAGCGGCCAGGTCATTTTTGAAGGAACGGAACTGACCGACCTTAAAGAAGAAGAGCTGGACCAACTCCGGCAGAAGATGGGCATGGTCTTCCAAAGCTTCAACCTCTTCCCTAACATGTCCGTCATTGAAAACGTCAAGCTGGCGCCGATGAAGGTCAAAGGGATGAGCGACCAGGAAGCCGGCGACCTGGCTCATGAACTTTTAGCAAAAGTTGGCCTGGATGACTTTGCTGACCACTCCCCGGCCAGCCTGTCCGGCGGCCAGCAGCAGCGGGTTGCTATCGCCCGGGCTTTAGCCATGCAGCCGGACATGATGCTTTTTGACGAACCGACCAGTGCCTTAGACCCGGAAATGGTCGGGGAAGTCTTAAAGACCATGCAGGATTTAGCCCAAACTGGGATGACCATGGTTGTGGTCACCCACGAAATGGGCTTCGCGCGAAAAGTCGCTGATGAGGTCTGGTTCATGGCTGACGGTTATCTTTTGGAACAGGGCAGCCCCGACCAGGTCTTTGACCACCCGCAAAGTGACCGGGCCAAGGACTTTTTGGCAAAAATTTTGGAAGCCTAG
>LACTIS1119B1_02710 amino acid ABC transporter substrate-binding and permease protein
ATGAAGAAACTTATTAAAATTATGACCGCCCTCCTCCTCTTGGCCGGGCTCTTTACCGCGGCAATTCCAGCAGTTGATGCCGCCAGCAGCAAGAAAATGGCCAGCGGTACGGTCATGAAGAAGATCAAGAAGTCCGGCAAATTAGTTGTCGGCATGTCCGCTGACTACCCGCCATTGGAATTTACCAAGAACGTCAACGGCAGAAACAAGTATGTCGGCGTCGATGTTGAACTGGCCAAGCAGATCGCCAAGGACCTGGGAGTCAAGCTGGAAATCAAGAACATGGACTTTGACTCCCTCCTGGTTGCCCTGGAAACTGGCAAGATCGACGTGATCATTTCCGGGATGACCCCAACGGCCGAACGGAAAAAGAGCATTGACTTCTCCAAGATCTACTACGCTGAAAAGTCCGACTACTTTGTCATCAGCAAGACCAACAAGGCCAAGTATACCAGCACCGCCTCCTTTAAAGGCAAGACGGTTGGTGCCCAAACCGGTTCGCTTCAGTACACTTCCTTGAAGAAAAACGCTGCTAAGAGCGGGATCAAGGTCAAGGGGCTGGCAAAGATCAGCAACCTGCTCATGGCTCTTAAGTCCGGTAAGGTTGACGCTGTTTTATTAGGTGAACTGAACGCCAAGACTTACGCCACTAACGACACTTCCCTGTCTTTGGTCAAGTCCAGCCTCAGCCAGGCTCAGATGGGCAACGCTGTTGGGGTGGCCAAGGGGCAAGGCGACCTAGTCAAGGCCATCAACAAGACCATCAACAATTGCCAAAAGCAGGACCTGTTTAACAAGAAGTACATCCCGGCCGCTGCCAAGGCCATGAAGCAGGCCTCAAGCAAGACCAACAACTCCATGAGCAAGTACGCCGGCTACTTCGCGACTGGCCTGGGCTACACCATGATTATTACGATTTGCTCCATCACGATTGGTTTAGTCCTGGGTGTCATCTTCGCCTTGATGCGTCTGTCTAAGAACAAGCTTTTGCACGCCATTGCCGTTTGCTACATTGAGTTCCTCCGGGGCACTCCGCAGATGGTTCAGATTATGTTTGTCTACTTCGGGGTCGGGATGCTGATCAAAAATATGCCGGCCCTGGCCGCCGGGATCATCGCCATCGGTCTTAACTCCGGGGCTTACGTGGCTGAAGACATCCGGTCCGGGATCAATTCCGTGGCCAAGGGGCAAACGGAAGCTGCCCGGTCCCTGGGCCTCAGCCAGGCCAAGACCTACCGCTACGTAGTATTCCCGCAAGCCTTGAAGAATATCTGGCCAGCCCTGGGCAATGAATTCATTACCTTGACCAAGGACAGCTCCCTGGTCTCCGTCATCGGGGTCGGGGAATTGATGTACGAGACCGGCCTGGTCCAAACCGCGACCTACCGCGGGGTCATGCCGCTTTTTATCACCATGTGCATCTACTTCGTGGTCACCTTTATTTTGACCCGTCTGCTCAACTACTTTGAACGGCGGATGAACCTGACTTCAAGCCGGGCATAA
>LACTIS1119B1_02720 LysR family transcriptional regulator
ATGAATTTCAAGCAGCTCAATTACTTTCTGGTCGTAGCCGAGGAAGGGCAGATTACTTCAGCCGCCAAGCGGCTCTTTGTCGGCCAGCCAGCCCTCAGCTACCAATTAAAGCAATTAGAAGAGGAGCTAGGGGCTAAGCTCTTTATCCGTCAGCCTTATGGAATTGAACTGACCGAGGCTGGAAAAAAGCTGCGGGATTATGCTGGTCAGATTTTGACCTTAGCCAAAAACGTCCAAACCGAAATTACGGAGCTGGACCGGGGCGGGCGGGGAAGGGTTAAATTAGGTTCCGTCTCTTCTTCAATCGGCGAGCTTCCTTCCGCCAAATTGACGGCTTTTGCCCGCCAGCATCCCGGCGTCTCCTTTGACATCTACGAAGACAACACTTTCGGCATCCTGGACAAGCTGCAGGGCAACCTGCTGGACCTGGCCATCGTCCGCACCCCCTACAACCGGGTCAACTTGAACTTTGTCGACATCAGCGATGAGCCGATGACCGCAGTTACCTGCCAGGACTTTTTCCCTGGCAAGGAAAAAGTAGGGCTGCAGGCCCTGGCCGGCCAGCCCCTGGTCATCTACCGGCGCTTTGAGGACATGTTCAAGGAAGCCTTCGCGGAAAAAGGTCTCACCCCAAATTTTGTGGTTAAGTGCGATGATTCCAGAACCGCTATCCGCTGGAGCGACTCTGGCCTGGGGATTGCCCTGGTGCCGGAATCAATCGCCAAAACTTATGCCAAAGGCCACATCTACCCAATCGACTCGGCTAAGTGGCGGACCCGCCTGCAGCTGGTCTGGCGCAAAGACCGGGTGGTTACCCCCTTAATGCGGCAAATTATTGCCCTATATGCAAAATAA
>LACTIS1119B1_02730 cation-transporting ATPase
ATGAAAGTAAAAGGCTTGACGCAGGCTGAAGCTGACCTGCGCTTAAAAAAAGACGGACTCAACCAGGTGCCGGAGCCGGAATTCAGCTTCTGGAAGGAATTTGCCGGCAAGCTTTGGAATCTCAGTGCCTGGATTCTGGAGGCGGCACTCCTCCTGGAATGTGCCCTAGGCAAGTGGATCCAGTCCCTCTTCGTTTTGCTTATGCTGCTCTTTGCCGCCTACAACGGGGCCACGCAGAAGAAGAAGTCCCGCAAGGTCCTGAGTTCAATTTCCCAGCAGCTGACCCCGGTTGTCGCTGTTTTAAGAGATGACCGCTGGCAAAAAATTGACTCCAAATACCTGGTAGTCGGCGATATCGTCAACCTGCAAAAAGGGGATATTTTGGCCGCCGACATTGACCTTTTGGACGGGAACTTGACCTTAGATGAATCCTCAATCACCGGGGAAGCCAAAAATGTCCATAAAAAAGCCGGAGCAACAGCTTTTGCGGGCACGACCGTCATGGACGGCGAGGCTCTAGGCAGAGTCAGCGCGACCGGGACCAATTCAAGAAGCGGGCAGACCATCAACTTGATCAACAGGTCCGCGGCACCTGGCCACCTGCAGCAGCTTTTGACCAAGATCATCTACTACCTCTGCCTCTTAGACGGGGTTTTGACCGTCATCCTCTTGATCGCGGCCGTAATCCGGGGTGAAAATATCTTGGAAATGCTGCCCTTCCTGGCCATGATGTTTATCGCTTCTATTCCAGTAGCTATGCCGTCAACTTTTGCCCTCTCCAATTCCTTTGAGGCCACCCGCCTGTCTAAAGAAGGAGTTTTGACCAGTGACTTAACCGGGATTCAAGACGCGGCCAACCTGAACCTGCTCTTACTGGACAAGACCGGGACCATTACTGAAAACAAGACGGCTGTCGCCTCTTTTGCTAATTTTTCAAAGCTCTCAGATGAAGAAGTCCTAGCCTTGACCAGCCTGGCCATCGACCAGCGCAACCAAAGCGTGATCGACCTGGCCTTAATGGACTTTCTGCAAGAGAAAAAGATACCAGTTAAAGAAGCAGAAGCCTTTACCCCCTTCACTTCCAGCCAGGGCTATTCTGAAGGCCGAGGAGAAGGCCACGACGTTAAGCTGGGTTCAGTCAAGCAGTTCAGTAAGATTGATCCGGCTATTTCTGAACAAATGGCAGCTGTCGACCTCAGTCTGGGCCGGTCAGTCGGGATTTTGCTCGACGACCGTTTGGCGGGTATTTTTATCACTAAAGACAAGGTCAGAGCTGATTCAAAAGCCGCCCTGGCCGAACTGGTCAAGCGGGGAATCAAGCCAGTCATGCTGACCGGGGACAACCAGAAAACCGCGGCCAGCGTGGCTGAAGAAGTCGGCTTGACTGGCAAGGTCATCTCGATCAGCGACTTTAAAGAGGGGGTAAAGGCGGAAGACCTGGCCGGGATCGCCGACGTTTTGCCGGAAGACAAGCTGGATATGGTCAAGTACTTCCAAAAGGCTGGCTATATCGTCGGCATGACCGGGGACGGGGTTAACGACTCCCCTGCCCTCAAGCAGGCCGAAGTCGGCATAGCTGTATCAAATGCCGCTGACGTGGCAAAAAAGAGCAGCAAGATGGTTCTTTTGGATGAGGGCCTTAGCCCTATCGTCAAGATCTTGGATGCCGGCCACCGGGTTTACCAGCGGATGACCACCTGGTCTTTGACCAAACTAGCCAGAACGGCTGAACTGACCATGCTCTTGACCTTCTCTTATCTTATTTTCGGCTACCTGCCGATGGCCTTAAATGCCATGGTCATCTACACGATCATGAACAACATGGTCACCATGATGATCGGAACCGACAAGACTCACATCACTTACAAGCCGGAGAACTGGGACATGGGCAAGCTGGCTAAAATTGCCTTCTCCTTGGCCGGAGCCTGGACAATCATCGGTTTTGCCTTCGTCTCTGCCTTAACAAAGGCCGGAGTAAATCATGATCAAGTTGGGACCATGGTCTACGTCTTCTTAGTTATGAGCGCCATGATGATCGTCTTGATCACCCGGACCAAGCGCTTCTTCTGGCAGTCTGCCCCATCTAAGCCGGTAGCCAGTGTCCAGATCGCCGATATCCTTTTGACCTGCCTTTTAGCACTTTTGGGCATCGCCATGCCGGCCATCGGGATTAAGGAGCTCTTGACCCCTTTGGCCGTAGCCTTCCTGGCCGCCATTTTGATCGACCTGGTCTACCAGCCGGTCATGAAGAACAAGTAA
>LACTIS1119B1_02740 membrane protein
ATGAACAAATTTTGGAACCACATTGATCAGAAGTATTTTAAGATTGCCCTCTACTGTCTGGGCACGGTCTTTGCCGGTCTCTTCATCCTGCTTTTAGCCTATGAGTCAACTGGCTTCTGGGTCCGGGTAGGCAAGATTCTGGCAGCAATTGCCCAGCCTTTGACTTACGGCTTAGTTTTAACCTATCTCTTGCTGCCTTTGACCAACTTCTTTGACCGGAAGTTTTCCAAGGGCAGCAGCCGGGGGGCAGTGGCGACGGCCAGCCGGTCAGCCGCAGTGGCCTTGACCCTGCTCTTGCTCTTGCTGGTTATTTTACTGGCCGCGACAGCGGTTTTCGTGACCTTCTCCAAGCAGCTGAGCCATTTCAGCCTGGGCAGCTTAGAAAGCCTCTATGACCAACTGAAAGCCCAGTACAGCAGCTTTATCAACGAAATCTTAGCCTACCTGCAAAAGCAGGGCTGGTCGACCAGCGGCCTGGTCTCTTATATGCAAAAGGGGGTCGGCCGGGTAACTGGCTTTTTGAGCGACTTCTTCTTCGGGATGATTTTTGCCATCTACTTCCTCTACGATGGCCAGCGGATCGCGGCATACTGGAAGAGAAACCTGGGCACCCTCTTAAACAAAAAGGTGATCAGGGGAATCAAGCTCTTCTTAGCAGACGCTGACCGGGCCTTCTCCGGTTACATCAGAGGGCAAATTATCGATGCTTTTATCGTTGGCCTTTTAGTTAGCCTGGCCATGCTGATTGCCAAGGTCCCATATGGCCTTTTGATCGGCTTGGTAACCGGGCTGGGTAACCTAATCCCATACTTTGGTCCGATTTTAGGCTATGGGATGGTTATCTTAGCCTGCACCCTCAGCCAGAATATGACAGCTTTGATCGTGGGGATGATTATTCTCCTCTTGATCCAGGCGATTGATGGCAATATTCTTAATCCTAAGCTTTTGTCTTCAGCCATTCACATCCACCCCCTGTACGTTATCGTCTGCGTGATTGCCGGCGGGGCCATGGGCGGCTTTGTGGGGATGCTGATTGCCGTCCCGATGGGGGCCTTGCTGAAAACGGAATTCGAGCGCTTGATTGCCTACCGGCAAAAGCAGCTGGAAAAGAGCAAAGAGGCAAGTGAAGAGTAA
>LACTIS1119B1_02750 branched-chain amino acid aminotransferase
ATGGCAAAAAAAGATCTCGATTGGGCAAATATCGGATTTGGCTATCATCAAACCGACAAGCGCTACGTGGACTATTTCCACGACGGTGCCTGGGAAGGCGGCAAGCTGACCGACGACCCTAATGTCGTATTGAATGAATGTGCTGAAACCCTGCAATATGCCCAACAAGTTTTTGAAGGGATGAAGGCCTACACCTGGAAGGACGGATCTGTTGTTGTCTTTAGGCCAGACCAAAACGCGGAACGGATGTACAACTCCGCTAAGCGGATCGAAATGCAGCCTTATCCAAAGGACAAGTTCGTTGAAGCAATCGACCAAGTAGTCAAGGGCAATGTTGACTGGGTACCGCCATACGGTTCAGGCGCGACTCTTTACCTACGTCCATACGAAATCGGCACTACACCAATCATCGGCGTTGCTCCGGCAACTGACTACATGTTCAGAATCTTTGCAACTCCAGTTGGCCCATACTACAAGGGCGGGGCTACTCCAGTTGCCGTTCAGGTTGCCCAATATGACCGGGCTGCACCTCGCGGGACTGGCCACGTTAAGGCCGCTTTGAACTATGCCATGAGTTTGAAGGCGACTGTCGCTGCCCACCAGGCAGGTTTTGCTGAAAATATGTACCTGGACCCAGCTACCCAAACTTACATTGAAGAAACGGGTGGCTCAAACATTATCTTCATCGACCAAAACAACCACTTGGTCGTTCCTAAGTCAAATTCAATTTTGCCATCAATCACTAGACGCTCCATTGTATACTTGGCTGAACACTACCTCAACTTGACGGTTGAAGAAAGACAAGTCCGTTTCGACGAAGTTCCATCCTTCAAGGAATGTGCTTTGGTCGGCACGGCTGCCGTATTGTCACCAGTTGGCCGCATCGTCAATGGCGACCAGGTCATCGACATGCCATCAGGCATGGACAAGCCAGGCAAGTTCATGGAAGAACTTTACAACACTTTGACTGGCATCCAAAACGGGGAAGTCGAAGCCCCAGAAGGCTGGATCCACCACGTGATGTAA
>LACTIS1119B1_02760 cation transporter
GTGACTGTCTTCAATGTCATCATTACTGCCGCGGAAATTGCCGGCGGGATTATCTCCGGTTCCCTGGCCCTCTTGTCAGATGCTTTGCATAACTTGAGTGACGTTGTTTCCATCGTGGTTGCCTTTGCGGCTAATTTGATCGCCAAAAGAAGCAAGGACCAGCACAAGACCTTTGGCTACAAGCGGGCCGAAACCCTGGCTGCCTACACCAACGGCCTCTTCTTGCTGGCCATCAGCATCTATCTATTTATTTCAGCCATTAAGCGTTTCAGCAAGCCTGAACCGATTGAAGGGGGCGTCATGTTCATCGTCTCCTTGATCGGCCTGGCCGGCAACTTGATCTCCATGCTGATCCTGGGCAAGGGGAGCAAGGAGAATTTGAATGCCCGGGCCCTCTTTTTGAATATGATGTCGGACACCTTGTCCAGCGTGGCTGTCGCGGTGGGGTCACTCTTGATTTACTATCAAAACTGGACCCTGGTGGACCCGGTCTTAACTATGGCCGCGGCAATTTTCCTCTTGAAAGAAGCTTTTGAAGTCACCAGGGACTCAGCTAACGTCTTGATGGAAGCTAACCCCGACCTGGACCTGGAAGCCATTGAAGAGGCTGGTTTGGCCTTTAAGGAGGTAATACAGCTCCACCACCTGCATGTCTGGCGCTACAGTGATGACACCATCATGCTGGACGCCCACATTGTGGTTGACTCCGGTTTAACCGCCAAGCGGATTGAAGAGCTTGATGAAGAGATTGCTGCTTGTCTGAAGGAAAAGTTTGCCATCAACCACGTTACCCTGCAGGCAGAATGTAGCCGGGGCCTGGACGAGGACCTTTTGTCAACCAACAAGGAAAATTAA
>LACTIS1119B1_02770 ArsR family transcriptional regulator
ATGACACACGAAGAACTGATCGACCAGGCGGCCCACCTTTTCAAGGTCTTGGGCAGCAGCCTGCGGATCCATATTCTCTTTTACCTGAGAAAACACGGCGAAAGCCCGGTTTCGGCAATCGTCGGCCACCTGGGCGTCTCTCAGCCGGTAATTTCCAAGCAGCTCGGTATTTTGAAAAAACACGATTTCGTGCAGAAACGCAAAGCAGGCACTTTTGTCTACTATTCAATCAACGACCAGGACATCGTGCAGATCATCGACGCGATGACCGAGCACCTGGACCACCTGGACAGGCTGCAATAG
>LACTIS1119B1_02780 adenine phosphoribosyltransferase
ATGTCAATTGATTTTAAGAAGTACATTGCCAGCGTCAAGGACTTCCCGAATGAAGGAATCATCTTCCGGGACATTACCCCGATCCTACAAGACGGTGAAGCCTTCGCGGCAGCTACTCACGAAATTTCTGAATACGCCAAGAGCCGGCAAGCTGACGTGATCGTCGGGCCGGAAGCCCGGGGCTTCCTAGTCGGGACTCCGGTAGCAATCGAACTGGGTATCGGCTTCGTGCCAGCCCGTAAGCCCCACAAGCTGCCACGGGAAGTAGAAGCTGCGGCTTACGACCTGGAATACGGGTCAAACGTCCTGGAAATGCACAAGGACGCGATCAAGCCTGGCCAAAGAGTAGTCATCTGCGACGACTTGATGGCTACGTCCGGCACCCTGCACGCCACTAAGGAATTGATTGAACGCCTGGGCGGGAAGGTTGTCGGGGCAGCCTTTTACATTGAACTGACCGACCTTAAGGGCAGAGAAAAGTTCCCGGACGTGGACATCTTCTCCCTGGTTCAATACACCGGCGCTTAA
>LACTIS1119B1_02790 single-stranded-DNA-specific exonuclease RecJ
ATGAAATGGCAAGAAAGAACAGCTGCTCCTTTGGCCAGTGACCTGGTTGAGGAATTTCAACTTAGCCCATTAACGGCTAAGTTGTTTTCTTTGCGGGGAATTGACAACGAGGAAAAAATCGATTATTGGCTCCACGCCAGTGAAAATGACCTGGCTGATCCCTTTTTGATGCATGACATGGACAAGGCAGTCGGCCGGATCAACCAGGCCCTGGACGAGGGCGAAAAGATCACTATTTACGGGGACTATGACGCTGACGGGATCACCGCCACGGCCATAATGACGGAAATGCTGACCATCATGGGGGCTGATGTCCATTACTTCATTCCTGACCGCTTCAAGGACGGCTATGGGCCAAGTTTAGACCGCTACAAGGATATTGTGGCAGACGGGACGAAATTGATCATCACCGTTGACAATGGGGTAACCGGGATTGAAGAAGTGGCATATGCGCAGTCTCACGGCGTGGACGTGATCGTTACCGACCACCACACCTTCAAGGAGGAAAAGCCCGACGCTTATGCCCTGGTGCACTGCAACTACCCAGGCCAGGCTTATCCTTTTGACGACTATTGCGGGGCCGGGGTAGCTTATACTATTGCCCGGGCAGTCTTAGAAGACACGGCCAGCGAATTTTTGGAACTGGCCATGATCGGGATCATTGGGGACATGGTCAAAGTTTCCGGTGAAGGGCATGTTATCGTTAAGCGAGGCTTGGAGATGCTGAATGAAAGCTCCCGGCCGGGCCTGGAGGCTCTTATCCGCAATGCCGGCCTTACCCCGGGGATGATTGATGAAGAAGACGTCGGCTTTAGCATCGCTCCCCGTTTAAACGCCTGCGGCCGCCTGGCTGATGCCAGCCTGGCCGTAAGGCTGCTTTTGGCGGAAAGCCCGGGCGAGGCCCAGGAATTAGCCGATCAGATTGAAAAGCTGAACAATGAGCGAAAAGACTTGACCCAAGCGACCATGCAGGCGGCTGAAGCTCAAATTAAGAGCCGGGGCTACCAGAAAGAAGCGACATTGACCCTGTATGACCCGGCCTGGCATGAAGGGGTCATGGGCTTAGTCGCCAACAAGATCGTGGAAAAATACCACAAGCCAACCTTGATGCTGACGAAAAACGAGGCCGGCCTGGTCAAGGGGTCTGGCCGGTCCAGCCAGGGCTTCAACTTGTTCAATGCCTTGAAGCCTTTTGAAGGCAAGTCCATCACCCAGTTTGGCGGCCACGACTTTGCCTGCGGCCTGTCGACGACTGAGGAAAATCTGAACCAGCTTAGGCGCGACTTTAATCAAAGCTATAAGGCAGGGGAGAAGGCTCCGGAAAAGGTCCAGGAATATGATGGCACGATCAGTCCATTAGATGTTGATTTGACCAGCGTTTATGACCTGGCCCAGGCCGGGCCTTTTGGCACGGACAACCCCCAGCCGGTCTTTTTGCTTGACAAGCCGCAGATCTCTAACTTCCGCCCTATGCGGAAGGGCTGCAGCTTCATGGTGGGCCCGGTCAGGGCGGTGGACTTTGACCACAGCTTAAACCAAACTGTCCTGCCTTATTTGCAGCAGATGTTGGTTAAGCTTGCTTCTAACACTTTTAAAGGCAAGACCAATGTCCAGTTCCGGATTGTTGACCTGCATTACGGCCAGTCCTTGTACGTGCCAGCCGCCCGGATTGTGGACTTTCGCGGGCAGGAGAATTTGCTGGGTTTTGCGGACAAGTATCTCTTATTTGATGAGAGAAATCTCAGCCAGGCCATTAATCATTTTGGCATAACTAAAGAGCAGATTTCCCTGGCCAAGGACAATGAAGACCTCAGCCAGCAGGTCGTGTCAGTTCTTGACGTGCCGGCCAATGAGGCCCAGCTGAACTTTGTCCTGGCCAAGCCTTACCGCCAGCTCTACCTGCGCTTTCAGTTGGACCAGCTGCCAGGGGAGACCCTGCCCAGCCGGGGCAACTTCGGCCTGGTCTGGCAGTACTTTTTAGCCCACCCGGGACTAAAACCGAATGATTACATGCAGGCTGCCGGCCAGCTGGGGATGGATCCGGACAGCATCATGTTTATTTTGAGGGTGTTTTTTACCCTTGATTTTGTTAAAATGGAAGAGGACAGATTGCTCCCTAAACCGAGTCTGACAAAGAAGTCTTTGGACGATTCAGCCTATTACCGGTCAGTGAAAGCAGAATATGCCTTCGCTAACAAATTACGAACAATCTCTTCGGATGAATTAATTCGCTATGCCAGTGGTCTAGCAAATGGAGGATTACAAAATGTCAATTGA
>LACTIS1119B1_02800 sortase
ATGACATCAACGGCAAGTAAAAATACAAAAGACCACCCAGTCCGCCGCATTATTCTGCGCCTAGTTGCCGTAATCCTCTTTTTGCTGGGCCTGGCTTTGGTCTTTAACCAGCAGATCAGCGCGTTTTTGGTCAAGCAGAACCAGACCGCGGCTTTAAAGGGCCTGACCCGGGATCAGGTCGTGCAGAACCAGAAAAAGAAGGGGATGTATGACTTCAAGAAGGTCAAGTCAATTGACTTTGCCCAGACCACCCGCAGCCGGGTCAAGAACACAGCTGGCGCAATTGGGGCAATTTCCATCCCCAGCGTCAAGCTCTATCTGCCAGTTATGCAGGGCCTCTCAGACGCGGCTCTGTCAACAGGGGGCGGCACCATGCGGGCTGACCAGAAGATGGGCAAGGGGAACTACCCTTTGGCCGGCCACTACATGACCGACCAGGGGGCCCTTTTTTCACCCCTTGAAAGGGTCAAGCTGGGCAGCATGGTCTATTTGACTGATTTAAAGAAGGTCTATGCATACAAGATCTACTACAAGAAGGTGGTTGACCCCAGCGCCGTCTGGCTGGTTGCCAACACCAAGAAGAAGATCGTGACCTTGATCACCTGTGCCAATGGCGGGGTAAACCGCTGGTCTTTAAGAGGGAAGCTGACCGCGGTCAAGCCGGCAAGCAAGCAGAATTTGGAGATGTTTAAACTTCGATGA
>LACTIS1119B1_02810 translation elongation factor LepA
ATGGACTTAGAAAAATTAAAAGACTACCAAAAGCACATCCGCAATTTTTCAATCGTGGCCCACGTTGACCACGGCAAATCAACGATTGCCGACCGAATTCTGGAACTGACGGACACGGTTTCCAAGCGGCAGCTGAAAAATCAAATGCTGGATGATATGCCCCTTGAACGGCAGCGGGGGATCACCATCAAGATGAACTCGGTGCAGGTCAAGTATCACGCCAATGACGGGGAAGACTACATTTTCCACTTGATCGACACCCCTGGCCACGTCGACTTCTCCTATGAAGTTTCCCGGTCCCTGGCTGCCTGTGAAGGGGCTGTCCTGGTCGTTGACGCCTCCCAGGGTGTCCAGGCCCAGACCCTGTCCAACACTTACCTGGCTTTGGAAAACGACCTGGAAATCCTGCCTGTTTTAAACAAGATCGACCTGCCAAGCGCCGACCCGGACATGGCCAAGAGCGAAATCGGCGACATGCTGGGCTTAGACGCCAGCGACGCCGTGGAAGTTTCCGGCAAGACCGGGGCAGGGATTCCGGAACTTTTGGAAAGAATCGTGACCGACATCCCAGCGCCGACTGGGGACTTGACCAAGCCCCTCAAGGCCTTGATCTTTGACTCCAAGTATGATGACTACCGGGGGGTGGTCATGTCAGTCAGAATTGAAGAAGGCACGGTTAAGCCAGGCGACGAAATCATGATCATGAACACCGGCAAAAAGTATGAAGTAACCGAAGTCGGCGTTTCCAGCCCCCACCCGGTTAAAGAAGACATCTTGATTGCCGGGGACGTTGGCTATATTACTGCCAACATCAAGTCTGTCCGGGAAACCCGGGTCGGGGATACCATCACTAGCGCTGAAAACCCGACGGCAGAAGCTTTGCCAGGCTACCGGCAGATTCCGCCAATGGTCTACTCTGGTATGTATCCAACCGACAACCGGGACTATGACGACTTGAAGGAAGCCCTGCAGAAATTACAGCTTAACGATGCGTCTCTGGAATTTGAGCCGGAAACTTCCCAGGCCCTGGGCTTTGGCTTCCGCTGCGGCTTTTTGGGCCTTTTGCACATGGACGTCGTGCAAGAGCGCTTGGAGCAGGAATTTGACCTGGACCTCATCATGACCGCGCCGTCAGTTGACTACCACGCTATCATGCCGACTGGTGAGGTCAAGCTGATCGACAACCCGGCTGACCTGCCGGATGCCGGTGAATACAAGGAATTGCAAGAGCCTTACGTCAAGGCGGAAATCATGGTACCAAACGACTTCGTCGGTGCTGTAATGCAGCTGTGTGAAGGCAAACGGGGCGAGTTCCAGACCATGGACTACCTGGACAAGTACCGGGTCAACGTGATCTACGAAATGCCCCTGGCAGAAATTATTTACGATTTCTTTGACCAGCTTAAGTCTTCAACCAAGGGCTATGCTTCTTTGGACTATGAAATCATCGGCTACAAGGCCACCAACCTGGTCAAGATCGACATTCTCTTGAACAAGGAACCAATCGATGCCTTGAGCTTCATCGCCCACCGCGAAGAAGCCCGGGACCGGGCCGTCCAGATGTGCAGCCTGTTGAAGAAGCTGATCCCGCGGCAAAACTTCCAAGTCGACATCCAAGGGGCAATCGGGTCCAAGATCATTTCCCGGGCTACGATCAAGCCTTACCGAAAAGACGTTACCTGGAAGATCCACACCGGTGACCCGGACCGGCGGGCCAAGCTTCTGGAGAAGCAGAAGCGGGGCAAGAAGCGGATGAAGTCAGTTGGCCGGGTGGAAGTCCTGCAGGACGCCTTTATGGCAGTATTACGGATGAATGACGATGACATCAACGGCAAGTAA
>LACTIS1119B1_02820 molecular chaperone DnaJ
ATGGCAGCAAACCGTGACTATTATGACGTCTTAGGCGTGAGCCGGGATGCCAGTGACGCAGAAATCAGCAAGGCCTACCGGAAGTTGGCCAAGAAGTATCACCCGGACTTAAACCACGAAGCAGGGGCAGAAGAAAAGTACAAGGAAGTCAACGAAGCTTACGAAGTGCTGCATGACCCGCAGAAGCGGCAGCAGTATGACCAATTTGGCCAGGCTGGCATGAACGGCCAGGGCGGCTTTGGCGGCCAGTATGGGGGCCAGGGCTTTGGCGGAGCTGATTTTGGTGACTTTGGTGACATTTTTAGCAGCTTCTTTGGCGGCGGTGCCCGCCAGCAGGTAGACCCGACCGCTCCGCAGCGGGGGGCTGACCTGGACTACACCATGACGATCGACTTTATGGATGCCATCAAGGGCAAGACCACTGAAATCAGCTACAGCCGGTCAACCACCTGTGAAGTCTGCAAGGGTTCCGGGGCTGAAAAGGGTACCCACCCGATCACCTGCGACAAGTGCGGGGGCAGCGGCATGATGACCATTACGCAAAGAAGCGTTTTGGGCATAATCCAGCGGCAGACGACCTGTGACAAGTGCGGGGGCAGCGGGGTCATCATCCAGCATCCATGCCAGAATTGCCACGGCAAGGGGGTCAAGACCCAGAAGCAGACCCTGCAGGTTAAGGTGCCAGCCGGCATCGACAACGGCCAGCAGATCCGCCTGGCCGGCCAAGGCGAAGCCGGCAAGAACGGTGGCCCATACGGGGACCTGTACATCGTCTTCCGGGTGCGGCCAAGCAAGGACTTCACCAGACGTGGCCAGACCATCTACACGACCGTGCCGATTTCCTTTGCCCAGGCAACCTTGGGTGACGAGATCAACGTCAAGACAGTTTACGGCGACACGAAACTGAAAATTCCGGCCGGCACCCAGCCAAACCAGAAGTTTACTTTAAAGGGAAAGGGTGTTCCAAGCCTGAGCGGCGGCAGCCCTGGTGACCAGGTAACCACGGTTGAGATCGTGATTCCGAAGTCCATCAATGAGGCCCAGCGCAAGGCCCTGCTGGAATTCGTCAAGGCCAGCGGTGGCTCCATTGCCCCGCAGGAAAAAGGCTTCTTTGAACGCTTGAAGGAGAAGCTGAGCTAA
>LACTIS1119B1_02830 molecular chaperone DnaK
ATGTCTAAAGTTATTGGGATTGACTTAGGTACCACCAACTCAGCAGTTGCGGTTTTGGAAGGCAAGGAACCAAAGATTATTACCAACCCGGAAGGCGCTAGAACTACCCCCTCAGTAGTTGCCTTCAAGGACGGCGAAATTCAAGTCGGTGAAGTTGCCAAGCGGCAAGCCATCACCAACCCGAACACCATCGTTTCCATCAAGCGGCATATGGGCGAAAGTGACTACAAGGTTAAGGTTGGCGACAAGGCTTACACCCCGCAGGAAATTTCAGCCATGATCCTGCAATACATCAAGAAGTTCTCAGAAGACTACCTTGGTGAACCAGTTACTGACGCGGTTATCACTGTTCCAGCCTACTTTAACGACGCGCAACGGCAAGCAACCAAGGACGCCGGCAAGATCGCGGGCTTGAACGTGCAACGGATCATCAACGAACCAACTGCTTCAGCCCTGGCCTACGGCTTGGACAAGGATGAAGACGACGAAACCGTTCTGGTTTACGACCTTGGTGGTGGTACTTTCGACGTTTCCGTCCTGCAATTAGGTGACGGTGTCTTCCAAGTTCTGTCAACAAACGGTGACACTCACTTGGGTGGGGACGACTTTGATAACAAGATCATCGACTGGCTGGTTGACGGCTTCAAGCAAGAAAACGGCATTGACTTGTCCAAGGACAAGATGGCAATGCAACGTTTGAAGGACGCGGCTGAAAAGGCCAAGAAGGACTTGTCAGGCGTATCTTCAACCCACATCTCCCTTCCTTTCATCTCCGCTGGTGAAGCAGGTCCTCTGCACTTGGAAGCAGACCTTACTCGGGCTAAGTTCAACGAACTGACTGATGACTTAGTGCAAAGAACCAAGATTCCATTTGACAACGCCCTGCGTGACGCTGGCCTGTCAGTTGGCGACATCGACAAGGTTATCTTGAACGGTGGTTCAACTCGGATTCCAGCTGTTCAAGAAGCTGTAAAGCAATGGGCCGGCAAGGAACCAGACCACTCAATCAACCCAGACGAAGCCGTTGCTTTGGGTGCCGCAATCCAAGGCGGGGTTATCTCCGGTGACGTTAAGGACATCGTTTTGCTTGACGTTACTCCGCTTTCCCTGGGTATCGAAACCAAGGGCGGGGTCTTCACCAAGCTGATCGACAGAAACACCACCATCCCAACTTCCAAGAGCCAAATCTTCTCAACTGCCGTTGACAACCAACCAGCTGTTGACATCCACGTTTTGCAAGGTGAACGGCCAATGGCAGCTGACAACAAGACTTTGGGTCGCTTCGAACTGACTGACATTCCAGCTGCTCCACGTGGCGTGCCACAAATCCAAGTTACCTTCGACATCGACAAGAACGGTATCGTTAACGTTTCAGCCAAGGACCTGGGGACTGGCAAGGAACAAAAGATCACCATCCAATCAGCTTCCGGCCTGTCAGACGAAGAAATCGAAAGAATGAAGAAGGAAGCTGAAGAACACGCTGAAGAAGACGCCAAGAAGAAGGAAGAAGTTGACCTTAGAAACGAAGTTGACGGCTTGATCTTCCAAACCGAAAAGACTTTGAAAGAAGTTGACGGCAAACTCGCAGACAGCGACATTCAACCAGTTAAGGATGCCCTGGAAGACCTGAAGAAGGCCCAAAAGGACAACAACCTGGACGAAATGAAGGAAAAGAAGGACGCTTTGAGCAAGGTTGCCCAAGACCTGGCTGTCAAGCTCTACCAGCAAAACGCCCAAAACCAGCAAGGTCAAGGCGGTCAAGCAGGCCCAACTGACGATGGTTCAAATGGCGCAAACGGCGACACGGTTGACGGCGACTTCACCAAGGTAGACCCAGACAAGTAA
>LACTIS1119B1_02840 heat shock protein GrpE
GTGGGCAAAGAAGAATTTCCAAGTGAGAAAGATTTGCCGCAAGAAGACCAGGAAAAGCAAGCCAAGGCAGCTGAAGCTGACAAGGCCGGCGTAAAAGATGACAAAGAAGAAGCAGCCAAGCCAGCTGATGTAGAACTGGATCAGCTCAAGGCTGAAGTTGCCGCTTTGACCCAGAAGAACAAGGATCTGGAAGACAAGTACTTGCGTAGCCAAGCTGAGATTCAAAACGCCCAGCGCCGCTACAGCAAGGAAAGAGCCAATCTGGTCAAGTACGAGTCCCAGCGTCTGGGCAAGGATATCCTGTCCAGCGTGGACAACTTGGAAAGGGCTCTGCAGGTCAAGGCCGACGACGAGGCTTCCAGACAGCTGAAGAAGGGGATCGAAATGACCCTGGAAGGCCTGGTCAGAGCCTTGAAGGACAACGGCATTGAAGAAATCAAGGCTGACGGCGAAAAGTTTGATCCGACATTGCACCAGGCGGTCCAAAGCGTACCAGCTGAAAATGATGAGCAAAAAGGCCATGTCGTTCAGGTCCTGCAAAAGGGTTACGTCTACAAGGATCGTGTCCTGCGGCCAGCCATGGTTGTCGTTGCCCAGTAA
>LACTIS1119B1_02850 heat-inducible transcription repressor HrcA
ATGTTGACCGAACGTCAAGAACTTATTCTAAAGACAATTATTCAAGATTTTACCAAGACGCATGAGCCGGTTGGCTCAAAGACAGTCATGAATCAATTGTCGATTAAAGTGTCCAGCGCGACAATCCGCAACGAGATGGCGGTTCTGGAAGAGCATGGCTTGATTGAAAAGACTCACTCCTCCAGTGGCCGGGTGCCATCGACTGAGGGCTATCGCTATTACCTGGACAATTTGGTGCAGCCGCTGCAGCTGCCGGAAGAAATGTACAATCAAATTGGCTACCAGTTTGATCAGCCGTTCAACCAAGTGGACGAAATCGTCAAAGAAGCCGCCAAGATCCTGTCAGACTTGACTGACTACACGGCCTTTGCAGAAGGGCCGGAAGCCAAGAATGTCAGCATCACTGGCTTCAGAATCGTGCCACTGGCTCCCCGGCAGGTCATGGCTATTCTGGTAACCAGCGATGGCAGCGTCAAGAACCAGCTCTACACCTTGCCGCGGCACATCTCAGGGGATGAAGTTGAACAGGCGGTCCGCTTGATCAATGACAAGCTGGTTGGCAAGAATTTAAGCGAAATCAACAAGCAGACCTTTGAGCAGCTGTCCAGCAGCCAGATCGTGGGCAAGAATACCCCGGAATTTCTGGAATTGCTGGAAGCCGTCATTAAGGACGCGGCAAGCGAGCAGATGTATGTTGACGGTCTGCTGAACCTGCTCAACAATACTGAAAACAGCGATTTAAAAGCCATCAAGTCGCTATATGAACTGATCAATTCCAGCTCTCTGGCTGGAGAACTGATCGATCTGAGCGACAGTCCCAGCCATTACCCAGTTTATGTCCGCTTAGGAGCGGAACTAGAGAACGACTTGCTGAAGGATTTCAGCCTGGTAATGGCTGAATACAGTGTTGGCCGCTACGGGCGGGGGACGATCGCCCTGCTGGGCCCGAGACACATGCCTTACTCGGAAATGATCGGCTTGATGGAATACTTCCGCCAGGAACTAGCCCGCAAGTTGTTAGATTACTATGGCAGATTTAAATGTTGTTAG
>LACTIS1119B1_02860 riboflavin biosynthesis protein RibF
TTGAAAGTGATAAATCTAAGCTATCCGTTCAAGAAAGAGCTGACGGCTGGCAAGGTTGTTCTGGCCCTGGGCTTTTTTGATGGAGTTCATATCGGCCACCAGAAGTTGATCAAGGAAGCCAGGATAATTGCAGTTGAGAAGGATCTACCATTGATGGTGCTGACCTTTGACCGCCACCCCAAGGAGGTCTATGCCGGAGTTAAGGACTTTGAGTACTTGAACACACCGGAGGAAAAGGCCTACGAAATGTCCAAGATCGGGGTCGACTACCTGGTGATTCTCAAGTTTACGCCGGAGTTCAGCCACCTGGCTCCCCAGGCATTCGTTGATGAGATCATCATGGGCCTGAAAGCAGACACGGTGGTAGCCGGCTTTGACTACAGCTACGGCCCAAAGGACGTGGCCAATATGGAAAATCTGCCGGCCTTTGCCAAGGGTCGCTTTGACATCAAGGTGGTTCCAAAGCAGATCTTTGCCGGGAAAAAAATCGGTTCAACTGAAATCCGCCAGGCTGTTAAAAGCGGCAATCTCCGCTTGGCCACAGAACTTCTGGGCCACCCATATTTGACCAGTGGCAAGGTCGTCCACGGCTTCAGAAACGGCCACAAGCTGGGCTTCCCAACCGCGAATTTGGAGCTGGACTGGCCAAAAGTTTTGCCGAAAATCGGAGTCTACGCGACCATGACCCAAGTAGGGGACAGATGGTACCAGTCAATGACCAGTGTCGGCTACAATGTCACTTTCAATGATGAGAAGAAGATTTACATCGAATCCAACATCTTTGATTTTGACCAGGACATTTACGGCCAGCAAATCACCATCGCCTGGTACAAATACTTGCGCGGGGAAGAAAAGTTTGCCGACATGGCGGCTTTAAGCGAGCAGCTGAAGCTGGACCAAGTCGCTAGTGAAAACTATTTTAGTTCACTGATTGAGCAGTAA
>LACTIS1119B1_02870 integrase/recombinase family protein
ATGATAGTTTGGACTTCAAAAGTCCTTAAATATGCTTTCAAGGTCGGCCTAATAGATAGCAATCCTTTTGATCGTGTTATCGTGCCAAAAAAGCCAGCCAAAAGGAAGAAAGACAACTTCTATACTAAAGATGAGCTGGAAACATTCTTGAACGGTGCCAGGGATGTTGGAATGATGAAATATACTTTATTCCGCCTGCTGGCCTTCTCCGGAATGCGGATCGGGGAACTGATCGCTTTGGAATGGTCGGATGTTGATTTTGCAAGCCAATCAGTTTCCATAAATAAAACGTTAACGCTGGACAAGTACGGACAAGCGACGGTAGGGAGCCCAAAAACGACGAATAGCAATAGAGCGGTCTTGCTGGATGATGTAACGATGACCATTCTTAGACAATGGCGGGCTGAACATGCAAGGCGAATCATCTATTTTGGCAAGCCCCGCAATAACCTTGTTTTTGCTAGCGAACACGGGGGGCACCTAAGCAATGGCACAATTAAAGGCTGGAACAAAAAAATCGCTGAAAACAAGGGACTAAGGGCAATTAGTTTGCATGGGTTCAGACATACACACGCAAGTTTATGTTTTGAAGCTGGTTTGACTATGCAAGATGTTAAAGAACGATTAGGACATTCAAGCATTTCAACCACTGTGGACATTTACACTCATGTAACCAATGATAGAAAGGAAGAAAGTGTTCAACAACTAGCCAAATTCATGCGGGCTTAG
>LACTIS1119B1_02880 transposase
ATGGAATCTATTATAACTGATATCGTGAAAATTATTAAGTCTGAAAATAATGTTATTCCTCGTGAAAAGGCATTAATGTGCTGCTTCTTTGATTTGATTAGAGAATTAATGAAATTAGCACTAGAAGAAGTTGATGCCGGCTTAGTTGAAGAAACTAAAAAGCAAGGCTATCAGATTGAAAAGAAAAATAAGCGCTCAGTTGTGACTGCCTTTGGTGAGATTAGCTATTGGCGCAGAAGATATGCTTGTCCAGGCAAGAAGGCCCAATACCCACTGGATAAGCTGATGGGCTATGACAAATATAAGCGTTACAGTGTTTTGGCAGTGAAGGATATTTTGCAGGTTAGCGCCGTGGCAACTTACCGCAATACTGCTTTAGCTGTTAATACTCTCTCCTGTTTCAACTTATGA
>LACTIS1119B1_02890 cysteine synthase
ATGCTTATTCATTCCATTTCAGAACTGATCGGTCATACGCCACTGATTGATCTGCAAATCAACATTCCAAATCACAGTCACATTTACGCCAAACTGGAGATGTTTAATCCAGGAGGCAGCATCAAAGACCGCCTGGGCCAATACATGATTCAAGATGCGATTAATCGTGGTCAGATAACTGAAGGTGTAACAACAATTATCGAACCTACTGCCGGCAATACCGGAATTGGGGTTGCCCTTGCCGCTCGGCAACACCATTTGCCAACCATTCTGGTCGTACCGGAAAAGTTCAGTTTTGAAAAACAACAATTGATGAAAGCCTTAGGGGCAAAATTAATCAACACCCCCAGTGATCAGGGCATCAAGGGCGCCATTGAAAAAGCAGAAGCGCTTCACGATCAAACTCCTAACAGTTTCGTTCCAATGCAATTCAAAAATCCGGCCAACCCTGATACTTATTATCACACTCTGGCACCAGAGTTGCTTGACGACCTCAATGACCCAATTGACGCCTTTGTTGCCGGTGCGGGCAGTGGTGGGACATTTGCAGGCGTCGCTTGTTACTTAAAGGAGCAGAATCCGGCGACTCAAACCATCGTTGTGGAACCTGAAGGCTCAATTCTAAATGGTGGGCCTGCCCATCCCCATCGGACTGAAGGCATCGGTGTTGAATTTGTCCCACCATTTTTTAAAGATGTTCAAATCGACAAAACGTTAACAATTGCCGATGCCGACGCCTTTCATCAAGTTAAGGAGCTTGCCAAGAAGCAGGGATTATTCATTGGCAGTTCAAGCGGGGCTGCTTTGGCTGCCAGCTTAAAGGTTGCCAAGGCACTTCCCGAGAATAGTACCATTGTCACAATTTTTCCAGATAGCAGTGAACGTTACATGAGTGAAAATATTTATAATTAA
>LACTIS1119B1_02900 cystathionine beta-lyase
ATGGAATTTGATACAAAATTAATTCATGGTGGTATTAGCGAAGATAAAGCAACCGGAGCAGTTTCGGTGCCGATTTATATGGCATCAACTTTTCATCAGCAAAAAATCGGTGAAAATCAATATGAGTATTCTCGTTCTGGAAACCCAACTCGAGAAGCAGTTGAAAAACTAATTGCCGAGTTGGAAGGCGGCACAGCCGGGTTTGCATTTGCTTCCGGTTCAGCTGCAATCGACACAGTCTTCTCAATGTTCTCCGCCGGCGACCATTTCATCATTGGCAATGATGTCTACGGTGGTACCTTCCGATTGATTGACGCCGTTTTAAAACGCTTTGGCATGACCTTTACCGTGGTTGACACCCGCGACCTGGCCGCTGTTGAAGAAGCGATTACGCCAAATACCAAAGCAATTTACTTGGAAACGCCAACCAACCCGCTTTTACGAGTAACCGATATTGCAGCGGTTGCCAAGATTGCCAAATCGCACCAAATTTTAAGCATTATCGACAACACTTTCTCCTCGCCTTACATTCAGCGACCGCTGGAACAGGGAGTGGATATTGTTCTTCACAGTGCTTCCAAGTATCTTGGTGGTCACAGCGACGTCATTGCCGGGCTGGTCGTCACTAAAGATGATCAATTGGCCGAAAAAATTGGTTACCTTCAAAATGCCATTGGTGGTATTTTGGCCCCTCAGGAAAGTTGGCTATTGCAACGTGGGATTAAAACGTTGTCTCTTCGAATGCGTGCTCATTTGGCCAATGCCGAAGCCGTCTTCAATTATCTATCAAACCAGCCACTTGTCAGCAAAATTTACTACCCTGGCGATCCGAACAACCCTGATTACGAAGTCGCCAAAAAACAAATGCATGGCTTTGGCGCAATGATTTCCTTTGAATTACAGGACGGACTGGATCCAAAACAATTTGTTGAACAACTGCACGTTATCACATTGGCCGAGAGTTTGGGGGCACTGGAAAGCTTGATCGAAATTCCGGCCTTGATGACCCACGGCTCAATTCCACGTGACATTCGGTTGAAAAACGGCATCAAAGACGAGTTAATTCGCCTTTCAGTCGGCGTTGAAGACCAAAAGGATTTGTTAGCCGATTTGGAACGCGGCTTCAATGAGCTTAAGAGGAGCGAGAAAAATGTTTCAGACAGCAAGGTCCATTCTCAAGCGTGA
>LACTIS1119B1_02910 serine acetyltransferase
ATGTTTCAGACAGCAAGGTCCATTCTCAAGCGTGATCCGGCAGCCCACAGTCTTTTAGAAGTTCTCTTAACCTACCCGGGGATTCGGGCCCTGTTTTGGTACCGAATCGCTCACTTTATGGCTTTTCATCGACTTTATACAATTGCCGGGTTCCTAAGTCAACATGCCGCCAAAGTAACCGGGATTTCAATTTCGCCGGAAGCCCAAATCGGTAAGCGCGTTTTTATCGATCACGGGATTGGCGTTGTGATCGGTGCCACTGCCGTGATTGAAGATGACGTCACTATCCTGCATGGCGTGACGCTGGGTGCCAGGAGGGCCGTTGAAGGTCGGCGACATCCCTATGTAAAAAAGGGTGCATTCATTGGTGCCAACGCCCAATTGCTTGTCACCATTACGATCGGCGCCTTTAGTAAAGTTGGTGCAGGGGCAATTGTCCTGAATAACGTGGCCGATAAAACCACAGTGGTCGGCAACCCTGCCCGAACCGTTAACAAGTTACCCGCTAAAGTCATTAACGTGACCTTCACGACAAACACGTCAACCACTAAAAATTAA
>LACTIS1119B1_02920 acetoin dehydrogenase
TTGCAATTTGCTAATGTGTTACGAAAAAGAAGAAAAGAACTGCACTTAACCCAACAACATTTGGCTGGATATGAAGCTTCTGCTTTGCAAAGTGCTTATTCTGTTTCAAAATTTGGAATTCGTGGCTTGACTCAAGCTGCGGCCAAAGAATTGGCAGTAGATAAAATTACTGTTAATGCTTATAATCCAGGAATTGTTCGCACAAAAATGCGAGATGCAATTGATAAAAAAATTGGTTCAGTATAA
>LACTIS1119B1_02930 tRNA pseudouridine synthase B
ATGTTCAATGGAATTATCGTAATCGACAAGGCAGCAGGGATGACTAGCGGGGATGTGGTTTATAAGCTGCGCCGACTCTTAAAGCAAAAAAAGATCGGCCATGCCGGAACCCTGGACCCGGAAGTCACCGGAGTTTTGCCAATTGCTTTGGGTCAGGCAACCAAACTGATCGAGCTGATGCATGAGCGGCCAAAGGCTTATGTTGGTGAAGGGATGCTGGGCCTGGCCACGGACTCTTATGACCTGGAGGGGAAGATTTTGGCGGAAAGAGCCTTGTCTCAGCCAGTCAGTGACCAGGCCATCAAAGCAGCAATGGAAAAATTGACCGGGGAAATCGTCCAGCAGCCGCCGATTTATTCTGCCGTCAGGGTAAATGGCAAGCGGCTCTACGAATACGCCAGAGAAGGGATCCCAGTTGAGCGGCCCAAGCGGACTGTCCAGGTTTTCCGCTACGACTTGACGGCGCCAAGTCAGTTCGACCCAGAGAAGGGCCGGCAGACTTTTACTTATGAAGTTGAATGCTCTAAGGGGACCTATGTCCGCAGCCTGGTTAACGACTTAGGCGAAGAACTGGGCCTGCCGGCAGTGATGACCAAACTGCGGCGGACGGCCAGTTCCGGTTACGAGCTCCAAGACGCGGTTACTTTGGAAGAACTGGCGGATAATTTGGATCACGCTGAAGATTATATTCAGCCAATCGGCAGCTTTTTCGCTGACTACCAGCAAGTTGATTTAGATGCTGCCTTATGGCAGCAGGTTAAAAACGGGGCCTGGATCAAACTCCCTCTTGATGCAGACAAGGTCGCTTTGCGGTATAATAAAATAGTTAAAGCGATTTACCGGGCCAAGGTACAAGGTCTCTACTGCCCGGACTTAATGCTTTTAAGTAATGAGTAA
>LACTIS1119B1_02940 ribosome-binding factor A
ATGAAGCACAGAAAAGGACGGGTTGAAGGCGAAATCTTGCGGGAACTGACTAAGATCATCCGCAAGAACATCCGCGATCCCCGGGTCAGCAACGTGACTTTTACCGCCGTGGAGTGCAGCAATGATTTTTCATACGCGACTGTCTACTACAGTCTGCTGACTGAAGATGAACAGGCGCAAAAGGAAGCGGAAGCCGGCTTGGAAAAGGCTAAGGGAACCATGCGACACTTGCTCGGCCAGAGCTTGACCATGTACAAGGTTCCGGAACTGATTTTCAAGCGGGACCAGTCCGTGATCTACGGCAGCAAGATCGACCGTTTGCTTGCTGACTTGAAGAAGCAGGAACAAGATCGCCAAAACTAG
>LACTIS1119B1_02950 translation initiation factor IF-2
ATGACCAAGAAACAAGAAAACGAAACTTCAAAGGAATTGGGCATGGATAACAAGAAAACCAGCGGCAAGTCTGGTAAATTAAAGATTTCAGTCAGTGCTATTCGCAAGGGCGAAAAGAAGACTGAGGGCAAGAGATCAAACACCCGCCGCCGGGCTAACAACCACTCTAACGACCACAGCAAGCGCCGCCGGCCAGCTGCCCAGGATTTGCTGAAGGACCTCAAGCAAAAGCAGCGGGCTGACGAAGCCCGTCTGGACCAGGAAAGCAAGGCTGCTAAGCATGAATACAAGAAGTCCTTGAACAAGGCTGAGGCCAGCGAAAGCAAGCCGGTTGTCAAGAAGGTCGAAAGTGCCGAAAAGCCTGCTGAAACCGCAGCTGAAGCACCAAAGGTCCGTGGGCCAAAGATCTTGAAGCCATCCCCAGCCCGCTTGAAGCAAAACCAGGCAAACAGTGAAAAGCCTGCTGCCAAGCCTTCATCTTCTTGCCGGCCAAGTTCTCGGCCAAGCTTCACTGAAGCGCCAATGCCGGAAAACAAGGAAGGCCGCCGCAGAAAGAGTGGCAAGCCAGGCCGCAAGGGGCAAAACTCTTACGCTAACCAAGGCAGAGGGGCAAATAGCGACCGCAGTCAACAGCGCAAGCGCAAGAACAAGAAGCACCAAAGTGCTCCGCAAGTTAAGAAGCAGGTTACCCAAAGAAAGGACCGTCCACTTCCAGAAAGCTTTGAATACGAAGTTGGCATGAACGCCCAAGACCTGGGCAAGATCCTCCACCGGGAACCAGCTGAAATCGTGAAGAAGCTCTTCATGCTGGGGATCATGATCAACCAGAACCAGTCTTTGGACAAGGGCACCATTGAACTGCTGGCTGCTGACTACGGCATCGAAGCTGTTGAAAAGGTCCATGAAGACATTTCCGACATCGACAATATTTTTGCCCAGGAAATGGAAGAGTCCAAGAACTCTGAAAACCAGGTTGTCCGTCCGCCAGTCGTAACTATCATGGGTCACGTCGACCATGGTAAGACTACCTTGCTGGACCGTCTGCGTCACACTCGGGTTTCTGAACACGAAGCCGGCGGGATCACCCAGAACATCGGGGCCTACCAGGTCCGGATCAACGACCGTTTGATCACCTTCCTGGACACTCCAGGTCACGCGGCCTTCTCAAGCATGCGGGCCCGCGGGGCGGAAATCACCGACATTGTCGTTTTGATCGTTGCCGCTGACGACGGGGTTATGCCGCAGACTATCGAAGCCATCGACCACGCCAAGAGCGCGGGCGTGCCAATCATTGTGGCCATCAACAAGATGGATCGGCCAGGCGCCAACCCTGCCCACGTTACTGAACAATTGATGCAGTATGAACTGATTCCGGAAAACTACGGCGGCTCAACTATCTTCGTCAACATCTCAGCCAAGACCGGGATGGGGATTGATGAACTTTTGGAAAACATCATCCTTGAAGCCGATATGCTGGAACTGAAGGCTGACCCGAAGCAAAAGGCGATCGGTACGGTTATTGAAGCCCGTCTGTCCCGGGGCAAGGGGCCAGTTGCCGACGTTTTGATCCAGCAGGGTACCCTGCGGGTCGGTGACCCAATCGTTGTTGGTGACACCTTCGGCCGGGTTCGGACGATGACCAACGACAAGGGCCACCAGGTCAAGAAGGCTACGCCATCAATGCCCGTTGAAATTACTGGTTTGAACGACGTGCCGGAATCTGCCGACAAGCTGGTTGTCTTTGCCGATGAAAAGACTGCCCGCGCGGTTGGTGAAGCCCGGGCACAGCAATCCCTGCAAAAGCAGCGGGAAAACGTACAGCACGTTACTCTGGACAACCTCTTTGACACAATGAAGCGGGAAAGCATGAAGTCTGTTGACATCGTTTTGAAGGCTGACGTGCAAGGGTCTGCCGAAGCCTTGGCTCAATCCCTCCAAAAGATTGACGTTGAAGGCGTTCGGGTTAACATTATCCACTCCGGTGTCGGGGCCATCAATGAAAGTGACGTTACCCTGGCCAGCGCTTCAAACGCCTTAATCATCGGTTTCAACGTCCGGCCAACGGCTACGGCCAAGAGCCAGGCTGCCCAAGAAGGCGTCGATATCCGCCTTTACAGTATCATCTACAAGGCGATCGATGACGTTAAGGCCGCTATGCAAGGGATGCTGGAACCAACTTACGAAGAAAAGGTTATCGGTAACCTTACTGTCCGCGAAACTTGGAAGGTCTCCAAGATCGGGACCATCGCCGGTGCCTTTGTCGACAACGGTTACGTGACCAGAGAATCAGGCATCCGGGTCATCAGAGACGGCGTGGTCAAGTACGACGGCAAGGTTGCCTCACTGCGCCGGTTCAAGGACGACGTCAAGGAAGTCAAGGCAGGCTTTGACTGTGGTTTGACCATTGAAAACTTCAACGACATCAAGGAAGGCGACGAACTGGAAGCCTACGAAATGCAGGAAGTTAAGCCAGGTTAA
>LACTIS1119B1_02960 50S ribosomal protein L7ae
TTGCTTGGTTTGGCCACCCGGGCGGGGAAGACCGTTTCGGGCACGGACATCGTTTTGGCCAAATTGAAGAAGGGCAAGCTTAAGTGCATTATCATCGCGAATGATTTAGCAGAAAACAGCCGCGGCAAGATTGAAGCTGCTGTAAAGGCCCACCCAACGCCATTGGTCGACGTCTTTACGGAAGCTGAACTCAGTCAGGCTGTAGGTAAGAAACGCAAAGTTTTGGCATTAACAGATCGTGGTTTTGCGAAAACCTTGCTGGATAAGATTAAAGAAGGAGTGTGA
>LACTIS1119B1_02970 hypothetical protein
GTGATTTCCTTGAAAAAAAGAAAAATTCCCATGCGGAAGGACTTGTTGACCGATACGATGCAGCCGAAGAAGGATTTGGTCAGAATCGTCGTTGACAAGGAAAAGAATGTTTCTGTTGATCCAAGCGGCAAGAAGCCTGGTCGCGGCGCTTATGTTTCCTTAAAACCTGAGAAGATCGCTGCCGCCCGAAAGTCAAAGGTGCTGGAACGCAGTTTGGGCGTGAAGGTAGCCGATGAATTTTACGACGAGCTCTTCGCTTACGTGGACCACCAGAAGGCAAGAAAAGAATTATTTGGTGATCAAAAATAA
>LACTIS1119B1_02980 transcription termination factor NusA
ATGTCAAAAGAAATGCTGGAAGCCTTTGACGTCTTGGAAAAGACCAAGGGTATCAAACAAGACGTTATCGTTGAAGCCATGAAGGCTGCTTTGGCCGCTGCCTACAAGAAGAACTACGGCCTAGCGGAAAATGTCGAAATCGACTTTAATGAAAAGAAGGGCGATTTTAAGGTCATGGCTTTGAAGACGGTGGTTGACGAAGTGCAAGACGACCGGGTGGAAGTCAGCTTAAAGGATGCCCTGGCCATCAACCGGGCATACGAAGTTGGCGACACGATCAAGTTCGAAGTTACCCCAAAGGACTTCGGTCGGACCGCGGCAGCTACGGCTAAGCAGGTCGTAATGCAGCGCCTGCGGGAAGCGGAAAATGCCCACATCGTCAACGAATACTCCCAATACGAAGATGAACTGGTCACCGGGACAGTAGAAAGAACTGACAACCGTTTCGTTTACGTCAACATCGGCAATGTTGAGGCAGTTATGGACATCAAGCGTGACACTATTCCAGGTGAACACTACAACCCGCAAGACAGGGTCCGCGTCCTGGTCACCAAGGTCGGTGCTGACGGCAAGGGAGCCCAAATCCGGGTTTCCCGGACCGCTCCGGATGTCGTTAAGCGGCTTTTTGAACAAGAAGTGCCGGAAATCTTTGACGGGACCGTTGAAATCATCTCCATCGCCCGGGAAGCCGGCGAAAGAACCAAGATTGCCGTTAAGTCCAACGACCCGAACATCGACCCGGTTGGTACCTGTGTTGGCCCACGCGGCAGCCGGGTGCAGAACGTGGTCAACGAACTGGGCGGGGAAAATATCGACATCGTGCAGTACGAAGAAGACCCATCTGACTACATCGCCAATGCCTTGAACCCGGCCGAAGTCATCGCTGTCCAGTTTGAAGACGAAGACGATGAAAGGAAAGCCTTCGTGATCGTGCCGGACTACCAGCTTTCCCTGGCTATCGGCAAGAAAGGGCAAAACGTCCGCCTGGCCGCCCGCTTGACTGGCTACAAGATCGACATCCGGCCAGAATCCGAAGTCGAATTTGTTGACGAAAGCGAAGTAGAAGATGAAACTGAAGTAGCAGAAGATCAAGATCTCCAGCAAACAGAAGCTGAAGAAGCAGAAGACCTGGATCTTGACGATGAAGAATAG
>LACTIS1119B1_02990 ribosome maturation protein RimP
TTGCCAAAAAACTTAACACCTATCCTGGAAGCAATCGAACCGGTCATTATCGGTCATGACTGTGAACTTGTTGATTTGGAATACGTCAAGGAAAAGAGTCAATACTATCTGCGAATCTACGTTGACAAGCAGCCAAACGGGATTGACATCGAAACGATTGCGGAGCTGAGTGAGTTGGTTGGAGAAAAATTGGACTCAATGCAGCCAGATCCGTTGCCAGACCCGTATATTTTGGAACTATCCTCACCGGGCCTGGAAAGACCGATCAAGAAGGAGCAGGACTGGGAGAAGGCCAAGGGCCAGTACATCCATGTCGGCCTCTACCAGAAATTGGAAGGCGAGAAGGTCTTTGAAGGTCATTTGCTTGACCTGGACGACCAGGAGATTAAACTGGAAATTAAGATCAAGACCCGGCGCAAGCAGCTGACTATTCCGCGCAAGCAGATCGCCAGCGCCCGTTTTGCAATCGAATTTTAG
>LACTIS1119B1_03000 DNA polymerase III alpha subunit
ATGGGATATCCACGTTTTTTTACTACTCCACTGCGTTTTGAAAGCTACAATGCCTTGAACCAGGCAATTAAGCATGAATTTAATGACTTTGTTGATACTCGGCTCATAGTTGAAACGGCTGATGGCCAGCAGCAATACCTGCCAGACTACTGGCAGTACGCGGTTGAAAATTCAGAAGTCTTGTCCGCCAATCCGGCAGCCCAGAACTTCTTGGTCGGGCAGGCGCCCCATGAAGATAGTGGCCGCTGGGTTATTCCAATCAATGGCCAGCTTTTTGACAAGATGCTGGAGCAGCGGCTCTTGGACAGCTTCTCTTTAGAGCTGCGCGATTACGGCTTCTTTAACGTCAAGCTTTTGACGGAAGTTACTGACCAGGGCGGGCAAAGCGACTTTGAAAGCCTGGCCCAGCTGGTGGAAGCCCATGAGAAGAACATGCAGGAAGCCTTCCAGCAGGCCCCGGTCAAGCCAAAGCCAGCTCCCCTGCCCAGCTACCAGGGCCGGCGGGGTAAGAAGACCAGTTTTGGCCCAGGCGCCATCAGCGACAAGGCAGAGATTACCCAGTTGAAAGACTTGTCAGAAGACCAGCGCAGCGCGGTTGTCGAAGGCCATGTCTTCAAAGCGGAAATGCAGGAACTGCGGTCGGGCTCCTTTATTTTTTACGGGGAAATGACTGACTATACCGGTTCTATTTCTTTTAAGAAGTTCGTCCGTGATTCCGACAAGGAAGAAATCGAATATTTGAAAGGCATTAAGCCTGGTGTCTGGATCCGCATGCAGGGCAGCCTTAAGGATGACCAGTATGCCCATGACTTGATCTTCAACATCTACAGCATGGAATTAACCGAGCACGTGGGCCGGCAAGAAGCCTACCAAGGTGAAGAAAAGCATGTGGAATTGCACGTCCACACCAACATGAGTCAGCTGGACGCGACTAGCGATGTAGCAGACATCATCAAGACAGCCAAGAAGTTCGGTCAGCCGGCCGTCGCCATCACTGACCATGCTGGCCTGCAGGCCCTGCCGAATGCTTTTGAAGCGGGCAAAAAGACCGGGATGAAGGTCATCATGGGCCTGGAGGCCAACATGGTTGAAGACCACGGCCTGCTGGTTTTAAACCCCGCCAGCATGAAGTATGAAGACCAGGAATTCGTCATTTTCGACGTTGAAACGACCGGTCTGTCTTCTGTTTACGATACGATTATCGAAATCGGGGCGGTCAAGATGAAAAACGGTGAAGTTATCGACCGCTTTGACAAGTTCATCAACCCTCACCATCCATTGTCTGAAACTACGATTAACTTGACTTCAATTACGGACGAGATGGTCCAGGCGGCTGACGACGAAGCTGTCGTAATTAAGCAGTTCATGGACTTTTACGGCAATGACCCGCTCTGCGGGCACAATGTCCAGTTTGACGTGGGCTTTGTTAATGCGGCCTTGAAGCGCTGCGGTTATCCGGAAATCAGCCAGCCGGTCGTCGACACTTTGGAAGTTTCCCGCCTCCTGCACCCGGAACAGTCCCGTCACACTCTGGATTCGCTTTGCCGCAAGTACAATGTGGCCCTGGAGCACCACCACCGGGCCAACCAGGACGCTGAAGCAACCGGCTACCTGATGTTCAAGCTTTTGGATGCCTTTAACGACAAGTACCAGGAAGATGACCTGGGCAAGATGAACGACTACAGCAACGGGGAAGGCTACAAGCGGGCCCGGCCGACCCATATTACGGTCTTAGCCCAGAACCAAAAGCCAGGCCTGCGGAATTTATATGAACTGGTCTCCCTGGCCGGGATCAAATACAACTTCAAGGGGCTGAGAACCCCTAAGTCAGAACTCCGCCGCCTGCACGCCGGCCTTTTGTACGGGTCTTCCTGCAGCCAGGGGGAAGTCTTTATTGCCATGATGCAGAAGGGCTATGAAGAAGCCAAAAAGAAGGCGGAATTCTACGACTTTTTGGAAATCCAGCCGCCGTCAAACTACTCCAGCTTAATTGCCGATGGCTTGATTGCTGATGAAGCCCAGCTGGAAGAAATTCTGACCAATATTTACAAGCTGGGCAAGGAGCTGAACAAGCCGGTCGTGGCAACTAGCGATGCCCACTACATTGACAAGCATGAAGCCATCTACCGGGACGTATTGCTGGCTGCTCAAAGGGGTAACCCAAACCGCAACAAGCAGCACCCTGACTTGCACTTCTATACCACCCAGGAGATGCTGGATGAATTCAGCTTCATGGGCGAAGACATTGCTAAAGAAGTGGTCATTAGCAACCCGAACAAGATCAATGCCATGATCGATGAGGGAGTGCAGCCGGTCCAAGACGAAAGCTTCCCGCCAAAGATCCCGCATACGGCTGAACGGGTACGCAAGCTGACCTATGACAAGGCCCACGAACTTTATGGTGATCCTTTGCCGGACAATATCCAGGCCCGTCTGGACCGGGAGCTGGATGCCATTATCGGTAACGGCTACGGGGTTGTTTACCTGATTTCCCAGATGCTGGTGGCCAAGTCAGTTAAGGACGGCTACTTGGTTGGCTCCCGGGGTTCCGTTGGTTCCAGCCTGGTTGCCACCATGATGGGTATCACTGAAATCAACCCTATGCCGCCTCACTACCGCTGCCCGAAGTGCAAGCAGTCAGAATTTTTTGAAAACGGCGAATACGCCTCCGGTTTTGACCTGCCAGATAAAAAGTGTCCTGACTGCCAGGTCATGATGGTTAAAGACGGGCAGAACATCCCATTTGAAACCTTCCTGGGCTTCCATGGTGACAAGGTGCCCGACATCGACTTGAACTTCTCTGGTGACTACCAGCCAGTTGCCCATAATTTCATCAGAGTTATGTTTGGGCCAAACCACTCCTTTAAGGCCGGCACCGTAGGTACCCTGGCCGATAAAAAGGCGATTGGCTATGCCAAACACTATCAAGACGAGCACCCGGAAATCAAGATGAACAACGCGGAAGTTGACCGCCTGGCCATCGGGGTTACCGGGGTCAAGGCCACGACCGGCCAGCACCCGGCCGGGATCGTCGTTTTGCCGGATGATAAGGACATCTATGAACTGACTCCCCTGCAGTATCCCTCAGACGATATCTCCAAGGAATGGAAGACGACCCACTTTGACTTCCACCAGATCCACGACAACCTCTTGAAGTTCGACATCCTGGGTCACCAGGACCCGACCATGATCAGAATGCTGCAGGACTTGTCCGGGATTGATCCTTTGACGATTCCAACTGATGACCCTAAGGTCATGTCCCTTTTCTCCAGCCCGGAAGCCCTAGGCGTTACTCCAGAGCAGATCAATTCCAAGACCGGGACCCTGGGCCTGCCGGAATTCGGGACCCCCTTTGTCCGGGGTATGCTGGAAGAGACCAAGCCGTCGACCTTTGCCGAGCTTTTGCAGATTTCCGGCCTGTCACACGGGACGGACGTCTGGCTAGGCAATGCCGAGGAACTGATCAACAACGGCACTTGCAAGTTAAAGAGCGTGATCGGCTGCCGGGACAACATCATGACTGACTTGATCCGCTGGGGAGTTAAGGAAGAAGTTGCCTTTTCAACCATGGAAACTGTCCGGAAGGGGAAGGGGATTTCTGATGAGAACATGGCCGTCTTAAAGGAAAATAAGAATATTCCTGACTGGTATATTCCGTCTTGCTTGAAGATCAAGTACATGTTCCCGAAGGCCCACGCGGCCGCCTACATCTTGATGGCTCTCCGGGTGGCCTGGTTCAAGGTCTACTATCCAGAGATCTACTATGCCGCCTACTTCTCAGTCAGAGCCGACAAGGTCGACCTGGAAGCCATGAGCCGGGGCAAGAACACGGTTGTGGCCTTGATCAACCGGATCAAGGAAAAAGGGACGGCAGCGACCAAGCTGGAAAAGGACCTGCAGACCTACATGGAACTGGTCAACGAAGCCATTGAGCGGGGGATCAACTTCAAGATGGTCGACATCAACGAGTCTGAAGCTACGACTTACAAGATCGTGGACAAGCACACCATTCTGGCACCGTTTAACGCCGTTGACGGCTTAGGTGACTCCGCGGCCAAGCAGATCGTGGCTGCCCGAAGTGAAGCGCCATTTTTGTCAAAGGAAGACCTGCAGGTTCGTGGCAAGGTTTCCCAGAAGATCATGGACTTCTTTGAAAACAACAATGTCTTAGAGGGGATGCCTGACCAGAACCAACTTTCCCTCTTCTAA
>LACTIS1119B1_03010 prolyl-tRNA synthetase
ATGCGTCAATCAATCTTTTTCATGCCGACGCTGAAGGAAACTCCAGCCGACGCGGTTGCAAAGAGCCACCAAGTAATGCTGCGGGGCGGATACATCCGGCAGGTTACGGCTGGTGTCTACTCATACCTGCCGCTGGGTTACAAGGTCTTGCGCAAGACTGAAAAGATCATTGAAGAAGAAATGGCTAATGCCGGCGTCGTTGAAATGATCATGCCGCACATGCTGCCAGCTTCAATGTGGGAAGAATCAGGCCGTCTGCCAAAGTATGGCCCGGAAATGTTCCGTCTGAAGGACCGGCATGGCCGGGAAATGCTGCTGGGGCCAACCCACGAAGAAACCTTCACTGACGTGGTGGCTAAGAGCCTCAAGTCTTACAAGCAAATGCCCCTGCACCTTTACCAGATTCAAACCAAGTTCCGGGATGAAAACCGGCCACGTTTCGGTCTTCTCCGGGGCAGAGAATTTGTAATGCTGGACGGCTACAGCTTCGCGGCCAGCCAAGAACAGCTGGATAAGCAGTTTGATAATGAAAAGGCAGCCTACCTCAAGATCTTCAAGCGCACAGGCGTTGAAGTCCGGCCAGTTATCGCTGACTCCGGGACTATGGGGGGCAAGAACTCTATTGAGTTCCAGGCACCTGCCGCTGTTGGTGAAGACACTATTGCAACCAACGCTTCCGGTACCTACGCCGCTAACTTGGAAATGGCCGTCAGCGTTGATACCTTCAAGCAAGAGCCTGAAGAACTGAAGGCGATGGAAAAGGTTGCTACTCCAGGCTGCGACTCCATTGACAAGCTGGCAGAATTCTTGCAAGTGCCAGCCACCAGAATTGTCAAGAGCGTCCTCTACATCGTTGATGAAAAGAAGAAGGTTCTGGTTTTGATCCGGGCTGACAAGGAAGTCAACGAAGTCAAGCTGACTCACCTCTTGGACTGCGACAGCCTGCGGGTTGCTGAAACTAGCGACCTGGAAGAACTGACCGGGGCCGGAAAGGGCGGCGTTGGCCCGGTAAATGCTGACTGGGCTGACGAAATCGTGGCTGACGAAACTGTCAAGGGCCTCTATAACGTGGTCGTTGGTGCTGGCGAAAGCGATGCTCAATTCATCAACGCTAACTTGGACCGGGACTTCAAGGTTGACCGCTTTGCTGACCTCCGGGTTGCCAACGAAGGCGAACCTGACCCGGTTGACCATGAACCGCTCAAGTTTACTACCTCAATTGAAGTTGGTCATATCTTCAAGCTGGGGACCTACTACACGGAAACCATGGGGGCCAAGTTCCTGGACCAGAACGGCAAGTCCCAGCCAGTCATCATGGGCTCATACGGGATTGGGGTTACCCGCCTGCTTTCAGCCGTCGTTGAACAGTACGCGACTGAAAATGGGGTTGCCTGGCCAAAGGAAATCGCGCCATTCGGGATTCACATCATCCAGATGAAGATGAAGGATGAAATCCAAAGCAAGCTGGCCGAAGACCTGGAAGCCAAGTTTGCCAAGTATGACGTCCTTTATGACGACCGTAACGAACGGCCAGGCGTCAAGTTCAACGATGCTGACCTGGTTGGCGCGCCAATCAGAATTACTGTTGGCCGCGACGCGGCTGACGGGATCGTTGAAGTCAAGCGTCCAGGCGACGACCAGGCACAAAAGCTGGCCGTTGCCGACCTGGAAGACTTTATTGCCAACGAATTAGATTAG
>LACTIS1119B1_03020 metalloprotease RseP
GTGAAAAGTATTCTAGCCTTCATTATAGTTTTTGGCCTGGTGGTCTTTGTCCACGAATTCGGGCACTTTTTCGTGGCGAAAAAGGCCGGTATTTTGGTGCGCGAGTTTTCAATCGGCATGGGGCCAAAATTGGTTCAGTGGCGGCCTGGTCAAACGACTTATACCATCCGCTGGCTGCCGCTGGGCGGCTATGTCCGCCTGGCTGGTCCTGACGAGCAGAGTGAAATCGACCCGGGGACGGCAGTTGTCTTGGAACTGAATGAGGCTGGAATTGTTACGCGAATCGATGCTTCAGAATCAGACCTGCCGATCGAAGGCCGTCCCTTGCGGGTGACTAAGGCCGATCTGGTTGATGACCTGACCATTGCAGGGTATGAAAATGGCGATGAGAGCCAGCTGGTGACCTACAAGGTCGACCATGACGCGACCATGATCGACGACACAGACACCGAGCTGCAGATTACCCCCCGGGACGTGCAGCTGCCGGCAGCCAAACCATGGAAGAAACTGGCAACCTCTTTTGCCGGACCGTTTATGAATGTTGTTTTGGGCTTTGTGGTCTTGATGATCTACAGCTTTGCTTCAGTTGGCCCGACAACAACGACCGTGGGCCAGGTAGCGGCAAACTCCCCGGCCCAGCACGTTTTGCAAAAAGGCGACCAGATCGTGGCCATCAACGGCCGGAAGATTAATACTTTTGACCAGGTCAGCCAGGCGATTGACTCTTCTAAGGGTAAGACCCTGACGGTCAAGGTCAAGCGGCAGGGAAGCGAAAAGTCAGTCCAGCTGACTCCAAAGTACTCAAAGAAGACCAAGTCATACCTGGTTGGCATCGTGGCTAAGGCCGACAACTCATTTTCCGCCAAGCTGAAGCGGGGCTGGGACTTGAGCTGGCAGGTAACAGGAATGATCTTCCAGGCCCTGGGCAACTTGTTCAAGCACTTCAGCTTAAACAAATTGTCTGGCCCAGTCGGGATCTACTCGGAAACTTCAAAGGCAACTTCCATGGGTCTGACCTACATGCTGGCCTTTGTTGGCATGCTGTCCATCAACCTGGGGATCGTCAACTTGATCCCAATTCCAGGTCTGGACGGGGGCAAGCTTTTGCTGGAACTCATCGAGCTCCTGCGGGGCAAGCCGATTCCAGAGGAGCATGAGACAGTCGTTGACTTGATCGGAGTGGTCTTCTTGCTGATTTTGATTATCGCCGTAACTGGCAACGACATCTACCGCTACTTTATCAAGTAG
>LACTIS1119B1_03030 phosphatidate cytidylyltransferase
ATGAAACAAAGAGTAATTACAGCAGTTGTTGCTTTATTGATTTTTATCCCGGTCCTGGTTGCCGGGGGCATGTGGATTGACTGGCTGGCTGCCTTTTTAGCTGCCGTCGGCATCAGTGAAGTCTTCTTGATGAAGAAGCAGATCCTGGTCTCAGTTGGCTTTACCCTGGCTGCCCTGGCCACCTTGACCTGGACCGTGCCCAACTCCTTCTTTGGCTTTTTGCCAAAAAACTGGAGCAAGTGGGGCGTCTTCTATGCCTTCGTAATGATTCTTTTGACCTGGACGGTTCTGTCTAAGAACAAGACGACTTTTGACGATATCGGCGTTTACGTCCTGTCAAGTTTGTACATCGGGACTGGTTTCCACTACCTGGCTGCGATCAGAAACAGCGATCCAGTCCATGGTTTGTGGCGCTTGCTCTTTGCCTTCGTGATTGTCTGGACTACTGACACGGCTGCCTATATGGTTGGACGCAAGTTCGGCAAGCACAAGCTTTGGCCAGTAATCAGCCCGAACAAGACTTGGGAAGGGTCAATCGGGGCCGTGATCATCGCGGTTATCGTGACGGCAATTTATGTCAACCTGGCTCCAGTCGGCGGCGACAAGACCAGCTTGATCATTGCTTCCTTCTTCCTGTCAATCGCCGGCCAGATGGGCGACCTGGTTGAATCAGCCTACAAGCGCTTCTACGGGGTTAAGGACTCCGGCAAGATCCTGCCTGGCCACGGCGGGATCCTGGACCGGTTTGACAGCACGCTTTTCGTTTTGCCAATCGTTGCCTTGATCTTTGGAATTTAG
>LACTIS1119B1_03040 UDP pyrophosphate synthase
ATGCCGCGCTTCATGGGCCACAAGGCCGGGATGGACAACGTTGAAAAGATTGCGCTCGCGGCAGATGAGTTGGGAATTAAAGTCCTGACTCTTTATGCTTTTTCGACGGAAAACTGGGCCCGGCCCAAGGATGAGGTCAATTATTTGATGAACCTGCCGGTCAAGTTCTTTGACAAGTTCATGCCCCGCCTGCAGGCCCACAATGTTAAGGTCAACATCATGGGCTATCTGGATGCCCTACCGGAATCAACCAGGGAAGTGGTTGAGCGGGCCATGGCGGAAACCGCGGCCAATACCGGTCTGGTTTTGAACTTTGCTTTTAATTACGGGTCAAGAAAAGAAATTGTTTCAGCCGTGCAGGCTCTGGCAAAAGAGGCCGCCAGCGGGGAAATCACGCCGGAAGAAATTACTGAAGACATGGTCTCCGCCAAGCTGATGACCGCCAAGTTTGCCCCTTATTCTGATCCAGACCTCTTGATCAGAACATCTGGCGAGCAGAGAATCAGCAACTTCCTGCTCTGGCAGATTGCTTACTCAGAGCTTGCCTTTACGGACAAGGCCTGGCCGGACTTCGACGAAAACGACTTGGCCGAAATGGTTAAGATCTACCAGCACCGGGATCGGCGCTTTGGTAAATTAGATGAAACAGATGGTTAG
>LACTIS1119B1_03050 ribosome recycling factor
ATGAACAACGAAACGATTGCTAAAGCCAAGAGCAACATGAACAAGTCGATCGAAGTCTACCAGAGCAATCTGGCAACTGTCCGGGCCGGGGTAGCCAACGCCTCCCTTTTGGACCGGGTGATGGTTGAATACTACGGGGTACCAACTCCGCTGGTGCAAATGGCTGGGATCACCATTCCAGAACCACGGGTTTTGGTAATCACTCCATATGACAAGACTTCTTTGAACGATATTGAACACGCAATTTTGGCTTCAGACCTGGGCCTTACGCCAGCTAACGACGGTAACGTCATCCGCCTGGTTATCCCGCAACTGACCGGGGAACGGCGGCAGGAAATTGCCAAGGAAGTCGGCAAGCTGGCTGAAGAAGCCAAGATTGCTGTCCGCAATGTCCGCCAGGAAGCCATGAAGGCTTTGAAGAAGCAGGAAAAAGACGGCGAAATCACTGAAGACGAAGAACGGCGCCTGGAAAAGGAAGTCCAGAAGGTTACTGACGAATCAACCAAGAAGATTGACCAGATGGCTGACAACAAGCGCAAGGAAATCACTCAGGGTTAA
>LACTIS1119B1_03060 uridylate kinase
ATGAGTCAAGTTAAATATAATCGTATCATTTTGAAAATTTCCGGCGAAGCTTTGGCCGGGGAAAAGGGAACTGGCATTGACCCAACTGTGATCAAGAAATTGGCGCACGAAATTAAGCTGGTTCATGAAATGGGCGTGCAAATCGGCGTCGTCTGCGGCGGCGGCAATATGTGGCGCGGGGAAACCGGGGCCAAGCTGGGCATGGAAAGAGCTCAAGCTGACTACATGGGCATGCTGGCCACGATCATGAATGGCCTGGCCCTGCAAGATGGCCTGGAAACTGCTGGCGTGCAGACCAGACTGCAAACCTCAATCTCCATGCGGCAGGTAGCTGAACCTTACATCCGCCGGGTCGCAATCAGCCACATGGAAAAGAACCGGGTCGTTATCTTCGGCGGCGGCACTGGCAACCCATACTTCTCAACTGACACCACGGCTGCTTTGCGGGCAGCGGAAATTAACGCTGACGTGATCTTGATGGCCAAGAACGGGGTTGACGGGGTTTACACTGCTGACCCGAACCTGGACCCAAGTGCCAAGAAGTTTGCTGAACTGACCCAGCTGGACATGATCTCCAAGGGCCTGCAAGTTATGGACAGAACTGCCAGCTCCTTGTCCATGGACACTCATATTCCATTGATCGTCTTCAACGTCAACACTCCAGGCAATATCAAGCGGGTAGTTGAAGGCGAAAACATCGGGACGATTATCAGAGGTGACAAGTAA
>LACTIS1119B1_03070 translation elongation factor Ts
ATGGCAAACATTACTGCTAAGCAAGTCAAGGAATTGCGTGAAACCACTGGTGCCGGCGTCATGGACGCCAAGAAGGCCCTGGTTGAAGCCGAAGGCGACATGCAAAGAGCTATCGAAATCATCCACGAAAAGGGTGAAGCAAAGGCTGCCAAGAAGGCTAACCGGATCGCTGCTGAAGGTTTGACTGGCGTTTACGTAGACGGCAACGTTGCTGCTATCGTTGAAGTCAACGCTGAAACTGACTTCGTTGCGCAAAACGAACAGTTCAAGACTTTGGTCAACGAAACTGCTGAAACTATTGCCAAGGGCAAGCCAGCTAACAACGAAGAAGCTTTGGCATTGACCATGCCTTCAGGCGAAAGCCTTGAAGAAGCATACGTAAATGCTACTGCGACTATCGGTGAAAAGATTTCCTTCCGCCGTTTCGCTGTTCTTGAAAAGACTGATGACCAACACTTTGGCGCTTACCAACACAATGGCGGCCACATCGGCGTTTTGACTGTTGTTGAAGGCGGCGACGAAGCCGTGGCTAAGCACATTGCAATGCACATTGCCGCAATGAGCCCAAAGGTTCTGTCCTACAAGGAACTTGACCCAGCTTTCGTCCTCGAAGAACTGGCTCAACTTAACCACAAGATTGACCAAGAAAACGAATCACGTGCCATGGTCAACAAGCCAGCTTTGCCACACCTTAAGTATGGTTCAAAGGCGCAATTGACTGACGAAGTCATTGCTCAAGCTGAAGAAGACATAAAGGCAGAACTGAAGGCTGAAGGCAAGCCAGAAAAGATCTGGGACAAGATCATCCCAGGCAAGATGGCCCGCTTCATGCTGGACAATACTAAAGTTGACCAAGAAAACACCTTGCTCGCTCAACTTTACGTTATGGACGACAGCAAGACTGTTGAACAATACCTTGAATCAGTCAATGCTTCCGTAGTAAGCTTTGTTCGTTTCGAAGTCGGCGAAGGCATCGAAAAGAAGCAAGAAGACTTTGCTGCTGAAGTTGCTGCACAAATGAAGAACTAA
>LACTIS1119B1_03080 30S ribosomal protein S2
ATGTCAGTTGTATCTATGAAGCAATTGCTTGAAGCTGGTGTACACTTTGGTCACCAAACTAGAAGATGGGACCCGAAGATGAAGCCATACATCTTCACTCAAAGAAACGGGATCTACATCATCGACCTGCAAAAGACCATCAAGATGCTTGACGACGCCTACAACTACGTTAAGGCTGTTGCTCAAGACGACGGTGTTTTCCTGTTCGTTGGTACCAAGAAGCAAGCTCAAGAAGCAATCGCTGAAGAAGCTACCCGTGCAGGTCAATACTACGTCAACCAACGCTGGTTGGGTGGTACTTTGACCAACTGGACTACTATCCAAAGCCGGGTTAAGCGTCTGAAGGACTTGAAGAAGATGGCTGAAGACGGCACCTTCGACGTACTGCCAAAGAAGGAAGTTTCTTTGCTGACCAAGGAAATGGACAAGCTGCAAAAGTTCCTGGGCGGTATCGAAGACATGCCTCGGATTCCTGACGTAATGTTCGTCGTTGACCCTAAGAAGGAAAAGATCGCCGTTCACGAAGCTAACAAGCTTGGTATCCCAGTTGTAGCCATGGTTGACACCAACACTGACCCAACTCCGATCGACGTAATCATCCCTTCAAACGATGACGCTATCCGTGCTATCCGCTTGATCGCCGGTGCTATGGCTGACGCCATAATCGAAGGCAAGCAAGGTGCAGATAACGCCGACGTTGAAAAGGAATTGTCTGAAAGCGCTGAAGAAAACTCTGCTGAAGAAGTAGACGACGCTGAATAA
>LACTIS1119B1_03090 O-methyltransferase
ATGATTGAACTAAAGGAAAATGAACGTATCGATTACATGCTGGGCGAGCAGCTGAAAATCATCCAGGACGGGCAGTCTTTTGCCTTTTCCCTGGATACCCTGCTTCTGGCTTACTGGGCCAAAGAAGCCATCAAAAACCGGTCCAAGGTGGTTGAACTCTGCAGCGGCAACGCGGCAGCCAGCCTCTACATGGCTGCTTTTAACAAGGCCCATTACGACGATGTTGAACTGCAAGAAGACATGGTTTCCAAGGCCCGGCGGTCGGTTGAATTAAACGACATGCAGGACCGGATCACGGTCTACCAGGGCAATGTCAAAGACGCGGGCAGCTTTTTGCGAAAAGACAGCTATGACGTCGTCGTGGTCAATCCGCCATATTTCAAGGCCCCGGCCGGCCACAAGCTGAACCCGGACCGGTCTAAAGCCATTGCCCGCCATGAACTGGAGATCAACCTGGAAGAAATCATCGCCGTTTCCGCCGGCCTCTTGAAAATGAAGGGGAAGATGTTCATGGTCCACCGGCCAGAGCGGCTGGGTGAGATCATCAATTACGGCTTTAAGCATGACCTGGCCGTTAAGACTGTTCAGCCCTTTGTCTCCAGAAGAGGGCAAGACGCCAATTTAGTCATCGTTGAAGCGGTCAGAAGCGGGAAAGGCGACGGGCTGGTTCTGCGCGACGCCATCGAAGTCCATGAGGCAGACGGCAGCAATACCCCGGCCATCAAGGAAATTTTAGAGGCCAAATTGCCAGAGGAAAAGCATTACTTTTATGTCCTTTTATGCAGCGACGGCAGCTTTTACGGCGGCTACACCAATGATTTAAAGAAAAGGCTGGAGGCTCATAATTCTGGTAAAGGGGCCAAGTACACCAAGAGCCGGCGGCCGGTTGAAATGATCTATCTTGAAGAATATGCCGACAAGCGGACGGCCATGCAGCGGGAATATTGGTTCAAGCATCATGACCGGGCCTGGAAGGAAAAATTTTTGCACGAGCAAGGGGTTAAATTTTAG
>LACTIS1119B1_03100 1-acyl-sn-glycerol-3-phosphate acyltransferase
ATGCTTTATCGTATTTTCAGACCGATCGCCCGCTTCATCGTCTGGGTCTTAAACGGCCACCTGCATGTCCACCACAAGGAAAGACTGCCCGAAGGCACCTACATTTTGGTTGCCCCCCACCGGAACTGGTGGGAGCCGATTCTTTTCGCCCTGGCCGCCAGCCCTACGGAATTCATGTTCATGACCAAGCAGGAGCTGTTTAAAAATCCGGTCCTCAGCTGGATCTTAAACAATGCCCACGCCTTCCCGGTCAACCGGGAGCATCCAGGTCCTTCCGTTATCAAGATCCCGGTCAAGGGCTTAAAGTCAGAAGGCCTGTCTTTGATCATGTTCCCATCCGGCACCCGGCACTCAGCCTCCCTTAAGTCCGGCGCCCTGGTTATCGCCAGAATGTCCGGCCGGCCCCTGCTTCCGGCTGTCTACCAGGGTCCGCTTACTTTTAAAGGGGTCTTACAAAGAAAAGGCATGGAAATCAACTTTGGCAACCCGATCGTCATTGACCGCAAGACCAAATTGACCCCGGAAACCGAAGCTGCCTACAACCAGCAGTTGGAAGACGCCTGGAAGCGGATCGACCAGGAACTGGATCCGGATTTCCACTATGAAGCTAAATAA
>LACTIS1119B1_03110 aspartate-semialdehyde dehydrogenase
ATGAAAATTGGTATTTTAGGAGCTACAGGGGCCGTTGGCCGGCAGATGTTGGAATGTATTGAAGAAAGACAATTGCCGGTTGAAGAACTGCGCGTTTTTGCTTCCGAGCGCTCCAAGGGTAAAAAGCTGCCCTTTGCTGGCCAGGAATTGACCCTGGAAGTGGTCAGCCAGGAAAGACTGAATGGCCTGGACTACGTTTTGGGGGCAGTTTCTAACAGCCTGTCTAAGGAATACCGGCCCCTGGTCGAAAAGAGCGGGGCAGTCTACATTGACAACAGCTCAGCCTTCCGGCAAGAAGACGGCGTGCCTTTGGTAGTTCCTGAAATTAATGGCCAAGATGCTTTAGACCACCACGGCGTGATTGCCAATCCCAACTGTTCAACTGCCATTACCTTGATGGCTCTGGCTCCAATTGCCAAGTTATCTCCGATCAAGGCTATCAACGCCTGCACCTACCAGGCCGTTTCCGGTGCCGGCATGGGCGGGATCAGCGAACTGAAGGATGAAGTGACGGCTTTGACCAAGGGCGAGAGCGTGGAAGCCAAGGTCTTCCCGGCCCAGATCGCCTTTAACGTCATCGCTGACATTGGCAGTCCTTTGGAAAACGGCTATACGACTGAAGAAATGAAGATGCAGAATGAAGGCAGAAAGATCTTGCACTTGCCAGACTTGTTGGTGACCTGCACCTGCGTCCGGGTCCCGGTCTACCGGTCCCACTCAATTGCGGTGACGGTTGTCACTGAAGAACCGGTCTCAGTTGAAGCTGCTGAAAATGCCATCGCGGCTTTTGACGGCGACCTCCTGGTTACTGATTACACTCCAACTCCCCTGGAAAACTCCGACAAGGATATCGTGCAAGTCGGCCGCCTGCGCCGGGACTTGACCAACCCTAACGGCCTTACTCTTTGGTGCACCGGCGACCAGATCAGAAAGGGGGCGGCAACCAACGCCGTCCAGATTATGGAATACCTGGAAAATAACAAGTAA
>LACTIS1119B1_03120 aspartate kinase
ATGAGTAAAGCAGTCAAATTCGGCGGCTCTTCAGTCGCCAATAGCGAACAGTTTAAGAAGGTCAAGCAAATCATTTTGGCTGATCCGGACCGCAAGTATGTGGTGACCAGCGCCTGCGGCAAGAGCGGGCAGGAGGACCATAAGGTCACCGACCTCCTCTACCTCTGCGCGGCTCACATTACCTATGACGTCAGCTATGAGTCGATTTTCCAGTCTATCGTGGACAAGTACATGGAAATCAAGCGCAGCCTGGGCCTTAAAATCGACTTGGCTGGAGAATTCGCCAAGATCCGGCAGAACATGGCCCGGAACTTGAACCTGGACTACCTGGTTTCCCGGGGCGAATACTTGACCGGCCTTTGCCTGGCTGAATACCTGGACGCAGACTTTGTTGACGCCAGCTGGGTGATCCGTTTCCATTATGACGGCTCAATTGACCTGGATAAAAGCCAGGAACTGTTAAAAGCCCAGGTTGACCCGGGCCGGCGGGTGGTGATCCCCGGCTTTTACGGTTCTTTGCCAAATGGGGTGATTAAGGTCATGAGCCGGGGCGGGTCAGACATTACCGGGTCAATCGTGGCCAATGCCTTCGACGTTGACGTCTATGAAAATTGGACTGACGTTTCGGGCTTTTATGTGGCCGATCCGCGCATTATCAAAGATCCTGTCCAGATTCCCCGGATTACCTACTCAGAATTGCGGCAGATGAGCTATATGGGAGAAAATGTCCTGCATGACGACGCGGTTTTTCCCGTCCGGCAGAAAAACATCCCGATCAATGTCTGCAACACCAATCATCCGGAAAATCCTGGCACCATGATCATGAATGATTGCAGTGAACTTGACGCGCAAGAGCCGCCTCATGTCATCACCGGGATTACAGGCAAGCAGGACTTTACGGTCATCACCATGGTTAAGTCGCATGTTTCAGCTGAGGCAGGCTTCTTACGCAAGGTCTTAGCCGTTTTTGAAAAATTTCAGATCTCGATTGAAAGCGTTCCGGTCACGGTCGATACCTTTTCCATTGTGGTCCAGACCAAGAAAATCGAGCGCTATCTCTATGAGATCGTGGCGGAATTAAAGCAGGACCTGCACCTGGACGATATCCAGGTCGAAAGCCAGCAGGCCATGCTGGCCGTGGTTGGCCGGGCCATGCGGCAAATGCCGAAGGCGATTTATCAGCAGTTTATTAGTGAAGAAAGAGTGGAACGATAA
>LACTIS1119B1_03130 homoserine dehydrogenase
ATGCAAATTGCAATCTTAGGCCGTGGCGTGGTTGGCGGCGGCATTATCAAGCTGGTTGAAGAGGCTGAAACTCCGCTTTTGCGGAAGATTAAAATAAAAAAAATCCTGGTCCACAGAGATGAACAGATCCTGGATGACCAGCATACGACTGACTTTGTGGAAATCGTGAACGATCCGGAAATTTCAGTGGTTTGCGAGTGCATCGGGGGGGTAGAACCGGCCCACAGCTATGTTAAGCGGGCCTTGGAAGCCGGCAAGCACGTGGTGACGGCTAATAAGAAGATGCTGGCGGTCTATGCCGGCGAGCTATTTGACTTAGCCAGGCAAAAGGGCCTGGTATTGGCCTATGAGGCCAGCGTTGGCGGCGGCATCCCCTGGATTGACAACATCAAGCACATTCAGCGCCTAGAGCCGGTCACGTCCTTCCAGGGAATTTTTAACGGGACCAGCAACTACATCCTTTCCCAGATGGCAGAAAAGGACCTGGACTTTGCTGCTTGCTTAAAAGAAGCCCAGGAGCTGGGCTACGCGGAAAAGGATCCCAGCGATGACATCGACGGCGGGGACGTCTGCTACAAGATCTGCTTGTCAGCCTTGACTGCGTTTGGCAAAATTGCTGATCCAAGCCAGGTTGACCAGTGGGGGATACGGCATTTGACCAAGGAAGACTTTGCCTGGGCCAAGGCAAATGGCCGGACCATCAAGTTGCTGGGCCGGGGCCGGCAGGCAGGTGAGAAGCTGTCCTTGCAGGTTTTGCCGGTCATGCTGAAAAAGACCAGCCTTTTAGCCGGAGTGGGCCTTAACTTCAATGCCCTGGAAACTGATTCCGCCTCCCTGGGTCCGGAAACCTTCGTGGGCCAGGGGGCAGGCTCTTTGCCAACCGCCCACGCGGCTGTCCAAGACCTCTTGGATCTGGCTGAAGGGAAAAAGGGAATCGTGCAAAGTGCTGAACCGGGTCAGCTGACTGATGAAGAAGAGCAGACTTTCTACCTGCGGACTAACCGGGCGGATTTTTTCCAGGATGTAGTAGCAGAAAGAATCAGCGAAAAGGCATTTTTGACCAAAAAGCTGACTTTGGCGGAAATTTCAAGCCTGGTCAAGGAAAGCGGGGACCCGGCGGCCTTTTTGGCGGGAGTGGCAGATGAGTAA
>LACTIS1119B1_03140 ACT domain-containing protein
ATGGCCGACTATTTTTACGTTCATAAAAAGATCCTGCCCAACTATCTGGAGAAGGTCCTAGAGGCAAGGGAAATGCTGGACAGCCGGGAAGCAGCCACCGTCACCGAGGCGACTGAGCGGATCGGCATCTCCCGCAACACTTATTACCGCTATAAAGACTATGTTTTTAGAGCCAAGGACCCTGCAAGGGGCCAGCAGGCGGTCTTGTCTCTGCTTTTAGCTGACCTGCCTGGGGCCCTGTCAGCCGTTTTGACCTGCGTGACCGACCACCGGGCCTCGGTTTTGACTATTTCCCAGGCCATCCCTTTGGCCAGCCACGCCAGCGTCTTGATGTCCCTGGACCTGGCCGGCCTTGAAGGAGACATCAACATCCTTTTGGCTGATTTGAAAAGTCTCCCCTTTGTTAAAAATCTCCAGCTTGCCGGATTAGAATAA
>LACTIS1119B1_03150 multidrug ABC transporter ATP-binding and permease protein
ATGACGATGAATAATGAGGACTTCCAGTCAGTCTGGCAGCAGCCGATTTCGACCAAAGAGCAGGGGCAGATTTTAAAGCGGCTCTGGACCTTTGTTTGGCTTTACAAGGGGGAATTACTGACTGCCGTCTTAGGGATGGTGGCAGTTTCCGCGATCAATATGCTCTTGCCGACCTGGCTGCGGTATTACATGGACCACTATTTGAAGGCGGGCAAGGTTGACTTCAGCACGTTTTATTATGTTGCCTTGATCTACGGCATTGGCGTGGTATTTAAGGCGGTCTGCCAATTTACCTATGAATACCTTTATGCCCTGGCCGGGGAAAAGGCATTGGAAAAGATCCGCCGGGTCCTTTATGCAAAAATTCACACCCTGGGGATGCGGTATTTTGACCAGACTCCAGCCGGGTCGATTTTGTCCCGGGTAACCAACGACACGATGACCCTGGGCAACTTTATGCAGGTTTTCTCTGCCTTTCTGTTAGGGATCGTCTCCATGGTAACCGCCTTGATTGCCATGTATATGGCTGACCCGGTGGCCGGGGGGATCGTGACGGCCTTTATTCCACTTATCGTTGGGGCAATCTGGCTTTATAACCGGGTCAGCTCCAAAATCTACCACGAATACCGGGCCCGCAACTCTTTGATCAACACCAAGCTGGAAGAAAGCATTGCCGGAATTTCCGTGATCCAGCAGTTTCGCCAGGAGAAGCGGATAGACGATGATTTTGAAAAAATCAACCGCCAGCAGATGCAGACCCGCTTCAAGCTGATCAGAACCAACGGCCTGCTCTTGTCGCCGTTTACGACCCTGCTCTATTCGTTGGCCTTAACCTGCGTTTTGGTCTGGTTCGGTTGCCCCCTCCGGGCAACTTTTGTCCCGGCCGGGATGATCTATGCTTTTGCAAACTATGTGCAGAACTTTTTTAACCCCTTGTCGGACATGATGAACTCGCTGACCTTCTTTACCGACGGGATCGTGGCTGGCAAGCGGATCTTCAAGATTTTGGACCAGGAAGAATACGAGCCTGAGCAAAAAGAGCTGGCCAACGCCAAGATTACGGAAGGGAAAATTGAGTTTAAGCATGTGTCATTCTCATATGACGGCAAGCATGACGTTCTCCGCGATGTTTCCTTCACCCTTAATCCAGGCGAGACCCTGGGGATCGTTGGCCACACGGGTTCAGGCAAGAGTTCAATCATCAACGTGATGATGCGCTTTTACGAATTTCACTCGGGCCAGATCCTTTTGGACGGGATCGACATCCGGAACTTTTCCAAGGCAGAATTACGGCAAAAAATAGGCCTGGTTCTCCAGGAACCCTTCATGTTCTATGGGGACGTGGCTTCCAACATCCGCTTGTACAATGACAAGATCACTGATGAGCAGATTGAAGAAGCCGCCAAAACTGTCCAGGCTGACCGCTTTATCGAAAAATTGCCTGGGAAATACCATGCCAAGGTCATTGAAGGCGGGTCGGAATTCTCCAGCGGGGAAAGACAGCTGATTTCCTTTGCCCGAACCCTGGTAACCAATCCTAAGATTTTGATTTTGGACGAAGCAACGGCCAACGTGGACACGGAAACAGAAAGTTTGATTCAAGCAGGACTCAAAAAGCTCCGCCAGGGCCGCACGACCCTGGCTATTGCCCACAGCCTGTCAACGATTGCTGATGCTGACCAGATCATTGTTTTAGACAAGGGGAGAATCGTCGAACACGGCAAGCACGAGGACTTGCTGGCCCAAAAGGGCTACTACTATGACCTTTACACCCTCCAGAAAAACCGGGAAAACTAA
>LACTIS1119B1_03160 multidrug ABC transporter ATP-binding and permease protein
ATGGATACTTTCAGCAAGCTGGGCTGGTTCTTTAAAGCCCACCGCAAGCGCTACGCCTTAGGGATCACGGCCTTAGTCCTGACTTCGGCAGCCAACCTGGTCCCGCCGCGGATCCTGGGCATGATGGCTGACCAGCTGGATACGGGGAGAATCAGCTGGCAGCAATTTTTTAGCTATGTTCTGGCAATTTTGCTGGCGGCTTTGGCCCTTTATGTCTGCCGCTATTTCTGGCGCAAGCAGATTTACGGCGGAGCGGCGATTTTGGAAAAAGAACTCCGCGGCCGGCTCTTCTGGCATTTTATGCAGATGGACCGGACCTTCTTTCAGCGCTACCGTACCGGGGACTTGATGGCCCGGGCAACCAATGACGTCCAGGCCGTGCAGAACGTAGCAGGTGACGGGATCTTGACTTTGATCGACGCGATTTTTACCGGGGGGACCACCTTGCTGGCCATGATGATCCTGGTAGACTGGCGCTTGACCCTGGTGGCCATGCTGCCGCTGCCCCTTTTGGCCTTCTGTGCTCGCTACCTGGGTGATCGCCTGCATGACGCCTATATGGATTCGCAGGCGGCCTTTTCCCGCTTGAACAACAAGACTCAAGAATCCTTGTCTGGGATTAAGGTCTTGAAGACTTTTGGCCAGGGAAAGGAGGATGCGGCAGCTTTTAACAAGATGACCTATGAAACGGTAGATATCAATAAAAAGGTCTTCCGGATCGACTCACTCTACGACCCAATGATTACCATGATCATCGGGATTACCTACATCATTACCATCATCTACGGTGGCCGGCTGGTTCTCAGCAAAGCGATCAGCCTGGGCCAGCTGATTTCCTTTCTGTCCTACATTGGGGCCATGGTCTGGCCAATGTTTGCCATTGGCTACCTGTTTAATGTTCTTGAGCGGGGGAGCGCCAGCTACGACCGGATTATGAGCCTGCTCAATGAAAAATCTTTGATCGTGGACTCAGATTCAATGGACAAGGAGCAGAAGCTGACTGGAGATTTGCACTATCACGTGACCAGTTTTGCCTACCCGGATGAACCAGACAAGGCTGCCTTGGGGGCAGTGGACTTTGACTTGAAAAACGGGCAGACTATCGGCCTGGTTGGCCGGGTTGGCTCAGGCAAGACGACCATTATCCAGCTTTTGATGCGGGAGTTTGATAACTACAAGGGCCGGATCACTTTTGCCGGCCACGACATCCGGCAGATTCCCCTGGACGTCTACTTAAAAGAAATATCTTACGTTCCCCAAAACAACTTCCTTTTCTCCATGTCGGTCAGAGACAATATTGCCTTTGCCAAGCCGGATGCCAGCCAGGAAGAGGTCGAAGTGGCGGCTAAAAAGAGCGCCCTTCACGACGATATCCTGGCCTTTCCAAATGGCTATGAGACCATGATCGGGGAAAACGGGGTTTCCCTGTCGGGCGGGCAAAAGCAGCGGATGTCGATTGCCAGAGCCCTGCTTCATGACAGTGAAATCTTGATTTTGGACGATGTTTTGTCAGCTGTTGACGCCAAAACTGAAAAGGCGATCTTGACTAAGCTTCGGCAAGAACGGGAAAAGAAAATTACCGTCATCGCTGCCCACCGCTTAAGCAGCGTAATGGATGCTGACTTGATCATGGTCATGCAGGACGGGCAGGTGGCAGAAAGAGGGACGCATGAAGAATTGCTGGCCAAGGGGGGCTGGTATGCCCGGATGTGGCAGCGGCAGGAATTAGCCCAGGAGGTAGGTGAAGATGACGATGAATAA
>LACTIS1119B1_03170 hypothetical protein
ATGAATTTAGGTTTGGCGATTTTCTTGATTATTTTGGCAGCTCTTCTGGGTGCGGTTGCTGGTTTTTACGGTGCCCGGACTTACATGAAGAACTACTTTAAGAAGAATCCCCCGATTACCCGGGAAATGGTTGAAACCATGATGTCACAAATGGGCCAGAAGCCTTCAGCCAAGAAGGTCAACCAAGTGATGAACATGATCAAGCATCAGGCAGCTAAGAACTAG
>LACTIS1119B1_03180 hypothetical protein
ATGACAGAAGCAGATCAAGTCAGAAAAAGAATCAATGAATTATACAAGAAGAAGCAGGAAAGCGGCTTGACGGAGGCTGAAGAGGCTGAACGCAAAGAACTGCACAAGCAGTTTATCGCCAACTTCCGGGCAGGTTTCAAGCAGCAGCTGGACAGCCTGGTAATTGTTGACGATCAAGGCAAGGACGTTACGCCGGAGAAAGCCAAGCAAATTCAGAAGAAAAAGCTTCTCAGATAA
>LACTIS1119B1_03190 LexA repressor
ATGGCAACTCACGACTCAAAACAATTAGAAATTCTGCAATACATCTACGATACCGTTGAAAACCGCGGCTTCCCGCCGACGGTCCGGGAAATCTGCGCGGCAGTTGGCCTGTCTTCAACCTCCACTGTCCATGGCCATTTGACCAGACTGGAGCGCAAGGGCTACCTCATCAAGGACGCCACCAAGCCCCGGGCTTTGGAAATCACCCACGCCGGCCTTGACGCCTTGGGCATCAAGCCTAAAGACATTCCGGTCATCGGGGTTGTTACCGCCGGCCAGCCGATCCTGGCTGTCCAGGACGTGGAAGACTACTTCCCGCTTCCACCGAACCTGGCCAGTGATGCCGGTGAGCTCTTCATGCTCCGGGTACACGGCACCTCAATGATCAATGCCGGTATCTTGAACGGGGACTATGTCATCGTCCGCAAGCAGACTACGGCCCAGAACGGGGAAATCGTGGTCGCCATGACTGATGACGGGGAAGCAACAGTCAAGCGCTTCTTTAAAGAAGACCTCCACTACCGCCTGCAACCGGAAAATGATGCCATGGATCCAATTATCTTGAACCATGTACAAATTTTGGGCAAGGTCGTCGGTCTTTACAGAGCAAATATTGATTAA
>LACTIS1119B1_03200 glucose uptake protein
ATGAATATCATCATTGCCTTACTGCCAGCCATCGGCTGGGGGGTTATGCCTTGGATCGTCAACAAGGTGCCAAACAGTAAGCCGGCCAACCAGATCTTCGGCGTCGGCATGGGGGCGACTATTGTCGGCATCATCGTGACTTTAATCCAGCATCCGGCCATTTCCATGCCAGTTTTCTTCCTGTCCCTTCTGTCCGGTGCTTTATGGACGATCGGTCAAATCGGCCAGTTCATCTCCTTCACCCGGATCAGGGTCAGCAAGACCATGCCGATCTCAACTGGCCTGCAGCTGGTCGGCAATACCATCATCGGGGCTTTGATCTTTGGTGAATGGAAGACCAGCAACAACTTTATCTTCGGGATCATTGCCCTGGTCATCATCATGGTCGGCGTCATCTTGACCGCCTACACTGAAAAGGGCGACGGCTTCACTCAGAAGACCACCAACAAGGACATCCTCTTCCTGGTCTTGACCACGATCGGCTACCTGGCCTACTCTGCCTTCCCGAAGACGATTACGGCAGACGCTGAATCCATGTTCCTGCCGCAAACCCTGGGGATCCTGCTGGGGTCTGTGATCTACCTGGCCTTCAGCGGCAACAAGGCTGCCTTCAAGGAAAAGGCCAGCTACCTTGACCTCTTTGCCGGCATCAGCTTCGGGATTGCAGCTTACGCCTACATCATCTCCGCTCAAGTCAACGGGGTGACCAACGCCTTCATCTACGGCCAGCTGAGCGTAATCATCTCCACTATCGGCGGGATGACTCTGCTGGGCGAACGCAAGCAAGGCAAGGAACTGGTCGCAACGCTTGCCGGCCTCTGCCTGATCGTTGTAGGCGCTATCCTTTAA
>LACTIS1119B1_03210 glutamine ABC transporter substrate-binding protein
ATGAAAAGACAGCCGCAAACAATCAAGAGAATCATCCAGGCCTTGGCCTGCGGTCTGCTGCTTTTGCTAGCGACCAACCTAACCGCCTGTTCCAGCAAGCAGGAGAGCAGCTATGCCCGGGCCAAGCAGTCTAAGCAGATAACCTGGGGGGTCCGGCCAGACACCAAGCTGTTCGGCTTGACCAACATCAAGACCGGCAAGATCGAAGGTTTTGAAATTGATCTGGCTACGGCCATCACCAAGCAGATCCTTGGCCCTAAAAGCAAGGCTGTCTTCCGGCCGATCACGGAAAAGACCCGGATCACCCTTTTGCACAACGGCTCCCTGGACGCCGTCATTTCAACCATGACCATCACCAAGGAGCGGATGAAGGTGATCGACTTCTCTGACGTTTACTTTAACGCCAACGAATCCATGATCGTTAAGAAGTCCAGCAAGATCAGAAGCATTGCTGACTTGAATAAAAAGGGAGTCGTGGTTATTGCCATCAAGGGGACCGACGTGGCCAACCAGGTGGCTAAGCTGGCTCCAAAGGCTAGAGTCAAGCAGTTTGACGACTACGGGTCAGCCTTCAACGCCTTAAAGGCCGGACAAGGGGATGTCATGATCGACGACAACGGGATTTTGGCTGGTTTGATCGCTGATACCCCGGAATTCACCTTGACCAAGGCCTCTTTAGCTGAGGAGCCATACGGCATCGGGGTTGAAAAGGGCCAGACCGAAATGCGCCAGGCGATCAATCTGGCCTTAAAGCAGCTGCGGGCCAACGGAAAATATGACCAGCTGGTCAAGAAGTGGTTCGGCAAGGTCTCCGGCTTTGACGTCAAACATGCAGAAAGCCAGAAGGTTAAGATTAAATAA
>LACTIS1119B1_03220 hypothetical protein
ATGTCAGTAAGCAAGCGTCCGATTTCCGGTTTTCAAGAATTAGAAACAGCCGCTGATGACAGCGATGAGATACATTTTAAGTTAAATGGCCAGCAGTGGCTGTTAGTTGATGACGGCAATCCTTTGACCCCGGCCAGCAAGACCTTGATCAACTGTGATTTGCCTGAAGAGCAGCAGTTTTTTGCCAATACGGAGGAATTTCTGACCTGCCAGATAGGCGGTCAGTCCCTGGCTGACTGCTGGCCCCAGATGAGCGAGGTAGCTGTCTGGAGCGTGCAGTTTGACAGCCTGGAGGAATTTGTCCAAGCGATTAAAGACGGCTGCGACATTAAGTTTTCTTTAGCCGGCCGCCAGTACAGCCTGGGCCAGTCCAGTGAACGAAAGGTCTATCGGCAGCTCGCCTGGCGTTTGGAGAAGGGCGGGCAGATGAAGGTGGAAAAATTTGCTGACTTGAAGCAGCTTTTGGCCTTTGAAATTGCCGGGCAAAGCCTGGGCAAGCAGTGGTCAGCCATGAAAAATGTCGACTACGGCTGA
>LACTIS1119B1_03230 ATP-dependent helicase
ATGGATGCTTTTTCCCGCTATGCTCCCTTCATCCAGGACTATATCTATTCCCGGGGCTGGGAGACCCTGCGGCCTTTGCAGACAGCAGCGGCCCAGGTAATTTTTGCTACTGATGACAATTTGCTTTTGTCGGCTTCGACTGCTTCCGGGAAAACCGAAGCAGCCTTTTTCCCCATCTTGACAGATTTGGCGGAAAATCCGGCTGACTCTATTGCCTGCCTCTATATTGCCCCTTTAAAGGCCTTGATCAATGACCAGTATGACCGACTTAAAGACATCTGTGAAGGCAGTGATGTCCCGGTTTGGCGCTATCATGGGGATGTTTCGGCTGCTCAAAAGCGGAAAATGTTCAAAAGGCCCCAGGGGGTCCTGCAGATAACGCCGGAATCCTTAGAGAGCCTGATAATCAACAAGCACGCGGATATTCCCCGCTTATTTGGCGATCTGCGCTATGTTGTCATCGACGAGTTGCACTCCTTTTTAAGAAGCGGCCGGGGCGGGCAGACCTTCTGCCTATTAGAGCGCTTAAACCGGCTGGCTGGTGTTAAACCCCGCCGGATCGGCCTGTCAGCTACGATCGGGGACCCGAAAGCGGCTGGGCAGTTTTTAGGGGCCGGATCGGGCCGTCAGACCAGGATTCCTAAGGTGAAAAGCCAGCCTCAGCGCTGGCGCTTGTCAATGGAGCATTTCTATAAAAGCGGTGACCAGGCTGGCGACCATTCTGCCTTGCCGGCCCAGGCCGTTTTAGATCAAGCCAGCGACCAGGCACCAGAATTAGCTGACCCGGGCCTGGCCTATATTTTTGACCATACCAGGGGCAAAAAGTGCCTGGTCTTTACTAACAGCCGGGAAGAATGTGAAGCTGTCTGCCAGGTTCTAAGGCAATATTGCGAATATAAGAATGAACCAGACCGCTTCATGATCCACCACGGCAACTTGTCCGCGGCCCTGAGGCAGGGGGCAGAGGCTATCATGAAAGACGAAGATGCCAATATTACGACTTGCGCGACGGCTACTTTAGAACTGGGTATTGACGTCGGCCAGCTGGAGCGGGCCTTTCAAATTGAAGCGCCCTTTACCGTTTCCGGCTTTTTGCAGCGGATGGGGCGGACTGGACGGAGGGGCAATCCAGCAGAGATGTGGTTTGTCATGCGCGAAGAGCAGGCTGAAAGCCGGGCCATGATGCCAGTTTTGCTTCCTTGGTCGCTTCTGCAGGGGATTGCCTTAGTTGAGCTGTATTTACAAGAGCGCTGGGTTGAACCGCCAAGAGACCACCAATTGCCATACAGCCTCCTTTACCACCAGACCATGTCTACTTTGATGGCCGGCGGGGAGATGAGCCCGGCAGAACTTGCTTCCCGGGTTTTGACCCTGTCCTACTTCCGCTGGGTCAGCCAGGATGACTATAGAGTTTTGCTCCGCCACTTGATCAAGACCGACCAGATCCAGCTGACGGAAAATGGCGGCTTGATCGTCGGCCTAGCCGGCGAGCGGGTGACCAACAATTTCAAGTTTTACGCCGTTTTCCAGGAAAACGAGGAATACAGCGTCCACGCTGAGTCAGAAGAACTGGGGACGATCGTTAAGCCCCCGCCCTTGGGTGAAAAAATCGCCATCGCCGGCCATGTCTGGGTGGTTGAAGAAATCGACCGTCGCCGCCGGCAGGTCTACGTCCACCAGGTTAAAGGCCGGATCCCAGCATATTTTGGGGATGTAGCCGGCGACATCCATCCCAAAGTTCTCCAGCAAATGAGGAAGATTCTGGCAGAAGAGAGGCAGTATCCTTATTTGATGAAAAACGCGGCTGCCCGCTTGAGCGAAACGAGAGCAATGGCGGAAGCCGCTGGCCTGCCAGATAAGCAGCTGATTAACCTGGGGGCTAAGACCTACTGCCTTTTCCCTTGGACGGGTTCTTATGCTTTTCTGGCCCTAGAGCGTTTCTTGCGCCTGAAATGTGCCAGCCGTTTAGGGCTTAAGAATATTGACTCAGTCCGGCCATACTACATCCAGTTCAGCATGGATGTCAGTGAAGGAGACTTTTACCAGATTCTGGCTGAAGAAGCCGCTAAAGACTTTGACCCTTTGGACTTGCTCTATCCAAAGGAAGTGCCGGTTTTTGACAAGTATGATGAATACCTGCCAGACGACCTGGTCAGAAAAGAATTTGCCTATAGTGTCCTGGATTTGACTGAAATGCGGCGGGCAATCGGAGAGATTACGAGACAAATGGCTTAA
>LACTIS1119B1_03240 biotin carboxylase
GTGGAGCAAAAGAAACGGATTCCAAAGCGGATTGCCCAAACGGTTATCAGTTCACTTAAAGGCGGGGTTGTGCCCCGGATCGGCCTGCCATATATCACGGTGGGCCGGAAGGCGGAAATCGAGGCCCTTTTACACGACGTTGACTTAGTCAAAGAAGGCGGGGCCTCCTTCCGCTTTGTTGTGGGCCGGTACGGGTCAGGCAAGAGTTTTTTGCTGCAGACCATCCGCAACTACGTGATGGACAGAAATTTTATCGTCGTAGATGCCGACCTGTCCCCGGAACGCCGCCTGCAGGGCAGCAAGGGGCAGGGCCTGGCCACCTACCGGGAACTGATCCAGAACCTGGCCACCAAGACCCGGCCGGAAGGCGGAGCCTTAACTTTAGTCCTGGACCGCTGGATCAACAATGTCCAGACGGCAGTAGCCAGTGAAATTCCTTTTGATGCCCCCGGCTTTCAGACAGCCGTTGACCAAAAGATAGTCAGCCAGATTTCCTCTTTGAGCGAAATGGTGCATGGCTATGACTTTGCCCAGCTGTTAGAGCGCTATTACCATGCCTACCTGGCCGGCGACGAGGATACCAAGGGTAAGGTGGTTAAGTGGTTTAGAGGGGAATACCGGCTGAAAACAGAAGCTAAGCAGGATCTGGGCGTCAACATCATTATTTCTGATGAAGACTGGTACGAGTACTTGAAGCTTTTTGCCGTCTTTTTCCGCCAGGCTGGCTACAGCGGCATGTTTATCATGGTCGATGAATTAGTCAACCTCTACAAGATTCCTAACGCCATCTCCCGTCAGTACAACTATGAAAAGCTGCTCAGCATGTACAATGACGCCATGCAGGGCAAGGCCAAGTACCTGGGCATTATTATGGGGGTCACGCCCCAGGCAGTCGAAGACCGGCGGCGGGGCGTTTACTCTTACGAAGCCCTCAGGTCCCGCCTGGCCGAAGGCAAGTTTGCCAAGGAAGGGCAGCGGGACCTGTATGCTCCCGTGATCCGCCTGGAACCCTTGACGGCAGAAGAAATGCTGGTTTTAACGGAGAAACTGGCCGACATGCATGCCAGCCTTTATGGCTATGAGCGGACGATCAGCGAAAAGGACCTGGCTGACTTTATCAAGATTGAATATGCCAGAGTTGGCACGAGCAGCATGATCACCCCAAGAGAAATCATCCGGGACTTTATCGAGCTGCTGGACATTGTCTTGCAAAATCCCGGCCAGACCGTGCAGAGTCTTTTGACAGACGGGGACTTTGCCTACACTAAGTCAGACGCCGTGTCTGATGAAAAGACCAGCGACTTTGCGGAATTTACGATTTAA
>LACTIS1119B1_03250 hypothetical protein
ATGACAAAGGACATTGATGAAACGGCTGCCAGCGGCCTGGGCTTAGACGAGAATGAAGAGCAGCTGCTTTTGACTCTTTTTTCCGGCCAGCCCTACCAGGACTTTTTACGCCAGCGGCACTTGCTCTTAAGCGTGGTCGTGGACCAGATCAATGAGAAAATTTTTGACGAAATCGGCGATGCCGTAATCGACTGCGATGGCCAGAAGGCAGAAATCGTGGAAGATTACCGGAGCGACCTCGCTGACTTATTAGGAATTGAGGAGAAATAG
>LACTIS1119B1_03260 hypothetical protein
ATGATAAACTTCCCCCCGCATCAGCTCATCTTCAAAATTCGGCCGGATTTCCTCAAGAGCAAAACCGTAATAAACCAGGTAGTTCTGCAGGATGTGCTTTTCCTGCCAGCTAGTGGAAATATCCCTTTGCTCCACGCACTTGGCAAAAAGAAGGCGGAGCTGACGGAGGCCATCGGCTTTATCCTTAACCCCGATCTGGCAGACTAA
>LACTIS1119B1_03270 hypothetical protein
ATGCATTTGGCGGAAGTAGCCGACCACATTCAAAGCAAATATGGTATTGAGGCTAGCTATGTCGACCTGGCCGGGCAAACCCTGGCCGCCGTCACGGTCCCGGGAGCAAATGAAAGTTTCGCCTTGCTCCTTAAGAAGGACGGCCGCGAAACTGTTGAACTGAAAGCCGGGTCCTTGGCTAAGTTTTTGGCTGCCCAGTCGGCTTTTGGACCAGCCGTCTTCATGCAGGACCCGGCCTGGATCAGGGTTGATTTAGATAATCCTGCCTTAAACGACCGCTTTTTTACAAGACCCTGGATTCTGCCTATCAGAGCTCCCGGCCCTTGGAAGCAGCGAAAAATACGGCAGAAGATAGGCAAGAGCATGAAATCTACCTGCTGGATGATGAGGGAGAAGACTTCCAAGAAGAAGTAA
>LACTIS1119B1_03280 5'-nucleotidase
ATGGCTAGATCCATCAAGAAAGAACTTGCGGCTCTGCTTTTGGCCGCGGCCGTTTTAGCACCGGGCCAGGCTAGCGCCAGCAAATTAGAAGTTACCAGCAAGGCTGATACTGCCAGCAAGCCGGCCCAAAGCAAGGACTGGAAGAATCCCAAGAAGTACAGCAAGGATATTCCGGTGCAGTTTTTGAGCATTAACGATTTGCACGGCAACCTGTCGACGACTGGTACGGCGACCTTGGGGCAAAATAGCTACAGCAATGCCGGTACGGTAGCCCGGCTGGCCGCTTACTTGAACCAGGCCCAAAAGGATTTTAAGAAGAAAAACAAGCAAGGCACGACCTTCAGAGTCGAGTCAGGGGACATGGTGGGGGCATCCCCGGCCAATTCTTCTCTTTTGCAAGATGAACCAACCATGCACGCCTTAAAGGCCATGAAGTTTACCATCGGCACTTTGGGCAACCATGAATTTGACGAGGGCTTGGGTGAATTCAACCGGATTCTTTTAGGCAAAAAGCCAACTAAGAAGTACAATTCCGCTGAAATGGTCTACCCCCACCAAAAGTCAGGCATCAAGCTAATCGTAGCCAACGTTGTCAGAAAGTCCACCGGCAAGGTACCATATGGCTGGAAGTCTTATACCATCAAGACCGTAAAAGCGGGCAAGAAGAAGGCCAAGGTCGGCTTTATCGGCGTTTTGACCACGGAAATGCCAACTTTGACGACTAAGAAAAACTACTCTGCCTTCAAGTACCTGGATGAAGCCAAGACCATTGCCAAGTATGAAAAGGTTCTGCGCAAGAAGGGCGTTAAGGCTATCGTTGTTTTGGCTCACAAGGGGGTTGAAACGGCGGCGGACAGTAAGGGCAAGCTGACCACCAGCGGTGACAGCGTGAAGATCTTAAAGAAGCTGAACAAGATCGATCCGAAAAACACCGTTGACTTGATGATCGCCGGCCACTCTCACCAGTATGCCAACGCCAAGGTCGGCAAGACCCGGCTGGTTCAAGCTTTGAAGTATGGCCAGGCCTACACTGACTCAATCGGCTACATCAGTCCAAAGACCAAGGATTTCGTCAAGGGCAGCCTGGTTTCTCATGTCTACCCAGTCCTGTCAGCTGCTGATGACCCGAAGACCAAGGATAACAAGACAGTTGCCAAGATTGTGGCTGACGCTGACAAGCGGGTTTCAGCCATCACCAAGCAAAAGATTGCTACGGCCCAAAAGGCGGAAACAATCACTGGCCGGGAAAACAACAATACTTCCAATGAAAACGCGGTTGGCGACTTGGTCGTTGACGCGCAATTGTCAGAAGCCAACCGGCAGGGCTTCAAGGCTGACTTTGCCATGACTAACGGGGGCGGGGTCCGGTCCGGCCTGGCTGTGGGCAGTGATAAATCAATTACTTATGGGGCGGCCATGGCCGTTCAGCCTTTTGGCAACAGCCTGCAGGTTCTGACCATGACCGGGAAGCAGATTTTAGCTGCCCTTAACCAGCAATATCAGCTGGATGGCCACTACTACCTCCTGGTCAGCGGTCTGCACTATGTCTACACCAAGGACGCGGCCGGCAAGGTCAAGATCGTCAAGGTTTATGTCGGTGAAGGCGAGAAGACTGAACTCTCCTTGACCAAGACTTACCGGGTTGTCGCCAACGAATTTATCGCTGGCGGGGGTGACCACTTTACTCAGTTCACTGCTGGCAAAAAGGTGGGCATCTTGACCGGGACTGACACGGAAACCTTCATCAGCTACCTTAAGCAGCAGACGGCCAGCGGCAAGCAGATTGCCAGCCCGGCTTTGAACCGGAAGGTGGAAATTTCCGCTGCCCAGGCAGCGGCCCTGGAAAAATAG
>LACTIS1119B1_03290 50S ribosomal protein L19
ATGGATCCATTAATTCAAGAATTGACTAAAGAACAACTTCGTGACGACATGCCTGAATTCCGTGCCGGGGACACTGTTCGTGTTCACGTACGTGTTGTTGAAGGTACTCACGAACGTATCCAGATCTTCGAAGGTGTCGTAATCAAGAAGAAGGGCACTGGCATCGGTGCTACTTACACTGTTCGTAAGATCGCTTCCGGCGTTGGCGTTGAACGGACTTTCCCAGTTAACACTCCACGTGTTGCCAAGGTTGAAGTTACCCGTCACGGCCGCGTACGTCGTGCTAAGCTTTACTACCTGCGGACTCGTAGCGGTAAGGCTGCTCGTATCGCAGAACGTCGTCGTTAA
>LACTIS1119B1_03300 SNF2 family DNA/RNA helicase
ATGACCCTGCAATGGAGAAAGCTTTTTTCCAACCGGATCCTGGACCGGGGAAGGGACTACTGGAAAAAGGACTGGGTCTACGCGCCCAGCTACAGTGAATTGCCGGCCGGCATCCACTGCCGGGTTGGCAAGCCCGGGCAAAGCTATGACGTAACGATTGACTTCTCTGATGACTGGAGCGAGATCAAGTGGATGGACTGTGACTGCCCTTACGCGGCTGAAGGCTACAACTGCAAGCACGAGGCAGCCTGCTTGTACGCCACGGAGCTTTTTATTGAAGGGATGCAGGCCATTCAAGAACCCTTGACCAGCGAATTGCCTGCAAGCGACCGCAAAAAGCGGCAGGAAGAGATTATTGAAAAGGTCTACGGCCTTGGCAGAAAATATGTCAACTATATTTTTGATCCTGGCAAGATTCTTGCATCGGTTGACTTTGACCCGGTCCTTTGGGAGCGGATCTTGGATAATCCGGCCCTGGCCAATTTGGTAGCCGTTAACCTGGATGACAGCCAGGCTAATGATAAGCAGCCCCTGTTAACGGCTACCGGCTTCAGCCATTTCGCCAACCGCGGGAACAGGAACAAGGTCAACGTTAAAGTTGGCCTTAAGCAAGTAAGCGAGCTGAAGTGCAATATTGCGGAATGCAAGCAAGACGAAATTACCGGCCCTTGCCGGCATGAAATTGCCCTCCTGCAGAAGCTGGTCTTGATGATCATGCGGGAAAACCCGGGTGAAGTAACTGACTACCAGGCAGACCGTGCCCTGGCCAGGGCAGAGATGCTGGAAGAATTCGACCAGGATGCCTTAGAGGGCGTGAAGCTTTTGGCCCAGCTGGAGAAAGAGCCGGGCGGTTCTTTTTTAGTCAAGTTTAAAGTCGGCCAAAAGCGCCTTTACGTGGTGAAAAACATCCAGAATTTTGTCGACGATGTCTTAAGCTGGCGGCCAATATCCCTGGGCAAGGAAGAAGTCTTGGTATCACCAGATTCTTTTGACCCGGCCAGCCAGCGCCTGTTCAGCTTCTTGGCTACGATCGCGGCAGATGGGGCAGACATTTACGGAGAGTCAAAAAGAAGCATTGAGATTGCTTCCGGCCGGATTGACGGCTTTTTCGCGGCGGTTGAAGGCAGCGAAGTCGAAAACTTGGACAATAAGCAGGTCGTCCCTGCTAAGCGGGGCGAACTGGAAAAAGCTGAGCTTGAGATCGATGTATACGGGGGCCGGGGGATCAGCATTACCGGGATTTGCCCGCCGGTTCTCCAGGGGATCCGGGCCAGCTACCAGCTGACAGATGAAGCATTTGTTGCTGGCAAGCTCGGCAATATGCTGTACGCCCTTTTTGGCAACAAAGAAAACATTGACGTGTCCTTTGACATAAACCAGTTGAGCCAATTCAAGGCTACTGTCCTGCCTCTTTTGAAAAAATACAGCAACTTGACCATTAGCCCGGCTGCCCAGCAGCTTTTAGAAGAAGCAGGAGGCTTGGAAAATAGCCAGCTGCGCCTGGATGTTGAGGGCGATGAAGTAGTTGGCCAGGCCCGGGTCTTTTATCAAGGAAAGGCGGTCCGCTTGGGCGCAAGCGGGGAGCGGGCAATTAAGCGGGACTGGTACAAGGAAGAGAAGCTGGCTGCTCTGCTGGAGAAATTTTTTGACCTGGAAGACGGCGACTGCCGCTTGGATAAAGGGGATGACGAAGCGGTATACCAGCTTTTGGAAGGGATGCCGAAATTGTTCGCCGCCTTTGATGAAATTGAAGTTACTCCAGCCTTTAAAAAGCTCAAGCTTAAAGACAGGCTGAATCTGTCTTTTGGCCTTTCCTTAAGTGACGGGCTTTTGCGCCTGGATCTGAAAAGCGAGCTTACGCCAGAAGAATTAGCGGAGGTCTTCAGCCAGTACAAGGACCGGAAGAAGTACATCCGCTTGAAGAACGGCAGCTTCCTTAATCCAGCCAGCCAGGACTTGGGAAAGCTGGCCCTTTTAGCTAAAAACTTAGATTTAACCGCTAAGGATTTTGGCAAAGAACAGCTGGAAATGCCGGCCTACCGGGCCCTTTACGTCGACCAGCTCTTAAAAGAGCAGGAGATGGGAGAAATTGAAAGAGACGACCACTTCCAGCAATTACTTGCTGACTTTGACCAAAAAGAAGCGCCGCTAAAACTGCCAACCGGCCTAGAGAAGATCCTCCGACCTTATCAAAAGACCGGGACTGCCTGGATGAACCGGCTGGCCCAGCATGGCTTTGGCGGGATTCTGGCGGATGAAATGGGTCTGGGCAAGACCTTGCAGGTGATCAGCCTCCTGGCCAGTCAAAAGGACCAGCCGAGCTTGATCGTGGCTCCGGCCTCTCTCGTTCTTAACTGGGAAGCTGAGTTTAAAAAGTTTGCCCCGGAAATGAAGACGCTGGTTTTGTCTGGCTCTAAGAAAGAACGAAGCGGGCAATTGGCAGACTTGACTGAAATTGACGTTGTAATCACGTCTTATGACCTGCTTAAGCGCGATATTGCCAACTATGAGCCGCATACTTTTGCCTATGAAGTAATCGATGAGGCGCAGATGATCAAAAATCCGCGGACAGCCGCGGCCAAGGCGGTTTCCGTGGTTAAAGCCAAACACCGCTTTGCCTTGACCGGGACGCCGATTGAAAACCGCTTAAGTGAGCTCTGGAGTATTTTTAACTTCGTCATGCCGGGCTTTTTAAAGAGTTACCGGGAATTTAAGAAGGATTTTGAAAGTCCGATCGTTAAGGAAGACGACCAGGACTGCTTGAACCGGCTCAATCAGATGGTCGGTCCTTTTATCCTCCGTCGCTTGAAAAGAGATGTCCTCAAGGACCTGCCGGACAAGCTGGAGGAAGTCCGCTATGTCGGCATGGGCAAGGAGCAGAGAAAGCTCTATGACGCTGAAATTGCCCGCTTGAAAAATAAGGTTATGGCTGAGGACGATGAAGGTATCAAGCGCGAGCAGATAGAGATTCTGGCGGCATTGACCAGGATCAGGGAAATCTGCTGCGACCCGGGCCTGCTTTATGAAGACTACAAGGGCGAATCTGAAAAGCGCCTGGCCTGCGTGGATTTGATCAAGAGCGCGATTGACGGGGGCCACAAGGTCCTGCTTTTCTCCCAGTTTACCAGCATGCTGGACCTGCTGGAAGAAAGCCTGAAGGCAGAGGAAATCGGCTTTTTACGGATCGATGGCCAGACTCCTAAAGCCAGACGGCTGACTTTAGTCAACGTCTTCAACCATAAAGACAGTCCGGCTAAGGTCTTCTTGATTTCCCTTAAGGCCGGAGGGACGGGCCTTAACTTGACCGGGGCGGATACCGTCATTCACTATGACCCATGGTGGAACGTGGCGGCCCAGAACCAGGCAACTGACCGGGCCCACCGGATCGGCCAGGAAAAGAAGGTAACGGTCTACAAGCTGATTGCCAAGGATACGGTTGAGGAAGCTATTTTGGACTTGCAGGAAGCCAAGAGACAGCTGGCGCAAGGCATCTTGACGGCAGAGTCTGTTTCTAGCGCCAGCCTGCAAAAGGAAGACTTGATCAAGATTTTGGACTAA
>LACTIS1119B1_03310 tRNA (guanine-N1)-methyltransferase
GTGAACATCAACGTATTGACCCTGTTTCCTGAAATGTTTACCCCCTTGCAGGTTTCCCTGCTGGGCCGGGGCCAGGAAGATGGCAAGTGGAAGCTGAACCTGGTCAACTTCCGCGATTTTTCTGACCGGCCGCACAAGTCAGTCGACGATACTCCTTATGGCGGAGGCGCCGGGATGGTTCTCCAGGTCAAGCCGATCAAGGCTGCCCTTGATTCACTGGAAAACAAGGGCAAGGTCATCATTACGGCTCCCCAGGGGAAGACCTTCAATGAACAGATGGCCCAGAAATGGTCTAAGGAAGAAAACCTGACCTTCATTTGCGGCCACTTTGAAGGCTTTGACCAGCGGGTTTACGACCTGGCTGACGAAATGGTCTCAATCGGTGACTACGTTTTGACTGGTGGGGAACTGCCGACCATGAGCATGATCGATGCCACTGTCCGCCTTCTGCCAGGGATTCTGGGCAATGCCCTGTCTACAGTTGAAGAATCCTTCTCAGACGGCCTTTTGGAATATCCGCAATACACCCGGCCAGCTGATTTTGAGGGGCAAAAGGTGCCGGAAGTCCTCCTTTCAGGCAACCATGGCAAGATCGATGAATGGCGGCACTACCAGGCTTTAAAGGCCACCAAGCTGCACCGGCCGGACCTGCTGGAGAAGCGGGACTTGACCCCGGAAGAGGTCAGAATGCTGCGGCAGATCAGAGAAGACGAGCAGGCCGAAGAAGACTAG
>LACTIS1119B1_03320 16S rRNA processing protein RimM
ATGAATTACTACAATGTTGGCAAAATTATCGCGACCCATGGCTTGAAGGGTGAAGTCAAGGTCGCTTTGACCACCGACTTTCCAGAAGACCGTTTCAGAGCTGGTTCCCGCCTTTACCTGGGCGACGATAGCCGGGAAGTGACGGTAGCTGCTGGCCGGCCCTTTAAGCAGTTCTGGCTGGTAACTTTTGCGGAAATCACTGATATTGACCAGGCGGAAAAGCTGAAGGGGACGGAAATCTTGATCAGCGAAGAAGACCAGGGGGAACTGCCTGACGGGGTCTACTACTACCGGGAGCTCTTGGGCTGCAAGGTCCTGGACGATGAAAGCGGGGAAGAAATCGGCGAATTGACTGATATCGAAGCGCCAGGCGCCAATGACATCTGGGAAGTAACTGACGAAAACGGCAAGAGCTTCTGGCTCCCATACATCCCGCAGGTCGTTAAGAGCGTGGATATTGATAAAAAAGAAGTCCGGGTTGAATTAATGGAGGGCTTGAGATAG
>LACTIS1119B1_03330 30S ribosomal protein S16
ATGTCAGTTAAGATTCGTATGCGCCGTATGGGTGCCAAGAGAAAGCCATTTTACCGGATTGTTGTAGCAGATTCACGTGCACCTCGTGACGGCCGCTTCATCGAAGAAGTTGGTTACTACAACCCAGTTTCACAACCAAAGGAATTGAAGCTTGATGAAGACAAGATCTTTGAATGGCTGAAGAAGGGTGCACAACCTTCAGACACTGTTCGTTCACTTCTTTCAGGCGCTGGCTTGATGGCTAAGTTGCACGACGAAAAGTACAACAAATAA
>LACTIS1119B1_03340 signal recognition particle protein
ATGGCATTTGAAAATTTAAGCGAACGTTTGCAGAAGGCCCTGCGCAACTTGACCGGGAAGGGGAAGATCTCTGAAGAAGACATCAACGCCGCCTCCCGGGAAATCCGCCTGGCCCTGCTTGAAGCCGACGTCAACTTCAAGGTGGTCAAGGACTTTATCAAGACCATCAAAAAGCGGGCCCTGGGCCAGGAAGTGCAGGAATCACTGACTCCAGGCCAGCAGGTCATCAAGATCGTCAATGAAGAACTGACCAAGATGATGGGGGAAGAAGCGGTCGGCTTAACCAAGTCACCGCACATCCCAACTGTTATCATGATGGTCGGTCTGCAAGGTACTGGTAAGACCACCACGGTCGGCAAATTAGCCTACCGCTTGATGAAGGAAGAAAAAGCCCGGCCGTTTTTGATTGCCGGCGACATCTACCGGCCAGCGGCCATTGACCAGCTCGAGCAAATCGGGGCGGACTTAAAGGTCCCGGTTTACAGCGACCCGGAAGAAAAGAGCGTGGCCAAGATTGTAGAAGACGGTCTGGCAGAAGCCGCCGTCCACAGAAACGACTACGTGATCATCGACACGGCCGGCCGGCTGGAAATCGACGAACCTTTGATGAAGGAACTAGAAGAAGTCAAGGCGGTCGCCCAGCCGGACAACATCCTCTTGGTAGTTGACGCCATGACTGGGCAAGCCGCTGCTGACGTGGCCAAGACCTTCAATGAACGCCTGGACGTGACTGGGGTCATCTTGACCAAGCTGGACGGTGACACCCGGGGCGGGGCCGCCTTGTCTATCAGAGCCATCACCGGCAAGCCAATCCTCTTCACTGGGCAAGGGGAAAAGCTGACCGACCTGGAAGTCTTCCACCCGGACCGGATGGCTTCCAGAATCCTGGGCATGGGGGACATGCTGACCTTGATCGAAAAGGCCCAGCAGGACTACGATGCCAAGCAGGCGGAAAAAGTTGCCCAGAAGATGCGGGAAAACACTTTTGACTTCAACGACTTTATCGACCAGCTGGAACAGGTGCAAAAGATGGGGCCGCTGGATGAAATCATGAAGATGATTCCCGGTATGGACAATAACCCGCAATTGAAGAACTTCTCAATCGATGAGAAGCAGATCGCCCACACCAAGGCCATCGTCTACTCCATGACGCCAGCCGAAAGAGAAGACGAAAGCCTGCTTAACCCGAGCCGGCGCCGGCGGATCGCGGCCGGGTCAGGCGTGCCGATTGTGGAAGTCAACCGGATGATCAAGGAGTTCAAGACGGCCAAGGACATGATGTCCAAGGTGACCAAGGGGAACTTCAAGGACTTGGAGAAATTGCCTGGCATGAACAGCCCGATGGCCAAGATGGCCATGCGGCGGATGGGGAAGAGCTTCAAGAAGAAGAAGGTCAAGAAAATGAAGAAGGTCAAGCGCTTCCACTCATAA
>LACTIS1119B1_03350 DNA-binding protein
ATGGATGAATTGAGCAAAAACGAAGCTCTGGGTGACCTGTACGCCATGTACGGCGCCTTGCTCACCCAGGGCCAGCAGGATTATTTTGAAGATTATTACTACAACGACCTGTCTTTAGGCGAAATTGCCGACAACCGGAATGTTTCAAGACAAGCGGTCTATGACAATTTGCGGCGCAGCGCCAAGTCTTTGGAAAAATACGAAGACAAGCTGCGGCTGCTGGCCAGTTACGGCCAATTGGAAGAAGGCATCAGCCAGGCCTTAGTCAGCCTGGCCGCCGGTGACCAGGAAACGGCCAAATTGCAGCTGGAAGACTTGCTGCAGATAATTAGAGGAGAATAA
>LACTIS1119B1_03360 hypothetical protein
GTGGCCGAAGTAACCGACCAGGCCCAAGGCCTCACTGGCGAAGAACTGACCACCTTTTTGACCAAGGCTAACCAGGAAACGGTGGCCCACTGCCGCCAGGAAAGCGAAAAGCTTTGGGGCCAGCTCTTTAAGGAAGCCATCAAACTGTCCAAGCTGACTTTTAATATGGATAAAAATCTCTAA
>LACTIS1119B1_03370 hypothetical protein
GTGGGATTATTTGATCGAATCAAAAAGAGCCTGTTCGGCCAAAAAGACGAAGAAAAGCCAGAAGAAGTCAAGGCTGACCAGGAAGAAGCCGCAGAAGAAAATGCTGAAACAGAAAATGAGGCAGTTGCAGAGACTACTGAAACTTCTGAAGAAGCGGTAGCAGAAAAGGCTGAAGAGCAAGAAGAAACCGCTGATGAAGAATCTACTGAAGCAGCTGAAGAAGAATCTGCTGAAGTTACAGAAGATGTAGAAGAAGAAACAGAAACTACTGAAACTGCAGAAGAAAAGACTGAAGCTGAAGAAGAGACCACTGAACCAGCAGAAGAAAGTACAGAAGAAAAGACAACCGAGCTCTATGAAAAGGGGCTGGAGAAGTCCAACAAGGGTTTTGGTGCCCGCCTCAATGCCTTTTTGGCTAAATTCAGAACGGTTGACGAAGACTTCTTTGACGACTTGGAAGAATTGCTGATTGAATCTGACGTTGGCTATGAGACCAGTGAAGAACTGACTGACCAGCTCAGAGAAGAAGCCAAGCTGCAAAAGGCCAAGAGCCGGGATGACTTAAAGCGGGTCATTGTTCAAAAGCTGGTGGAAGTCTATGACGAAAATGCCAACAGCGAAAACGAAAAGCTGGCCTACGATCCAAACGCCAAGCCAAATGTCTACCTCTTCGTCGGCGTCAACGGGGCCGGCAAGACCACTACGGTCGGCAAATTGGCCAAGCGTTTCCACGACCAGGGCAAGAAGGTTCTGTTAGTCGCTGCCGACACTTTCAGAGCCGGCGCGGTTGAGCAGCTGGTTGAATGGGGCAAGCGGACCGGTGTTCCAGTCGTAACTGGCCCAGACAAGGCTGACCCGGCTGCCGTGGTCTACGACGGCTTAGAGCGGGCGATCGCGGAAGAAGCAGACTATCTCTTGGTTGACACGGCCGGCCGTTTGCAAAACAAGGTCAATTTGATGAACGAGTTGGAAAAAATCCAGCGGACCATCAAGAAGCGCCTGCCAGATCAGCCGGCTGAAACCCTCCTGGTTCTGGACGGGTCAACTGGCCAAAACGCCCTCCTGCAGGCCAAGGACTTTGACAAGACGACCAAGCTGTCTGGTTTAGTCTTAACCAAGCTGGACGGGTCCTCCAAGGGTGGGGTGGTTCTGTCCATCCGCCACGAAATGAAGCTGCCAGTCAAATTGGTTGGCCTGGGCGAAAAGGCAGAAGACCTGGCCGACTTTGACGCGGCCAACTATGCCGTCGGCCTCTTCCACGACCTGCTGTAG
>LACTIS1119B1_03380 chromosome segregation protein SMC
GTGCCTTTAACTAGTTTGATTTTGGAAGGCTTCAAGTCTTTTGCAGACAAGACGGTGATTGACTTTACTAAAGGGATTACCGGCATTGTCGGCCCTAACGGGTCAGGCAAGAGCAACATTACTGAAGCCATTCGCTGGGTCATGGGGGAAGGCAGTGCTAAATCCCTGCGTGGCCGCAACATGAAAGACGTGATTTTTGCCGGGAGCCAGTTCCGCAAGCCCTTAAACCGGGCAGAAGTGACCATGGTTTTCGACAACCGACACCGGGAACTGGATTTTTCAGCTGACCAAGTCTCAATTACCAGGCGGATCTTAAAGTCCGGCGACAATGAATACTTGATCAACCAGCAGCCGGTCCGTCTGCGGGATGTCCGGGCGCTCTTTCTGGATTCCGGCATTTCCCAAAACAGCCTGGCTATTATTTCCCAGGGGCGGGTGGACCAGATCCTCAATTCCCAGGCCCGGGAAAGACGAGGAATTTTCGAAGAAGCAGCCGGGGTGCTTCACTTTAAGCAGCAAAAGCAGCAGGCTCAAGGGCAGCTGGAGACGACCAATGACAACCTGATCCGGATCAACGACCTGGTCAACGAGCTGGAGAAGCGGCTGGAGCCCTTGCATGAACAGAGCTCCTTGGCCCAGGAATACCAATTCCAAAAAGCCGCCCTTGATGAGGACTTAAAGACCCTGCTGGCCTTTGAAATCGCCGACTTGGCCCAGGAAGAAAGGGAAGTTTCCCAGAAATTGGCCAAGAGCCAGGAACTTCTAAGCCGGCTGGACGCGGAAGTCAAGCAGTCCCAGGCCAAGCTGGCAGCCAAGCGGCAGGAATTCCAGCTGGAAAGCCAAAAGCGGGACCAGGTGCAAGCGGAAGTCCTTAAATTGACCAACCGGCTCTCAGAAATCAACACTTCCTTGCAGGTTTCCCAGCAGTCCCGGCAGTTTGACCAGGCAACCAGGCTGGAATACCAAAGACAGCTGGCTGATTTAAAGGAAAATCTGGCGGCTACGGATGCGGAAATCAGCAAATTGGCTGACCAGGAAGCTGAATATGTCGGGCAATTGGATCAGCTGAAAGGCAAAAGACAAAAGCTGGTCGACCAGCTGAAAGAAGACCCGGCCAGCCTCAAGTTGAAAGTAGAAGACCTGCGCTCGCAATATATTCAGACCTTGCAGGACCAAACCAGTGCCAACAACCAGCTTGTTTACCTGGAAGGGGAAATCAAGCGGGCCAAAGAGAGCAAGGACCAGCGCTATGAAGATGCCTCCAGCCAATTGGCCAAGAGCCAGGAAGAACTGGAAGGCTTGCGGTTGAAAGGGCAAAAGCTGCGGGCAGAAATTGACCAGCTGCAGGCGGAATTAAAGGAAGCCAGCGACCAATTAGGGAAATTAGCTGCCGAACAGCAGGTTGCCCAAAAGCAGCTGCAGGCAGATTTGACCAACCTCCAGCGGCTGACTGCCCGCCGGGATGCCCTGGTCAATATCCAGAAGCGGCATGATGGCTACTATGCGGGGGTCAAACAGGTTTTAAACCATCCAGACCGCTTCCCGGGCATTATCGGGGCAGTTGGGGAGCTTTTAACCTTCCCGGCTGACCTGGAAGCAGCCATGACGACTGCCCTTGGCGGCAGCGTTCAAAGTCTGGTAGCTAAAGACCGGATGGCGGCTAAAGATGCCATCCAGCAGTTGAAGGTCAGAAGACTGGGCCGGGCAACTTTTTTGCCCCTGGATGCATTAAGATACCGGGCAATTCCCGCTTCAACCCGGCAGGCTCTGGAACGCTTTGCCGGCTTTCAAGGCCTGGCCAGCGAATTGGTTGAGGCTAAGGGCGATACTGACATTTCAGAAGCTATCCAGTACCTGCTGGGCAGCATCATTATCGTTGACAATATGGACACGGCCCTGGCTGTCTCCAGGCAGATCGGCCACTACCGGGTCGTTACCCTGGACGGGGATGTCATCAGTCCCGGTGGGGCCATGACTGGCGGGGCACGCAACCAGCGGAATAATTCCCCTTTGCAGACAACGGCTGAAATCAACAAGACGACCGCCATGCTGGAGGAATTAGAAAGACAGTTCCATATCAAAGAAGAAAAGCTGGCAGGCTTAGACAAGCAAGTTAAAGACAAGCAGGAGACCCGGGAGCAAATCAGTCGGGACCTGCAGAGCCTGCAGCAGGACTTGAGCGCGGCAGTCTTGACCTTCCAAAGCCAGGAAAAAGAAGTCAAGCGCCTGGAAAGCGCCGTTCAGCTCTACCAGGCCCAGCAGGCTGAACAAGCTGTCTACCTGGCAGATTTGACTGACAAAGTAAAGTCCCAAAAGATTAAGAAGGAAGAGCTGGCCGCTTTGGCCGACCAGCAAAAACGCGACCTGGCCAGCCTGCAAGAGACCATTCAGAACTACACCGATTTAAACCAGGGCGTGCAAGAAAAATTGGCTGAGCTTGACCCGCAATTGGCGGTTTTAGCCAACAAGCAGGAAAACCTGCAAGCCAGAAAGGCTGAGCTCGGCCGGCAAAAGGCGGCTATCCAGAAGCAGATCGGGCAGCTGGAAGAAAAACTGGCTGCTTTGGACAATTCCAGTCAATTGTCAGCCAGCAAGAAAGAGGAGCTGGGCCTGGAGAAAGACCGGCTCCTGGCTGAGCAAAAAGACAAGCATGCTGACCTGGATGCAGCCAGCCAGCTTTTGGGCCAGCTAAACGGGCAAATCAACCAGCTGGAAGCCGTGGCGACCAGAAACTATGACTTGCGAAAAGACGCGGCTAGTGAACAAGAAGAGTTCTCAGTCAAGCTGGCCACGGTTAAAGGCCAGCTCAAGCAGCACCTGGACAGTTTAAGGGAAGACTACTCTTTGACTTATGAAGCCGCGCTTTCCCAGGCCAAGCTGGAAAATACGGAAGAAAACCAGCAGAACCTGCGCCGCAGCGTCAAGCTGCACCGGATGTCTTTGGAAGACATCGGCCCGGTCAACTTGGGCGCGATTGACGAATATAAGGAAGTCAAGGACCGCTATGACTTCTTGAAAGGGCAGCAGAACGACCTGCTGGAAGCAAGAAGCAACCTGCAGCAGTCGATGGATGAATTGGACCAGGAAGTCAAGGACCGCTTCGGTCAGACCTTCCAGCAGATTTCGGCCTCTTTCAGCCGCCTTTTCCCGGTGGTCTTTGGTGGAGGCAATGCCCGCTTGACCTTGACGGATCCGGACGATTTGCTGGAGAGCGGGGTGGAAATCATCGCCCAGCCGCCTGGCAAGAAACTGCAGCGCTTGAGCCTTCTGTCCGGCGGAGAGCGGTCGCTGACGGCGATCACCTTGCTTTTTGCCATGCTGGAAGTCAACCCAGTGCCATTCTGCGTGCTGGATGAAGTGGAAGCGGCCCTGGACGATGCCAATGTCGTCCGCTTTGCCCGTTTCCTGCGCCAATATGACAGCCAGACCCAGTTTATCGTGATTACGCACCGGCGGGGGACCATGGAACAAGCCGACCAGCTCTACGGGGTGGTCATGCAGGAATCCGGGGTATCCCAGATTTTGTCGGTCTCCTTGAAAGATTTAAAAGATGAGGTATAA
>LACTIS1119B1_03390 hypothetical protein
GTGGCCCTGGACTGCGGCTTTAAAGAAGAAATCAACCTGGGAGTTGGCGAGGAAAAAGCTGGCGGCCGCAAGCGCAAGGCCCTTTTGGAAGACGTCTTCGAAGCCTTCAACGGTGCCTTGTTCTTAGACCAGGGGATTGAAGCTGTCGAAAAGTTCCTTAGACAGACCGTTTATCCTTTAATCGCGGCTGGCTACTTTACCCCGTCTCGGGACTTTAAGACGGACCTGCAGGAACTTTTGCAGCAAAACGGCAGCGTGACCATCGAATACCGGGTGTTGAATGAGAGCCAGCAGCCGCCCCACTTTGAAGTTGAAGTCCTGGTCGACGGAAAGAAGCTAGCTAGCGGGGAAGGACGTAACAAGAAGAAGGCTGAGCAGGACGCGGCCAGCCACGCCTTGGAGCACTTGAATGGAGGAAAATAG
>LACTIS1119B1_03400 acyl carrier protein
ATGACTGAAGCAGAAATTTTTGACAAGATTGCCACTTTGATCGCTGACAACTTCCAGCTGGACAAGGACAAAATCACTATGGACACTAACTTTACCAAGGATCTGGACGCTGACTCCATCGACTTGGTAGAATTCATCATGCAGATGGAAGACGAATTCGGCGCTGAAATTCCTGATGAAGACGCTGCTAAGATTATCACAGTCGCTGACGCGGTAGCTTACATCAAGAGCCACCAAGGCTAA
>LACTIS1119B1_03410 phosphate acyltransferase
ATGAGAAAAATCGCGATTGACGCCATGGGCGGGGAAAACGCTCCTGAGGCGATTGTAGAAGCAGTTTTAAAGGCCAAGCCTGAACTGCCGGAAGACAAGTTTATCTTCTTCGGCGATGAAGGCAAGCTGAAAGAGCTGCTGCCAGCAGGCGATGACCAGATCGAAATCGTGGCCACCACGGAAGTTATTCTTGATGAAGATGAGCCAGTCAAGGCAATGCGGACCAAGAAGGATTCTTCCATGGTCGTGGCAGCTAACTGGGTCAAGGAAGGCAAGGCAGACGCTTTGCTGTCACTAGGCAATACCGGGGCCCTGTTAACCTGCGGGATCTTCATTGTCGGCCGGATCAAGGGCGTGGCCCGGCCAGGCCTCATGCCGACCATGCCAGTTGAATCTTCAGATGACGGCTTCAACATCATTGACGTTGGCGCTAATGCTACTAACAAGCCGGAATACCTGCTGCAATGGGCGGAAATGGCCTCCTACTATGCGGAAAAGGTCCGTGGCGTTTCCAAGCCAAGAGTAGCTCTTTTAAACAATGGGGCTGAATTTGACAAGGGCGACGACCTGCACAAGGAAGTCTACCAGCTCTTGCAGGACAGCTCCCTGAACTTCACCGGCAACATTGAAGGGCACGAACTCTTGCAAGGAAAGGCCGACGTTGTGGTCACAGACGGTTTTACCGGCAACGCGGTCTTAAAGAGCATCGAAGGAACGGCCAGCGTCATCATCCACATGCTGAAAGACGGCCTTTTGAACAATGGTGTTAAGGCCAAGCTGGGGGCCCTGCTGGCTAAAGACGCCTTGAAGTCTGTAGCCAGCCGCTTTGACACGGCCAAGTATGGCGGGGCGGTTTTGCTCGGCTTAAACTCACCAGTCGTCAAGCAGCATGGCCGGTCAGACGCCCGGGCCGTCTACTACGCGGTTAAGCAGATCGACAAGATTTTGGCTGAAGACTTAACAAATACCTTTAAGCAAGAATTCAGCAAGTAA
>LACTIS1119B1_03420 ATP-dependent DNA helicase RecG
ATGACTTTAAACGAAGCTATTTTCAGACCGGTGACGGCCTTGAAGGGCGTGGGGGCCAAGACGGCAGAAGCTTTGCAGTCGCTGGGCATTTACAGCATCTACGACTTGCTCTTCTACTTCCCTTACCGCTATGACGAACTGGAGAACCTGCCGCTGGACCAGCTGGAGGACGGGCAGAAGGTCATGCTGAAGGGGATCGTGGCCACCAACCCCTACCAGAATTACTTTGGCTACCACAAGAGCCGGGTCAGCTTCAAACTACGAATTGATCATGATATTATCATGGTCAATTTTTTTAACCAGCCATGGCTGACCAAGCAGCTGAGCGTGGGCCAGGAAATCGCCGTCTATGGCAAATATGACCTGAGAAAGCAGAGCCTGTCAGCTTATAAGCTCTTAGTCAATAAAAACAGTGATGACGGGATGGCGCCGATTTATTCGGTCAACCGGCAGATCAAGCAAAAGAAGCTGCAGACCATGATCGACCTGGCGATTGCCGAAAGCATGGATGAGATGGGCAATGCTGTGCCAGAGGACTTGCGGAAGCACTACCGGCTCATGGCTGACCAGGACCTGGTCATCGCCATGCACCACCCTAAAGACCTGACTGAGGCTAAGGAGGCCCGCCGAAGCGCTGTTTTTCGGGAATTCTTCCTCTTTCAAATGCAGCTGGCCTTGATGTCCAGCCAAAATAAGAGCCACAGTGGTTATGCCAAGCATTACGACCTGGAAGAAATCGGCAAGCTGACCAAGTCTCTGCCTTTTGCCCTGTCTCCTGACCAGAAAAAGGTGATTAATGAGATTTTTGCCGATATGTTTGTTGACCAGCAGATGCAGCGCCTTCTTCAGGGGGACGTTGGGTCCGGGAAAACCGTAGTGGCCGTGTTTGCCATTTACGGGGCAGTGACAGCTGGCTACCAGGCCGCCTTGATGGTGCCAACTGAAATTCTGGCCAACCAGCACTATCACAAAATTTCCGCCATGCTGGAAGATTTCGGCGTCCGGGTGGCCCTCTTAACGGGATCAACTAAAACCATGGAGCGGCGGGAAATCTACAAGGAGCTGGCTGATGGCAGCATTAATGTGGTGATCGGCACCCATGCCTTGATCCAAGAGCAAGTGGCCTTTAAAAAGCTGGGCCTGGTTATTATCGACGAGCAGCACCGTTTTGGCGTTGTCCAGCGCCTGGCCTTGATCAACAAGGGGGACCGGCCGGATATCCTGGCCATGACGGCGACCCCGATTCCCCGTTCATTGGCCTTGACTGTTTATGGCGACACCGCCTTGTCAGAAATCAGACACCTGCCAGCCGGCCGTAAGCCGATTAAATCCTACTGGAAGACCAGCAGCCAGCTAGATGAGGTGTATTCATTGATGCGCCAGCAACTGGCGGAAGGCTTTCAGATTTATGCGGTTACGCCCTTGATCAGTGAGTCGGAAACGATTGACCTGGAAAATGCTGAAGCCCTGCACGACAGGCTGGCCGGTGAATTTCCAGACCAGGAAGTTGTCCTTTTGCATGGGAAAATGGCGGCAGCTGACAAAGAGCAGATCATGGACCGCTTTGCGGCAGGGGAGGTCGATATTCTGGTTACTACCAGCGTGATTGAAGTTGGCGTTGACGTGGCCAATGCCAACTTGATGGTTATCTTTGACGCTGACCGCTTTGGCTTAAGCCAGCTCCACCAGCTGCGTGGCCGGATCGGCCGGGGGCAGACGCAAAGCTACTGCGTCTTTTTAGCTGACCCGAAGACAGAAGCCGGCAAGCAGCGAATGAAGATCGTGGCTGAAACTAACGACGGCTTTAAGCTCGCCGAAGAAGACCTCAAGATGCGGGGCGAGGGTGACCTCTTTGGCAAGGCTCAGTCAGGCCTGCCGGAATTCAGGACGGGCAGCGTTGTCAGCGACTACCAGGTCATGGTGGTAGCCAGGGATGAGGCCAAGCGGATCGTCCAGGCTGATCCGGACCTGAAAGCAGAAAAGTTGGCAGACCTGCAAGCTGTGATAAAATATAAGAAAATCGTACAAGCGAGAGCTTAG
>LACTIS1119B1_03430 DAK2 domain fusion protein YloV
TTGGTTTTAAGTGAAATTAGCAGTAAAGAATTTAGAGACATGGTGCGGATTGCCTCTCACCGGATGAGCAAGAACGTGCAATTCGTCAATGATCTAAATGTTTTCCCAGTTCCTGACGGCGACACTGGCACAAATATGAATCTCACGATGGAAAGCGGGGCTAAGGCCGTTTACGAAAACGCAAGCAGCAGTGTCGGCGACTTGACCGAAAGCCTGGCTAAGGGGATGCTGATGGGCGCGCGCGGCAACAGTGGGGTTATCACCTCCCAGCTCTTCCGCGGCTTCTACAAGGCAACTCAAGGCAAGACCACTTTGAACGCCCAGGAATTGGCAAATGCCTTTAGCAATGGTGTAGCTACTGCCTACAAGGCTGTGATGAAGCCGGTTGAGGGGACCATCTTGACTGTGGCCCGGGTCGGCGCTCAAGCAGGTGCTAACAAGGCAAATGAAACCGATGATGTAGAAGAAGTAATGCAGGCGATCGTTGAAGGCGCCAAGGAAGCTTTGAAGAGCACTCCTGACCTGCTGCCAGTTCTTAAGCAAGTCGGCGTGGTTGACTCCGGCGGCCAAGGTCTGGTCTTTATCTATGAAGGCTTCCTGGAAGGCCTTTTGGGTGAAAACTTCGATGACAAGTACGTGCCAGATGCTGACGAAATGAACTTCTTGATCAACGCTACCCACCACCAGGCAGTGCAAGGGCAACTGGCAACTTCCGACATTGCCAACGGCTACTGTACTGAAATCATGGTTGACCTCAAGGCTGACGTGCCAAACAAGAAGCCATTCGACCTGGAAGAATTCAGAAGCTACCTGTCAGAACTGGGTGACTCCCTCTTAGCAGTTTCTGACGGAGAAATCGCCAAGGTTCACGTTCACACTGAATACCCAGGCAAGGTCTTCCTTTACGGGTCACAATTCGGCCAATTGGGCAAGATCAAGATCGACAACATGCGGATTCAGCACGAAACGATCGTTGACAACGAGCAAGAACAACAAGAAAGCGTTGACTTTGCAGTGATCGCAGTGGCTTCCGGCAACGGTGTCCGCAAGCTCTTTGAAAGCGAAGGGGTCAACCGGATCATCTCCGGCGGGCAAACCATGAACCCTTCAACTCAAGACATCATGGACGCCATCACCAAGTCTGGCGCCAAGCAGGCGATCATCCTGCCAAACAACGGCAACATCATCATGTCCGCCAAGCAGGCTGCTGAAGTTGCTGAAATCCCAGTCGGCATCGTGCCTTCCAAGACTATCCAGCAAGGTTTAACTGCTATGCTGGCCTTCAACCCGGAAGCCAGTGTTGACGCGAACGTTGAAGCCATGACTAATGAACTTGGCTCTGTCAAGTCCGGTGAAGTAACCCGGGCAACCCGTGACACTGAAATCAACGGCGTTGAAATCCACAAGGGCGACTTCATTGGTATCGTTGATGGCACTATTGTGGTTGACGACGTTGATCCAATTGTCGCAACTGTCGCTATGACAGAAAAGATGCTGGATGAAGACTCTGAAATCGTGACCGTGATGTACGGCAGCGATGCTACTGAAGAAGAAGCCCAGGCAGTTGTTGACCGCCTGGAAGCAGCTCACGAAGATGATGACTACGAATTCGAAATTTACGACGGTGGCCAGCCAGTTTACAACTTCTTGATTTCTGTAGAATAA
>LACTIS1119B1_03440 hypothetical protein
ATGGCTGTTAAAATCAAGACAAAGTATGGTTTGATTGATATTTCAAACGGTGTAATTGCAACTGTTGTTGGTGGTGCAGCTACGTCTAACTATGGCGTTGTCGGTATGGCATCCAAGAATGCCATCAGAGACGGAGTCGACAGCATTTTGAGCCGGGCAAACTACAAGCGCGGCGTCGTTGTTAAGTCTGACGAAAATCAAGTAACTGTTGATGTCTATATTATTGTTGGCTACGGCTTGAAAATTTCTGAAGTAAGTCGTAATGTACAAGATAGTGTCAAATATAACTTAAGAAGCCAGCTGGGGATCGACACCAAGGCGGTCAACGTCGTTGTTCAAGGTGTAAAGGTTCTCGACGACTAG
>LACTIS1119B1_03450 50S ribosomal protein L28
ATGGCAAAAGATTTCGTAACCGGTAAGAAGACCACTTTTGGTAACACGCGTTCACACGCTTTGAACTCATCAAGTCGTTCTTGGAAGCCAAACCTTCAAAAAGTTCGCATTCTTGTAAACGGCAAGCCTAAGCGCGTTTGGGTTTCAACCAAGACTTTGAAGTCTGGTAAAGTTACCCGTGTCTAG
>LACTIS1119B1_03460 multidrug ABC transporter ATP-binding and permease protein
ATGACGTTAAAATATGCCAGCAAGTGGAAGTTGCTGGTCTTTGCGGTCTTCGCCGCCGCAAAGGCACTGCAGGCGGTTTTTATCGCTTATGTCTTCCAGGAATTCATTAATTTTGCCGGAAATCCTAAGGGGAGTTTATTACAATTAACTATTAAAGCAGTTGTGGGTATTGTCCTTTTTGCCTGCCTGGCCTTAATCTACCAAATTATGCAGGCGAATATTATCAAAGACGTCAACCTGAAGATCAAGGAGCAGGCAACAAAATATTTGTTGTATTCAGATAATTCTGATCCCAAATTTGACCTGTCCTTTATGACTAATGACCTCAAGCAAGTGGAAAGTCACCGGGTGGAAGCTGAACTGGACATTATTTTCAATGGCCTGCAGTTCATCGCGGCATTTGCGGCAGCCATGCTGTCTTCCTGGGCTTTATCCTTGATTTTCCTGGTCGCCTCCCTGGCTCCCGGCCTTTTGCAGAATGTTTTCGGGCCCAAAATTGAAGCTGCTTCTTCTGCCTGGGAAGGGGAGAACAGCAAATATACTGAGGCAATGACGGACACCATCAATTTTTCCGCTTTTGCCAGACTCTATGACGCTGAAGACAGTATTTACAGCAGAATGCTCCACTACAGCCAGAGAATGGAAACGGCCCTGGCCAAGATGAAAAAGGCGGAAATGGTGACGACAGAAGTCATCACTTCCTTTGCCTACGTCTGCAGCATGATCATTCCTTTCAGCCTGGGGATCTACTTTGTGACTCAAGGGCAGATCACTTTGGGGACCTTCATGATGATCTCCCAGCTGGCCAACAACTTTATCAATCCTATTGTCGGTATCTTTTCTTCGGTCAATGACATTAAAACCAGCAATCCGATCTGGGAAAAGTTTACTGCCGTGGCAGATTTTACAGCAAAAGAAAGTGCTGCGGACCGGGATGAATTTAAGGAACTCTCTTTAGACGATGCAAGTGTGCAAAGAGGGGACCGGAAGCTTTTAAACAATCTCGATTTGACTGTTAAAAATGGTGAAAAAGTCTTGCTGGAAGCACCGTCTGGCTGGGGCAAGACAACCTTGCTTAACGTCTTGGTTGGCCGGATCAAGCTGGCAGATGGACATTACGAGATCAACGGTGAAGACGCCAATGGTGACTGGAGCAAGGACCACGAGTACTTCTCCTTTGTCCAGCAGAAGCCTTATATTCTTGATGATACAATCGAATATAATATCTCTTTAGGCAGGGAAGTCAGCCGGGAAGACCTGCTGGCAGTTTGTCAAAAAGCCGGTTTAACCAGCTTGATTGAGGAAAAAGGTCTGGACTACCAAGTCGGAAAAGAAGGCAAAAACTTGTCCGGCGGTCAGGGGCAGCGGCTGGAAATTGCCAGAGCTCTGCTGGCCAAGCGGCCGGTATTATTGGCCGATGAAGCGACCTCAGCCCTGGATCCCCGCTTGTCCAAGCAAATTCACCAGACAATTCTACAGAATTTCCCTGGCACCGTAATCGAAGTAGCTCACAAGATTTCAGATGAAGAAATAGCTATGTTTGACCGGGTGGTCAATTTAGCCGAGAAGTAA
>LACTIS1119B1_03470 hypothetical protein
TTGACTAAGGCGCAAGAAGCAACTTCTGCCGCTCAAAAGACGGCTGATGAAAAGGCTGACGCGCTCAAGGCAGCTGGCGCTAAGCTTGCTCAAGCCAAACAAGAACTCGCAAGCGCCGAAAGCAACCTGTCTGCTAAGCAAGCAGCTTTGACTACGGCAAATGAAACTCTTGCTGCGGCTGAGCAGGAAAAGACTGCTGATGCCCAAAAGGCATTGGAAGCCGATAAAGAAGCTTCTGCAGCAGGCAAGGCAGCACAAAGCAAACTGGCCAGCGTAAACAAGGAAGCAGCGGATTTGGCACTTACTGAAGCAAAGAAGCACCTGGCTATTTTGGAAGCTTTGGAAGAAGCAAACGAGCCGAGCGAAACTCCAACCACTCCAAGCGACAACAAGCCGAGCGAAACTCCGACTACTCCAAGCGAAGACGAACCAAGTGAAAGTCCGGCTGACTCCGGGGAAACCGAAACTATCGTAATTCCGGCTGGCAAGACTGAAACCAAGGCAACTGGCAAAAAGCAAGCCGCTCCAGCCAGCCCTGTTCAAAAGACTGCTCCAGCAACCTCTGCTGTTAAGGATCCGGCAAAAGCAAGCGCAACTTTGCCGCAAACCGGCGAAAGCCAGAATAAGTCCGCCTTTTTGGCAGGGATTGTGGCACTGCTGGCCAGTGCAAGTCTCTTCGCCTTTGGCCGGCGTAAGAAGAACGAAAAGTAA
>LACTIS1119B1_03480 hypothetical protein
TTGTCAAGCGCGCAAGAGGCAGAAAAGGCTGCTGAAGATGAAGCAAGTGCAACTGAAATGACGGCAGACTCAGCCAGCCAGAAGGCGCAAGCAGCCAAGACGGCTGATGATGAAGCTCAAGCAGCTTTGGCTGACCAAGAAGGCAAGGTAAGCCAAGCTCAAGATAAGGTTGATCAAGAGAAAAAGGCAGTTGACCAGGTAAACGGCCAGGTTAAGGAACTGACTGACACGGATAACGAGGCTAAGGCTGCCAGCGACGCTGCAAATAAAGACTTAGCTGCAAAGAAGGCAGCCGAAAGCGAAGCTGAGCAGGAATACCAGGCTTTACCTAAGGTAGTGGCCAATGACGCCTTGAAAAGGAAAAATTGA
>LACTIS1119B1_03490 thiamine pyrophosphokinase
ATGGACGCGGCAGTGTTGCTTGGCGGGCCAAAGGAAGAATGGCCGGCTGATTTGAAGGAGCAGCTGAAGCAGGCGCAAGCTAAGGGTGACCTTTTGATTGGGGTCGACCGGGGAGCGCTGCTTTTGCTGGAATTAGGCTTTAAGCCGGATTTGGCAATCGGGGATTTTGACTCGCTGAAGGCTGATGAACTGGTCTGGGTAGAAGGTATGGTCGCGGATATCCGCTATTCGGTGCCCAAGAAGGACTGGACTGATTCAGAATTGATGCTGAGGATTGCTTTTGGCGATTATAAGATTGACCAGCTAAAGGTTTACGGGGCTACTGGCGGCCGGCTTGACCACGCGGCGATCAATGCTTTTGGCATTTTGAACCCGGACCTGCGCAAGTATGCCAACCGGCTGACCTTGATTGACAAGCAGAATCTGATTTTTTACCGGCAAGCTGGCAGCTACGAGATGAAGAAGCAGGACTATAGCTACTTTGGGGTGACCTGCCTTCTGCCAGTAGAAGATTTGACGATTGAGGGGGCCTTGTATGACCTGGCTCCTTATAGCGGCGACTATCTACGCTCCTTTACTTCTAATGAGTTTTTGCCAGATAAGGATAGCTGCCGGTTATCCTTGAAGAAAGGCTTAGTAGCGGTTGTTTATTCTAAAGATTTAGACCGCTACCAAATGGCTTGA
>LACTIS1119B1_03500 ribosome biogenesis GTPase RsgA
ATGGCAGAAATAGTACAAGGAACGGTAGTTTCTTTAATTGCCGGCTACTACGACGTGCAAACGCCGGCAGGAGTCGTGCGGACCAGGGCCCGGGGCGTTTTCCGCAAGAACCGGGAGAAGCCCCAGGTCGGTGACAGCGTGCATGTCAAGCTGGATGAACAGGGCTTGGCTTATTTGGTGAAGATTCTGCCCCGGAAGAACCGGATCGGCCGGCCGGCGGTGGCTAATGTCGATCACGTGCTTTTGGTCATTTCGGCAGTTGAACCAGATTTCTCCACCGCTCTTCTGGACCGCTTCGTGGTCTTTTTTGCCTGGCAGGGAGTAAAGGTAACGATCTACCTGTCAAAGAGCGACCTGCTGGAAAAGGAAAAATTGGCAGAAATTGAAAGCCAGCTGGCTTACTACCAAAAGATCGGCTACCGGGTTTACCTGGACAGGGAAAGCCTGGCAGCAGAACTTCCCAAACAGATCGGGGAAAGCGAGATCTGGACTCTGGCTGGCCAGTCAGGGGCGGGGAAGTCAACTTTGCTGAACTTTATCAAGGAAGACGCGGGCCAGGCGACGGGCGCGATCTCAACCAGCTTGAACCGGGGAAAACATACAACCCGGACGGTTACCCTTTTCAAATTAGGGGAAGGCTTTTTAGCAGACACGCCAGGCTTTTCGGCAATTGATCTGACGCCGATCAAGCTGAATGAACTGTGTACGTATTTTAAGGAATTTAAGGCCTTGAGTACGGGTTGCAAGTTCCGGGGCTGCCAGCACCTGCACGAACCGAAGTGCGCGGTCAAGGACCAGCTGGCTCTAGGTGAAATCGCAGCTTTCCGCTATGATGACTATCTGGCCATGCGGACGGAAATCGAGGAAGGCCGGATGCCGGAATATTTGAAGTGA
>LACTIS1119B1_03510 serine/threonine protein kinase
GTGATCAATAAAGGTTATTTGCTTGGAGACCGTTACCGGATCGTCGACACCCTGGGTGAAGGCGGAATGGCCAACGTCTACCTGGCTGATGACATAATTTTGAAGAGACAGGTCGCCGTTAAAATTATTCGCCTTGATTTGCAGAAGGACTCCCAGGTTCTGGCCCGCTTTCAAAGAGAGGCCCTGGCTACCAGTGAACTGAGCCATCCTAATATTGTCTCCGTTTTTGACGTGGGGACCGACCATGGCCTGCCATATATGGTCATGGAATACGTGAAGGGACCTGACTTAAAGGACTATATCCGGGAAAACAGCCCGATTCCCCTCCCACAGGTCATCAAGATCATGGACCAGATTTTGTCAGCGATGGAACTGGCCCACAAGCACAATGTGATTCACCGCGATTTGAAGCCGCAGAATATTTTGATGGATGAAAAAGGCAACATCAAAATTGCTGACTTCGGTATCGCGGTCGCCTTGAACCAAAGCGCGATCACCCAGACCAACTCGGTCCTGGGTTCGGTGCACTATATGTCTCCTGAGCAGACCCGGGGCGGGATGGTCACCAAGCAGTCTGACATCTATTCTTTGGGGATCATCCTGTATGAGGCCTTGACTGGCCATGTGCCCTTTAATGGGGAAACGCCGGTGGCAATTGCCCTCAAGCATGCTGAAGACGATATTCCGTCCCTTAGAAAGCAAAACAAGGCCATTCCCCAGGCCCTGGAAAACGTTGTTTTAAAAGCGACGGCCAAGGATCCGCGGGACCGGTATGCTTCCGTGGCTGAAATGAAGGCAGACCTGGACTCCAGTCTGGATCCGAGCAGGGCAGGCGAAGCAATTTACCGGCCAAGCCACGGCAATAATGATGAAACTAAGATCTTGCCAGCCTTGAACGGCAAGGTCATGCAGGCTGAGAAGGCCAAGGAAGGCAAGGCTGAAGAGCCAAAGAAGCGGTCTTTCTGGGCTAGTATCAAGAAATATAAGTGGTGGTGGATTGGGTCATTATTCCCGGTTTTTGCCATCCTGCTCTTCATGTTTTTGGCAGTTGGCCATAACAATGTCCGGGTGCCGGACGTCGTGAACATGACGGAGAAGGCAGCCAAGACTTCTTTGAAGAGCTCGGGCCTGGCAGTAGGTGCTGTTAAGCGGACTTACTCCAGCGATGTTAAAAAAGGCAAGGTGATTTCGACCACGCCGAAGGCCAACAGTCCCGTTGACAAAGGGGAAAAGGTCAACCTGCTGGTGTCTAAGGGACCAAACTTGACCAAGGTGCCCGATGTTGAGGGCCTTTATTTGTTGACCGCCAAAAAGAAGCTGAACAAGCTGGGCTTCAAGGTCAAGAGCCGGGAGGCACCATCAAATGAGTACCTGCCAGGCTTGATCATTTCCCAAAGCGTCAAGGCCGGCCGCAAGGTAGATGCCTCTAAGACAACGATCACTTTGGTGGTGGCCGTGGCTTTAGAAGACCAGCCTAAGCCTTCAAGCTCCTCCAGCAGCAAGAAGGCAACTTTTAAACTGGCCGATCTGACGGGCAAGAGCCTGGAAGACGCCCAGTCTTACGCCAAGAGCAAGAAGCTCAACGTCAAGGTTGAGAAGGACCACTCGGACAGCGTGGACAGCGGTGACGTGATTTCCACTGATCCTGCCGCTGGCAGCGAGGTCTCTGAGGGTGATACTTTGACGATTACGGTCTCCAAGGGGGCTGAGAAGAAAGAGGTCAAGAAGACCTTCACGGTTGACTACCAGGCTGCAGAGAGCTCATCAAGCTCAAGTGAGTCAAGCTCCAGCTCTTCCTCCAGCCAGGGCAACCATGTCCGGATTTATATCCAGGATGACAACCACAGTCTCGGCAATATTTACCGGGACCTTTACATCACCAAGGACACGGACTTTACGATCACTTTTTCTGTTACTAAGGGTGACGGTAAGATTAAGATTGTCCGTGATGACCAAACTGTAGTTGATGAGACGATTTCGGCAGATGACAGTGAAAGCGGGAATTAA
>LACTIS1119B1_03520 serine/threonine protein phosphatase
GTGATTAAAACGGCATTTGCTTCAAGCATTGGTAGAGTTAGAGAGAGCAATCAAGACTTCGTTCAGATTTTTCAGAATCGCGTTGGGGCAACCATGGCCATCGTCTGTGATGGGATGGGGGGCCACCAGGGCGGCGACGTTGCTTCCACGATGGCAGTCAGCCACCTGGGCCACAATTTCGCTAACACCGACCTGCACGACAAGAATCTGGCCAGAAAATGGCTGGACGTCCAGCTGCGCTCAGAAAACGAAACGATTCTGAAGGCCGCAGACCGCTTCCCGGACTTGAACGGGATGGGCACGACGATTGTCCTGGCCATGTTCTTTGACCAGGAAGTCTTGCTTGCCCACCTGGGTGACTCCCGGGCCTACAGCTACTCTGAAGGGAATTTCCGCCAGATCACTGAAGACCACTCTTTAGTCAATGAACTGGTCAAGATGGGGCAGATCACCAAAGAACAGGCGAAGACCCACCCGCAGAAAAATATCATTACGCAAGCCTTAGGCGTTTCAAGCACTATTGATCCGGAATATAATGAACTTGAAATGAAGACTGACGACGTGCTCCTTCTCTGCACTGACGGCTTGACCAATTCCCTATCGGATCCTTTGATTCAACAGGTTTTGGCGACCAAGGGCCTGAACCTGCAGGAGAGGTGCAACAAGTTGGTCAATGAAGCCAATCGTCTGGGCGGCGGCGACAATATCACCGTCTGCCTAGCCATAAATGAGGAGGATGGCGCGAGTGATCAATAA
>LACTIS1119B1_03530 16S rRNA methyltransferase
ATGAAGACTAACGCCCGCACCGTGGCTTTGGACACCTTGATGAAGGTGATTAACCAGGGCTCATATTCAAATATCAGCTTAAACCACGCGTTAAAGGCGGCTAAGCTGCCGGGTGAAGAGAGCCGGCTGGCCACCAACCTGGTCTATGGGACCATCCAATACCAGCTTTACCTGGAATACCAGCTCAAGGACCTGGTCAAGGCCCGGCTGAGAGAGCCATATATCAAGCCCCTTTTATTGATGTCGGCCTACCAGATCTTCTTTTTAGACAAGGTGCCAAATCGGGCAGTCTTAGACGAGGCCAACAAGCTGGCTAAGGCCTATGGCCGGCCAAAATCTAGCGGCTACCGCCTGGTTAACGGGATTTTGCACTCGCTTTTACGGCGAGGAGAGGTCCTGCCGGAAAAAGACGCGCCAGACTATCTCAGCGTCAAGTGCAGCATGCCCCTTTGGCTGAGCGACTATTTCGTAGCCAACTGGGGCAAGAGCAGGGCAGAAAAAATCATGGCCAGCTTCAACAGCAAGGCGAAAAACGAAATCCGGATTTCGGCTTTGGCTGATGAAAAGCGGGTCGTCCGGGACCTGGACCGGGCCCATTTTGCCCCTCAGGAGTCGCCTTTGGCCAGCCGCAGCTATGCCTTAAGCCGGGGCGGGATCGTGATGACCGACTTTTTCAAAGATGGTGAAGTGACGGTGCAAGACGAAGCAGCCAGCCTGGTGGCAGAAGCCTTTGACTTTAAGGGAAATGAGCAGGCCCTTGATGCCTGCAGCGCCCCAGGCGGCAAGACCATTCAAATAGCTGAGCAATTGCCTGACGGGCAAGTGACTGCTCTGGATATCCATGAAAAGAAATTGCGTCTGGTCAAGGAAAATGCCGCCAGAATGCGGGTTGCTGACCGGGTCAAGGTCAAAACTTTGGACGCGCGGAAGGCAAGGGAGTATTTTTCCGGGCAAGAATTTGATAAGATATTGATAGACGCACCATGTTCCGGTCTGGGACTGCTGCGCCGCAAGCCGGAAATCCGCTACACGAAAACAGCGGAAGACATCAGCCATTTGGCTGAAATCCAACTGGACATTTTGAACGAAGTATCCGGCTTGCTGAAAAAGGGCGGGGAGTTAGTCTACTCCACCTGCTCAATCTCTGTAGAAGAAAACGAAGAAAACGTGCGGAAATTTTTAGCCGCGCATCCAGATTTTGCATTGAAACCATTTGAAACGGCCAAGATCTCCGCGCCCAAGGGGATGCTGAAGATCCTGCCCGACAGCTACAACAGTGATGGATTTTTCATTGCCAAGTTTACGACAAGAGGTTAG
>LACTIS1119B1_03540 methionyl-tRNA formyltransferase
GTGAATTCAGTAATCTTTTTAGGAACGCCGCAATTCGGCGCTACAGTTTTGGAAGGCCTAATCAAGGCCGGTTATCATATTTTGGCCGTGGTCACCCAGCCGGACAAGAAGGTTGGCCGCAAGCAAAAGGTCGTTTACTCCCCGGTCAAGGAAGTGGCTTTGGCCAACGACTTGCCTTTATACCAGCCAGTCCGCCTGTCCAAGTCAGCTGAACTTGACGAATTGCTGCAGCTTGACGCCGATTTCATCATCACCGCGGCCTTTGGCCAGTTTTTGCCGACCAAATTCCTGAAGTCCGCTAAGATCGCTGCTGTTAACGTGCACGGATCCCTTTTGCCGAAATACCGGGGCGGGGCACCGATCCAGTATGCGGTCAGAAACGGGGATGCGGAAACCGGGGTCACCATCATGGAAATGGTCAAGGAAATGGACGCCGGCGACATGTATGCCCAGGCCAGCCTGCCGATCAGACCAGATGAGACCAGCGGGGAAGTCTTCGAAGAACTGGCTCCGCTTGGCCGGGACCTGCTTTTGGAAACTCTGCCAAAGATTGCCAGTGGCGAAATTGTCAAAAAGCCGCAGGATCCAAGCCAGGTAGTCTTTTCCCCAACCATCAGCAAGGCTGAAGAAAGAATTTCCTTGAAATTGACGGCCAAGGAGGCCAAGGACTTGATCCGGGCCCTCAATCCGGACCCAGGCGCCTACCTGGTCATCAAGGGCCAGCGCTTAAAGGTTTGGAAGGCAGAAGTGGCTGACGACAACACCAGTCTGCCAGCTGGCCACCTTTTGACAAACCAGGGCCGCTTTGCTATCAGCTTTGCCGGCAACACGGTCTTGAACCTGCTTGAAGTCCAGCCAAATGGCAAGAAGGCCATGGCCATCAAGGACTTTTTGAACGGGCAGGGGAAGAAGTTTGCAGCAGGAGAAAAGATCGTAGATGAAGACTAA
>LACTIS1119B1_03550 primosomal protein N'
TTGATCGCAGAAGTTATTGTCGATGTGGCCGCCCACCAGACTGACCGCGTTTTTGAATACCATATCCCTGATGACCTGGAAGTTGAAATTGGCAGCCGGGTAGTGGTGCCTTTTGGCCGCCGCAAGGTCCAGGGCTTTGTCGTCGCCGTGAAAAAAAGCAGCGACTTTACCGGCCAGTTAAAGGACCTGCTCTTAGTGGTCGATGAAATGCCGCCTTTGACTCCCGAGCTGGTCGCCCTGTCCAGCGACCTGGCCCGGCAGATTTTTGCCTACCGGATCAGTATCCTCAAGACCATGCTACCGGGGGTAATGCGGGCCAATTACCGGAAAATCCTCCTGCCAAACAGCCCGCGGGCAGAGCAAATGCCTCTTTTTGCGGGAGACCCGGTGGATTTGGCCAACTTAGAAGAGCCGCGTCTGATCAAGCTGGTCAAGCAGCTCCTGAATAAGGGGGAGGCCAGGATAGAATACCTGGTTGAAAATAAGGCGAAAAAGAAGCTGGTTTCAGTCTACTATCCGCTTCTATCGGCCGCTGACTACCAGGAGATTTTTTTAGAAACTAGAAAAACGGCCAGCCAGCAAAGAAAATTGCTGGCAGATTTGGCCGGGGACTTTGCGGCTTATCCTAAAAGCCGGGAAGAATTGACCGGTCTGGGCATCAGTTCAGCAACTTTAAAAACGGCGGTCAGCAAGAAATGGCTGCAGGAAAAAGACCAGGAAAAATACCGGCGGCCAACCAAGCCGGTTGCTCCCAGCCGGCCTTTAGACCTAAATGACGAGCAGGCCGCGGCCTTGAGCCGGGTCAGCCAGGACATCAAGGGCCGGGTCAGCCAGACCTTTCTTTTAGAAGGAGTGACAGGGTCCGGGAAAACCGAAGTCTACCTGCAGGCGATCAGCCAGGCCCTGGCCTTGGGCAGGGCAGCCTTGATGCTGGTGCCGGAAATTTCCCTGACCCCCCAGATGGTCAAGCAGGTCCAGGCTCGCTTTGGCCAGCAGGTGGCGGTTTTACACTCGGCCTTGTCGGAAGGTGAGCGCTATGACGAATGGCGCAGGATCCGCCGGGGGCAGGCCCAGGTGGTCGTAGGCGCTAGAAGCGCGGTTTTTGCCCCCTTGGACAATTTAGGCCTCATCATTATCGATGAAGAGCATGAAGGCTCCTACAAGCAGGACAACAATCCCCGCTACCATGCCCGGGACGTGGCAATTTGGCGGTCCCGCTACCACCACTGTCCCTTGATTTTGGGTAGCGCGACGCCGTCTTTGGCCAGCCGGGCCCGGGCCCAAAAGGGGGTCTACCAGCTTTTGCGCTTAAAAAAGCGGGCCAAGAGCCAGCCTTTACCGCGAGTCGACCTGCTTGACTTAAAGCACGTGCAGTTTGCCGGCAGCCAGTTTGACATCTCCTGTCCATTGGCTGAGGCGATTCAAAAGCGGCTGGAGAAAAAAGAGCAGGTAATCCTGCTTTTAAACCGGCGGGGCTTTGCCAACTTCATGCTCTGCCGCAATTGCGGCTTTGTTTTAAAGTGCCCTAACTGCGACTTGTCCTTGACCATGCATAAGGACACTTGTACTATGCAGTGCCACTATTGCGGCTACCAAGAAGCTGTTCCGGAAATTTGTCCCAACTGCCGGGACCGGCAGATCCGCTTTTTGGGGACGGGGACGCAGAAGGTGCAAGAAGAGCTGGCTGAGCTTTTTCCGCAAGCTAAAATCCTCCGCATGGACGTGGACACGACCCGGAGGAAGGGCAGCTATGACAAGATTTTGACCAGTTTTGGCCAAGGAGAAGCCGACATCTTGCTGGGCACGCAGATGATCGCCAAGGGCCTGGACTTCCCTAATGTAACTTTGGTTGGGGTAATCAATGCCGACACTGGTTTATGGCTGCCCGACTACAACGCTTCTGAGCGGACTTTTGAGCTGCTCACGCAAGTAGCTGGCCGGGCAGGGCGGGCCGACAAGGAAGGGCAGGTCATGATCCAGACTTATAATCCGGACCACTACGCTATCCACCTGGCGCAAAAGCAGGACTATGAGCTTTTTTACGCTAAAGAAATGCAGGTCCGCCATGCCGGCGACTACCCGCCTTACTTTTACACGGTCCTGGTCTCCGTTTCAGCCAAAAATGAGCAAAACGCGGCCCGGGAGGCTTTTAAAATCAAACGGCAATTGCAGAGGGAATTGCGGGCGCCGACTATTATCTTAGGGCCGGCTCCGGCAACGATCAGCCGCTTAAAGAGCCAGTATTATTACCAAATACTGGTAAAATATAAAAGAGAAAAACACTTAAATGAGCTCCTGCACCAGATCCAGGACCAGGCCCAGGAAGTGAAAAAGTACGGCTTGACTGTTGAGATCGATTCAGAGCCAGAGAGAATTATGTAA
>LACTIS1119B1_03560 DNA-directed RNA polymerase subunit omega
ATGAGAATTACCTATCCATCAATTGACAAGCTGCTAGATGAAGTTGATTCAAGATACTCACTGTCAGTTCTGGCTGCCAAGCGGGCTGGTGAACTGGAAGCCGGCAAGCCGGGCGCTTTGGACAACTACCACAACTTGAAGCCGGTCGGCCAGGCATTGGAAGAAATTGCTGCCGGCAAGGTAACGATTGACGCTGACCCTCACGGTGAAGCTGACAAATAA
>LACTIS1119B1_03570 guanylate kinase
ATGGCAGATAAAGGATTACTGTTGGTTTTGTCCGGCCCGTCCGGGGTGGGCAAGGGAACCGTCAAAAGCGCAATTGTTGAACACAAGGTCTTCCCCTTCGAATACTCAGTCTCAATGACTACCCGCAAGCCCCGTGAAGGCGAAGTGAACGGGAAAGACTACTACTTCGTGACCAGGGAAGAATTCAAGCAGGCGATTGCTGACAATCAGCTGCTGGAATACAACGAATACGTCGGCAACCTTTACGGGACCCCTTTGGGCCCGGTCAAGGAAATGCTGGCTGCCGGCAAGGACGTCTTGCTGGAAATCGATGTCAACGGGGCCAAAACGGTTCGCCAACAAATGCCAGAAGGCGTCTTTATTTTCTTGACGCCGCCTGACCTGCACACTTTAAGAGACCGGCTGGAACACCGGGGCACGGAATCCGAAGACGTGATCCGGGGCAGAATTGCCCAAGCGCGCAAGGAAATTCTGGTGATGCAGGACTATGATTACGCGGTAGTCAACGACACTGTCGCCAACGCCGTCAACCACATTAAAGCAATCGTTGATGCTGAACACGTCAGCGTCAAGCGCGTGATCGGCGATTATCGGAAAATGGTTAAGGAGGACTAA
>LACTIS1119B1_03580 hypothetical protein
ATGTCCAAATTTCAAAACTTTGCCAGCCGAGCCGCTCAGCCCCTTAAGAAGGCCTTTCACTATCTCTTTGCTTATGACGAAGACCGGCTCACCCTCCGCGGCGACAGCCTGGCAGTTAACTTAGCTAAATTGCAGCTGGCCTTCTTGAAGAGGCAGTATCTCCTGGTCACCTTAAATGACGGCAGCTGGCGGGTTGGCAAGATCACCAAGCGGATTTCACCCAGCCGCTTCGTTTTCCGCGATGCCGACAACAAGATTTTTTACTTGCTTGACATTAATGACATTTTAACAGTTGAGCTGCCTTAA
>LACTIS1119B1_03590 hypothetical protein
TTGTTTGACGGCATCAAGAATGCCACGGCTATTACTGCCGGCAAGAAGCCTTTATCCAGCCTGGGCGTGAAAGCAGAAGGCGACTACAAGCTGGTCGTGACTTTGGACCGGCGGATTCCTTACTTCAAGAACTTGATGACTTTCGCCCTCTTCTTCCCGCAGGCAGAAAAGGCGGTCAAGAAGTACGGGTCCAACTACGGGACGACTTCAAAGTACATGCTTTATAACGGGCCGTATATGCAAAAGGGCTGGACGGGGTCCAACCTGTCTTGGAAGATGGTCAAGAACAAGTACTATCTCAACTGCTTACTTGATCAGACCGGAAATCAATAA
>LACTIS1119B1_03600 hypothetical protein
ATGAGACCAATTAAGAATAAAGCGCCGCTGGCTCTGGCGGCCTTGTCAATGATTATGCTGACGGCTTGCGGCAAATCCAATAGCCAGGCCAGCAAGAAGCAGGAATTTTCCTGGTCGACTTCAGCTGAAATTTCGACCATTGACATGTCCAAGGCCAGTGATACTGTCAGCTTTGACCAATTGCGGAACACAATGGAAGGCTTGTACTGGACCGGGAAAAATGGCAAGTTGATGCCGGCCCTGGCCACCAGCAGCACGGTTTCCAAGGACGGCAAGACCTATACCTTTACTTTGCGCAAGTCCAAGTGGAGTAATGGCAGTCCGGTCACGGCCAAGGACTTTGTCTATTCCTGGTGA
>LACTIS1119B1_03610 DNA repair protein RecN
ATGCTTGTTGAATTGGATATCCAGAATTTTGCTATCATTAAGAGTCTGAAAATCAAGTTTCAGCCGCAAATGACAGTCCTGATCGGGGAAACCGGCGCCGGCAAGTCCATCTTGATCGATGCTTTGTCACTTTTGCTGGGCCACCGGGCCCAAAAAGAAATGGTCCGGTCTGGCCAGAGCAAGGCAGTGGTGACGGGCCTTTTTACCCTGCAAGATGAGGAAATGCGGGAAGTTGAACAAATCGCGGATGACTACGGCTTGCCGATGGACGGTGATGACCTGATCATCAGCCGGGAGATTTCCAGCAAGGGCCGGAACGTCATCCGGATCAACGGGCAACTGACCACCATCACCGCTTTGGCAAAAATTGGTGAGTACCTGGTCGACATCCATGGCCAAAACGACCAGCAGATGCTGATGGACCAAAGCCGGCAGATTGACCTAGTCGATGAATACGCGGGCAAGGACTTCAAGCCCCTTTTATGCAAGTACCAGGCTGAATACCAGACCTGGCAAAGCCTTAACCAGCGCCTGGAGCACCTGCGCCGGGACAGCCGGGAACTGGCCCAGCGCCAGGACATCCTCCAGTTCCAGGTCGAAGAGTTGACCCAAGCGGATTTGACGGATGAGCAGGAAGACCAGAACTTGGAAGACGAGTTCAACAAGCTGAACAATTACCAGAAGATTGCTGAATCCGCCAACTTCATGATCCAGCTTTTTGACGATGACGAGCATGGCTTAACCAGCCTGCTGGGGGATGCCCAAGGAACGGCAGAAGATTTGGCCGACCTGGACAAGGAATTCAAGAATGTGGCCCAGTCCATTACTGACGGGGTATATTCGCTGAGCGATGCCCGCTCAGAACTGGGCGACATCATGGACAGCTTGGAATTTGATGAAGAACGCTACCAGTACGTGCAAAACCGCCTGGACCTCTTGAACAACTTGAAGAAGAAGTATGGACCAAGCCTGGCAGACGTTTTTGACTTCTATGCAAAAGTCTCCAAGGAGCTCAGCCAGTTTGAAACTGGTGGCCTTGACGAAGAAGAACTGGTCAAGCAGATAGCCGCTGTTGAGGAAAAAATGTCAGTCATGGCGGCTGACCTCCACCAGGCCAGAGAATCTACCGCCTTGAAGCTGGAAGAAGCGATCAAGCATGAACTGGCTGACCTGTACATGGACAAAGCCCGTTTCTCCATCCGCTTCGCCAAGACTGATAATTTCACGGTCAAGGGGACTGATGACCTGGCCTTCTACATCGCGCCAAACCCAGGCGAAGAGCTGATGCCACTGGTCAAGATCGTTTCCGGCGGGGAACAGTCCCGGCTGATCCTGGCCCTAAAGGCTATCTTCTCCCGGGTTGAGCCGGTTGGCACCATGGTCTTTGATGAAATTGACACCGGGGTTTCCGGCCGGGTGGCAGCGGCCATCGGCAAGAAGATGCACGCGATTGCCGGCCAAAAGCAGGTTATCGCCATCACCCACTCCCCGCAGGTAGCGGCCAGCGCCGACCACCGCTTTGCCATCGCCAAGCAGGTTGCAGCCGGTGAGACCTTTACCCAGGTCAAGGAACTTGATGAAGACAGCAGCATCAAGATGATCGCCCAGATGATGGCCGGAGCTAATGTCAGCGAAGCTGCTGAGCAAAACGCGGCCGACCTGATTGCCAGTCAGCGGAAACAAGATTAG
>LACTIS1119B1_03620 cell division protein FtsJ
ATGGCAAGTAAAGAACGCGCGGACGTATTATTGGCCGCCAAGGGAATTTTTAACTCCAGAACTCAGGCCCAAAGAGCCATCATGGCGGGTCTTGTAACTGACCACAACCACCAGCGGATCGATAAGGCCGGGGAGAAGTTTCCCGTTGACGAGGAATTTTTCATTAAAAGGGATAAGCTCAAGTATGTTTCCCGGGGCGGTTTCAAATTGGAAAAGGCGGTCAAGGTCTGGAACGTTGACTTAAAAGACAAGGTCTGCCTGGATATCGGGGCTTCAACTGGTGGCTTTACCGACGTGGCCCTGCAAAATGGGGCCAAGCTGGTCTATGCCTTGGACGTGGGCTATAACCAACTGGCCTGGCAGCTGCGGGATGACCCCCGGGTGGTGGTGATGGAGCGGCAGAACTTCCGCTACTCGGTTCCAGCCGACTTTACCGAAGGCCTGCCGGACTTCGCCATGACCGACGTGTCGTTTATCTCCCTGGACTTGATCATGCCTCCGATGTATGAAATCTTGAAAGACCAGGGGGATGCCGTCTGCTTGATCAAGCCCCAGTTTGAGGCCGGTCCGGAAAATGTCGGCAAGCACGGGATCGTCCGGGACCACGCGGTTCACCAGGCAGTGATCGAGCACACTATGGCCAAGGCCCTGGAAATTGGCTTTTCCATTTTGGGCGTTGACTATTCACCAATCAAGGGCGGCAAGGGGAATATTGAATTTTTGCTTCACTTGAAGAAGGACCAGGCAAATCCAGGGCAGAATCTCTGGTCCGGCTCAGTCAGTGAGCTGGTTGCCCGGGCTGCCCAGGGTCTGTAG
>LACTIS1119B1_03630 geranyltranstransferase
ATGACAACTTTTAAAGAATTTCAAGCTAAGTACACGCCAATCATCAATGATTTTTTAGAAGGACAACTGGCAAAAGAAAGCGATGACTCCCGTTTTGCTGAAATCATGGCTTATTCAGTTATGGCTGGGGGCAAGCGCCTGCGGCCTTTGCTCTTTTTGGCAACTTTAGACGCCTTGGGCGTTGAGATCACCGAAAAAGAAGTCCAGGCCGCCTGCGGGATTGAACTGATCCATACCTATTCTTTGATCCACGATGACCTGCCGGCCATGGACAATGACGATTACCGGCGGGGGGAATTGACCAGCCACAAGAAATGGGGCGAAGCTGAAGCTATTTTGGCCGGGGATGCCCTCCAGCCTTTAGGTATCCAGTGGATCGCCCAGGCTGAACATAATTGGAAGCTGATCGAGATCATTACTGAAGCTGTGGGTCCAAAGGGGATGGTGGCTGGCCAATATCTGGACATCGATACCACCAACAATGAAGACAGCAGTGAAGAAGTGATTGACCACATGGAATGGTTGAAGACCGGCTGCTTGATTTTGGCCAGCGTTCAGATGGCCACGGCATTAGCTGCTTGTCCTGACCAGCAGGCCCAAAAGTACCTGGCCTTCGCCAAGCACTTTGGCCGCTCTTACCAGCTCTATGACGACCTGGTAGACATCGTTGAAAGCCAGGAAGAAGCGGGCAAGGCGACCCATAAGGACCAGGAAGTGGGCAAGAACAACAGCTTGACCATGCTGGGGGCAGAGGCAACCAGAAATGAACTCAAGCAGCTGATTGAAAAAGGCAAGGCTAACCTGGCCGGGGAAAAGGCAGAAGTTTTGTTGGGCTTTTTGGATTTATATCAGAAGGTACTGTAA
>LACTIS1119B1_03640 exodeoxyribonuclease VII small subunit
ATGACTGAGAAGAACAATTTTGAAAGCCAGCTCAAGGAGCTGCAGGAAATCGTTAGCCAGCTGGAAAATGGCCAGTTGTCACTGGAAGAATCATTGGCCCAGTTCCAGACCGGAGTCAAGCTGAGCCGGGAATTGAAGCAGGAATTGACCAAGGCCGAAAACACCGTGGCCAAGTTGATCGAGTCTGATGGCAGCGAGAAGGAACTTGATCCAACCGATGCTTCAGCACCAAAGGAATAA
>LACTIS1119B1_03650 exodeoxyribonuclease VII large subunit
ATGGACTCGATTAAGGGGATGGACGAAAAGTACCTGACTGTCAGTGAATTAAATTGGTATGTTAAGCAGAAATTTGACCAGGATCCCTACCTGCGGCAAATTTTTCTCCAAGGGGAATTGTCGAATTTCCGCTTCCGGAGAGGTGGTCACCAGTACTTTTCTTTAAAAGACGACAAGTCTAAAATCAATGTGGTGATGTTCCGCGGAGACTTTGACAAGGTTAAGTTCGAGCCGGAAGAAGGGATGAAGGTCTACGTGACCGGCCGCTTGTCAACTTATGAAGCCCAGGGCAGCTACCAGTTTTATGCCAAAAGCATGGAACCGGCCGGCCTTGGTGCCTTGTATGAACGCTTTAGGCAGCTGCAGGAGAAGCTGGCTAAAGAAGGCCTCTTTGCCCAAGAGCACAAGCGCCCTCTGCCCCTTTTTCCAGATAAGATCGCTGTTGTGACTTCAGCCTCCGGGGCGGTCATCCACGACATCATGGTAACGGCTAACCGCCGCTTCCCGCACGCTGAAATTGACCTTTTTCCAGCCCAGGTGCAAGGGGAAAGCGCAGCTGGCAGCTTGGTTTCTGCTATGCAGCAGATCCAAGCCCGGGCAGATGAATATGACGTGCTCATTATCGGCCGGGGGGGCGGGTCTTTAGAAGACCTGTGGCCTTTTAACGAAGAAGAAGTGGTCCGCCAGGTTTATGCCATGAAGATGCCGGTGATTTCATCAGTTGGTCACGAAACAGATACCACCCTCTGTGACCTGGTAGCTGACTGCCGGGCGGCTACGCCAACGGCAGCCGCTGAAATGGCGACGCCGGCCCTGACCCTGGTCTTGGCTGAAATTGGCCAGCTGCAGACCCGGCTTTTGACCGACATCCGGGCCGTGATCCAGGTCCGGGCCCAGGCCCTGGCCCAGCTGGAGAATTCTTTTATCATGAAAGAGCCCCAGCGCCTCTATGAGCAGAAGATGCAGCAGGTCGACCAATTGTCCCAGCAGCTGAGCCAGATGATGGAAGTAATTGTCAAAGACCAGGGGCAAAAGCTCAGCCTTTTGACCCAGCGCCTCCAGCACCAGGCCCCAGACCGGAGAATCAAGCAGCTTAAGCAGGAAAACAGCTACCTGGCCAAGAGCCTGGAAATGGGGATCAAGCGGATTCTGGAACAAAAGCAGGCTGCCTGCCGGCAGGCCGTCCAGCAGCTGGACGACTACAGTCCTTTAAAGACCCTGGCCCGGGGCTATAGCTACACGACTGACGCGAGCGGCAACGTGGTCAAGTCAGTTCAGCAATTGGCTCCAGGCGACCAGGTTCGCCTGCACTTAAAGGATGGCCAGGCCATCGGCCGGATTGAAGAGATTAAGGAAGGAAAGAATGACTGA
>LACTIS1119B1_03660 bifunctional 5,10-methylene-tetrahydrofolate dehydrogenase / 5,10-methylene-tetrahydrofolate cyclohydrolase
TTGGGAGAAATTTTAGACGGGAAGAAGCTGGCCCGGGAATTAGGGGAAAAGTTAGGCAGTGAAGTGGATTCCCTAAAAGAGCATGGGGTCAGTCCCAAGCTCTGCGTCATCAATATTGGCGATGATCCGGCTAGCAAGGTCTATGTCGCCTCTAAGAAGCGGAAGGCTGAGAAGCTGGGCATCAAGCAGGTGGTTTATCAATTGCCGGCTGATGAAAGCGAAGAGGATGTCTTAAAGTTGATCGACAGCTTGAACGCGGACCCGGAAGTTTCCAGCCTGATGGTCCAGTTACCGGTTCCCCCGCAGATCAATGCTGACCGGGTCATTGAAAGGATTGATCCGGAGAAGGACGTTGACTGCCTGACTCCGGCCAATATCGGCCGCCTCTGGCAGGGCAAGCACTTTGTCGAACCAGCTACGGCTGCCGGCATCATTGCCCTTTTGGACCACTACCAAATTGACTTGACTGGCAAGAACGCCGTGATTGTCGGCCGGTCAAACATTGTCGGCAAGCCCCTGGCTGCCTTGATGCTGGAAAGAAACGCTTCTGTATCAATCCTGCACTCCCGCAGCCGGAACTTGGCTGACTTGACCAAGCAGGCCGACATCCTGGTCTGCGCGGTCGGCAAGGCGGAAATGATCAAGGCGGACATGGTTAAAGAAGGGGCGGTCGTGATTGATGTAGGCATCAACCGGGTGGACGGCCACCTGGTCGGTGACGTTGATTTTGCCCCCGTTAAAGAAAAGGCCAGCTGGATCACGCCTGTGCCTGGCGGGGTTGGCCCTTTGACGGTAGAGTTTTTAATGGAAGAAGTCATCAAATTGACGAGGAGACAGCATGGACTCGATTAA
>LACTIS1119B1_03670 transcription antitermination factor NusB
ATGAATCAACACGATAGTCGAAGAATTGCACTGCAAGCCATTTATCTGTACAACCAGGATCCCAGCGTGACGGCCAGTGAATTGGAAAACAATGTCAAGTCCGCTTTGGACTTGGATACTTTGCCGGCCTACAGCCAGGAACTGGTCAGCGGCGTGATCGACAAGCAGGCTGAACTGCGTGACAAGCTTTCCGCCAACTTGAAGCAAGGCTGGCGCTTGGAACGGCTGAGCAAGACCAGCTTGGCAATTTTGGAAGTAGCCCTGTATGAAATGCTGTACAGCCCGGTTATTGAAGATCGGTCAGCCATCAACGAGGCTTTGAACTTGTGTGACGAGTTTGATGATCCGAAGTCAAAGGCCTTCATCAATGGCATATTGGCAAACTTTGTGCAAGAATAA
>LACTIS1119B1_03680 alkaline shock protein
ATGGCTGATAATTCAACAATCGTTTTAAGCGGCAATGATGAGGGCGATCAAATCAAGATCGACCTGCAGGTACTCGAAGTCATTCTGGGCATTTCAGCTCAGAAGGTCGACGGTGTTGCCGGGATGCGCGCTGGCTTGAAGTCAGGCTTGAGCCGTGTCTTTGGCCGCGAGGATCGGGGCAAGGGAGTTGCCGTCTCAGTTGATGAAGACGGCGAACTGACGGCTGACGTTTACGTATATCTCAAGTACGGCGTCAACGTGCCAGCTGTTGCGGGCAAGATTCAAGAAGCTCTGAAGCAGCAGCTGACTCAGATGACGGATATGAATTTGAAGTCCATTGATGTTCATGTCGTTGGTCTCGTCTTCCCTGAAGATGAAAAGAACTTTGAAGATGCTGATCAACCATTATTCCCCGATCAAGAAGAAGATAAGTAA
>LACTIS1119B1_03690 translation elongation factor P
ATGACAATGATTTCTGTTAACGAATTCAAGAACGGCCTCACGATCGAATACAACAACGACCTGTGGCGTATCGTTGAATTCCAGCACGTTAAGCCAGGTAAGGGCGGTGCCTTCGTTCGTTCAAAGCTGAAGAGCTTGCGGACTGGCGCCGTTCAAGAATACACTTTCCGTTCAACTGCCAAGGTCGAAACGGCTGACATTCAAACTCGGCAAATGCAATACCTTTACAACGACGGTTCAAGCTATGTCTTCATGGACACGGCAACTTACGAGCAATTGGAAGTGCCAAACGCTCAGATCGACCAGGAAGCCAAGTACTTGAAGGAAAACATGATTGTGAACATTATTTCCCACAATGGTGAAACCTTGGGTCTGGACCTGCCAAACACGGTTGACCTGAAAGTCGTTGAAACCGAACCAGGCATCCGCGGCGATACCTCATCAGGTGGTGGTAAGCCAGCTACGATGGAAACCGGTTTGGTTGTCACTGTGCCATTCTTTATCAATGTTGGTGACGTGCTGACGATTAACACTAGTGACGGTTCATACGTATCACGTTCTAAGTAG
>LACTIS1119B1_03700 Xaa-Pro aminopeptidase
ATGAGCAAGAACAATGAATTGTTAAGTCTGTTGACCAGACGGATCAAGGGAACTGCTGACTTGATCAAGGACAAGGACGCGGATGCCCTCTTGGTTTTCAACCGGGCAAACTACCGCTACCTGACCAATTTTACCGGTGAAGAAGCCCAGCTGATCATTACCAAAAACGGCGACCGGGTGCTTCTGTCAGACTCCCGCTTTGCCCCGCAAATCGAAGCCCAGGCAGTGGGTGAACTGAAGGTAGTCATGAAGCATGGCCACGAAGCGGCCGAAATCGCGGCAGAAGTCAAGAAGCTGGGGGTCAAGAAACTCTTAGTCGAAGCAGAATTTGTTTCTGCTTATGAATATGACGCGATCAAATCCCAGCTGCCAGATGTTGACCTGGTGATGGCTGCTGAAATCGTTGAACGGGTCCGCAATGTCAAGGATGACCTGGAACTGGCCACTCTTAAAAAGGCTGTTGAAATCTCAGAAAGAGCCTTTGAAGAAGTTCTGCCAATGCTTAAGCCAGGTGCCAAGGAAAGAGACGTGGGCGCCAAGCTCGACTACCTCTTCAAGCTCTACGGCGGCGACGGCCCGGGCTATGACTCAATTATCGCTTCTGGTCCCCGTTCTTCCTGGGCCCACGGGGTGGCCAGCGACCGCTTGATGCAAGAGCACGAACTGGTCGTAATTGACGCGGCCGCTTCATATAACGGCTACACCGCCGACATTACCAGAACCTACGCTTTGGGCAGCGTGGAAGACGAACTGGAAAAGATCTACAAGATTGTTCTGGAAGCACAAAAGCGGGGGATTGCCGCCGCTGTTGCCGGGGCAACTGGCAAGGACGTTGACCAGGCAGCCCGGGGCTACATCAATGACGCCGGCTACGGGCAATACTTCGGCCATGGGATTGGCCACGGAATCGGCCTGGAAATCCATGAAATGTGTCAGCCGGAATTTTTGTTCAGCCAGACGACCCTGGAAAACGGGATCGTGCACACGGTTGAACCAGGCATCTACCTGCCGCAAGGCGGGGTCCGGATCGAAGATGATATTCTGGTTAATGGCGACACTCCGAAAGTTTTGTCCACTTTGCCAAAGGACGAACTCATTCACCTGTAA
>LACTIS1119B1_03710 50S ribosomal protein L27
ATGATGATGAACATTCTTTCAAACGCAAAGTTACTCGCCCACCACAAGGGTGGTGGTTCAACTACCAACGGTCGTAACTCAGCTGGTCGTCGTTTGGGCGCAAAGCGTGCCGACGGTCAAGAAGTACACGCTGGCTCAATCATCTACCGTCAACGTGGTACTAAGATTCACCCAGGCAAGAACGTTGGCCGCGGTGGCGACGACACTTTGTTCGCACTGACTAACGGTGTTGTTAAGTTCGAACGTCTTGGCAAGTACAAGAAGCAAGTTTCTGTTTTGCCAGTAGAAGACGCTGAATAA
>LACTIS1119B1_03720 50S ribosomal protein L21
ATGTACGCAGTTATTAAGACCGGTGGCAAGCAATACAAGGTTGCCGAAGGCGAAAGTATCTTCGTTGAAAAGCTTGACGTACAAGCTAGCGAAGAAGTTGTTTTTGACCAAGTTATCCTGGTAGCTAATGGTGACGACGTTAAGGTTGGTACTCCATTAGTTGAAGGTGCTAAGGTAGTTGCTAGTGTTGACAAGCAAGGCAAGGAAAAGAAGGTTGTAACTTTCAAGTACAAGCCAAAGAAGCACTCACATTCTAAGTACGGTCACCGTCAACCTTACACCAAGGTTACTGTTAAGAGCATCGAAGCTTAG
>LACTIS1119B1_03730 arsenate reductase
ATGCCAAAATTCTATGGATACAAGCGCTGCTCCACTTCCCGGAATGCCCAGAAGTGGTTTGACGACAAAGGCATCAGCTATGACTTCCAGGACCTGGTGGAGACTCCACCGGAAAAAGACCTGCTCTTGTCCTGGCTGACCAAGTACCAGGACCGCGGCCTGCGCTACTTTTTCAACACCAGCGGCCAGCACTACCGGCAAATGGGCCTGAAAGACAAGTTGCCAAATATGACTACAGAGGAAGCCGCTGATCTCTTGTCTAAAGACGGCAAGCTGATCAAGCGCCCCCTGGTCGTTGATGACCAGCACTTAACCTGCGGCTTTAAAGAAGAGGTCTACGAGCAGACCTGGAAATAA
>LACTIS1119B1_03740 cystathionine gamma-synthase
GTGGTCATTCACTCAGCCACCAAGTACCTGGGCGGGCACAACGACATTTTAGGCGGGGTCGTGGTGGTCAAGGATCCGGTTTTGGCCGATTTTTACTTCCAGTACACCATTACGGTTGGCGACACTATGTCCGCCTTTGACAGCTGGCTTTTGAACAGAAGCTTGAAGACTCTTCCTTTAAGAATGCAGCAGCACACGGCCAGCGCGAAAAAGATCGTTTCTTTCCTGGAGCAGGCGCCGCACGTGGAAAAAGTCCTCTACCCGGGCAAGGCGGGGATGATCTCCTTTTATTTGGACAGCGACGAAGAAGTCGACCGGGTTCTCAAGAGCGTCAAGCTGATTACTTTCGCGGAAAGCTTGGGCGGGCCAGAAAGCCTCTTGACCATTCCTTACTACCAGACCCATGACGATGTTGCAGAAGACCAGCGTCTCAGGCTGGGAATTACGCCGCGGCTTTTGCGGCTCTCAGTGGGCCTGGAAAACGCGGACGACTTGATTGCCGACCTGGCCCAGGCCTTGGGGGAATAA
>LACTIS1119B1_03750 cystathionine gamma-lyase
TTGGAAAATTTGCTGGGGCTTTTGACGCCAAAGACCAAGCTTGTTTGGCTGGAAACCCCGTCCAACCCGATGATGAAGAGCGTAGACATCCAGGCCGTGGCTGATGCTATTCATGACTATAATCCTGATATCCTGGTGGCCGTTGACAATACTTAA
>LACTIS1119B1_03760 ABC-type branched-chain amino acid transport system, ATPase component
TTGCAGCTGGGCGCTTACCTCCGAAAGGACAAGGACGGGGTGGAAAAGGACATGGAAGCCATGTTCAAACGCTTCCCGATCTTGAAGGAACGGCAAAAACAAGACGCCGCAACTCTTTCCGGCGGGGAACAGCAGATGCTGGCCATGGCCCGGGCCTTGATGGCGCGGCCGAAGCTGCTCTTGCTGGATGAACCATCCATGGGTTTGGCGCCAATCTACATCCAGGAAATTTTTGACATTATTAAAAGCATCAACAAGGAAGGCATGACTGTCCTCTTGATTGAACAAAACGCCTGGCAGGCCCTCAGCATTGCCAACCGGGGCTACGTTTTGGCCTCAGGCGAAGTTAAGATGACCGGCAGCGGGAAGGACCTGCTCAACGACCCGGCCGTGCAAAAGGCCTACCTTGGTGGTTAA
>LACTIS1119B1_03770 phosphoribosylamine-glycine ligase
ATGAAAGACAAGCTGAAAATTTTGGTAGTCGGGTCTGGCGGCCGGGAATTCGCCGTCGCCCGCGCTTTGAAGAAGAGTCCGCACGTTGCAGAAGTCTTCTGCGCGCCGGGCAACTCCGGCATGGCCGCGATCGGCGTTAAAGCTACCGGTATTGCAGAAGACGACTTCAAGGCCTTGAAGGACTTTGCTATTAAGGAAGACATTGCCTGGACCTTTGTGGGTCCGGAAGATGCCTTGGTAGCCGGGATTGTTGACTACTTCCATGCTTTTGACTTGAAGATCTTCGGGCCTAATGCCAGAGCAGCCCAATTGGAAGGGTCAAAAGACTATGCTCTGCAGTTCATGGAAAAGTACCAGGTGCCGCACCCACGTTATGAAACCTTCCAGAGTGCGGAAACTGCCATTAGTGCCTTGCCAGACTTTGGCTTGCCAGTTGTTTTGAAAGAAGACGGCCTGGCCGGCGGGAAAGGCGTGGTCATCGCTGAAGACCAGGAAACGGCGGAAAGTACTTTGACGGAAATGTTTGCCAAGGGGCAAAAGCAGGTAGTTCTTGAAGAATTCCTGACTGGCCCGGAATACTCCGTCTTTGCCGTTATGCAGGGGGGCAATTACCGCCTCCTGCCTCTGGCTCAGGACCACAAGCGGGCCTATGACGGCGACAAGGGGCCGAACACCGGCGGGATGGGGTCATACAGCCCGGTTCCGCAATTGAGCCAGGCTGAATACCAGGAAATCGTTGACCAGTTGGTTGAACCGACGGCCAAGGGTCTGCTGGCTGGCGGCTATGACTACCACGGCGTTTTGTACCTGGGCCTCATGATGACTAAGCAGGGGCCGAAAATGATCGAATACAATGTTCGCCTGGGTGACCCGGAAACGGAAGTTGTTTTGCCGCGCTTGAAAAGCGACTTTGCGGAACTGGTTGCTGCCTGCGTAAATGATGAGGAAATGCCAGCCGTTGAAGAAAAGGATGAGGCAGTCCTCGGCGTCATTTTGGCCGCTGAAGGCTATCCGAAGAAGCCGCTTAAGGGGCAAAAACTGGGCCAATTGCCAGCTGAAGATGGCATTTTCGTTGACTGTGCCAACGTAACCGGCCCGGCTGCTGATTTGGCCGGCAGCGGCGGCCGGATCTTGATGGTCCGGGCTGAGGCAGCTGACTTAAAAGAAGCCCAAGAACACGTTTATGCCTACCTGGCCAAGCTGGATATCCCGCAGACATTCTACCGGCGTGATATCGGCTACCGGGCAACCGGCAAGCGCTTTTAA
>LACTIS1119B1_03780 bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase / IMP cyclohydrolase
ATGAAGCGTGCACTTGTAAGTGTTTCAGACAAGAACAACTTGGTTCCTTTCGTCAAGGGCCTGGTGGCCAATGATTACGAAATCGTGTCAACTGGCGGTACCAAGCGCGTTTTGGATGAAGCCGGCATCCCAACTATTTCAGTTGAAGATGTGACTGGCTTTCCGGAAATTCTTGACGGCCGGGTCAAGACCTTGAACCCCTACATCCATGGCGGCCTCCTGGCCCGGCGGGAATTGCCGGAACACGTGGCAACTTTGAAGGAACACAAGATTACGCCAATCGACTTGGTTTGCGTTAACCTCTACCCATTCAAGCAGACCATTGAAAAGCCTGACGTGACCCTGGCTGAAGCTATCGAAAACATTGACATCGGTGGCCCAAGCATGGTGCGGTCAGCTTCCAAGAACTACCGCGATGTAACGATCGTGGTTGACCAGGCTGACTACGACCAGGTTTTGGCTGAAATTGAAAAAGACGGCTCTACCAGCCTGGAAACCAGGGCCCGCTTAGCGGCTAAGGCCTTCCGCCTGACTGCTTCATACGATGCCTTGATTTCCCAATACTTGACTGAAAAGGCCGGCGAAACTGCTCCGGAAAAGCTGACTTTAACTTACGACTTAAAGGAAGCCATGCGCTACGGGGAAAACAGCCACCAAAAGGCCTGGCTCTACGAAGATGCCCTGCCAAAGGCCTTCTCAGTTTTGCAAGCTGAACAATTAAACGGCAAGCAGCTGTCTTACAACAATATCAAGGATGCTGACGAAGCCTTGAGATGCGTCCGCGAATTCAGCAAGCCAACTGTCGTGGCCATGAAGCACATGAACCCATGCGGGATCGGCCAAGGGAATACTTTAGAAGAAGCCTGGTACCGGGCTTACGTTGCTGACCCTGTATCAATTTTTGGCGGGGTAATTGCCTTGAACCGGAAGGTTGACCTGGCAACTGCTGAAAAGATGCACAAGATCTTCCTGGAAATCATCATCGCACCAGACTATGATGAAGATGCTTTGGCAGCCTTGAAGACCAAGAAGAAGAACCTCCGGATCCTTAAGCTGGACTTCAGCAAGAAGGACGAAGCAACCAGCAAGGAAACTGTATCCGTCATGGGCGGTTTGCTGGTGCAAGACCAGGATGTTCTGGACGAAGACTTCGCTGACTGGGAATGCGTAACTGAGGCCAAGCCAACGCAAGAGCAGCTGGAAAGTCTCCTCTTTGCCTGGAAGGCAGTCAAGCACACCAAGTCCAACGCGATCGTTGTCGCTAACAATGAACGCACCCTGGGTGTTGGAGCCGGCCAGCCAAACCGGATCGACTCTGAAAAGATTGCCATCGACCACGCGGCAGAAGCCCTGGACGACCGGGCAGTCATCGCCAGCGATGCCTTCTTCCCATTCAGCGACTGCGTTGAATACGCCGGTAAGCACGGCATCAAGGCCATCGTGCAGCCAGGCGGGTCTGTCCGTGACCAGGAATCCATCGACATGGCCAACAAGTACGGCATTGCCATGGTCTTCACTGGCGTCCGTCACTTTAGACACTAA
>LACTIS1119B1_03790 phosphoribosylglycinamide formyltransferase
ATGAAAGTAGCAATTTTTGCATCCGGCAACGGAACTAACTATGAAGTTCTGGCCGAACATTTTCAAAAGGGCGACCTGCCCGGCGACCTTGCCCTGCTCTTTTGTGACCACCCGGACGCTCCGGTGATTAAGCGGGCAGAAAAATTCCACACACCGGTAGTGACTTTTACGGTCAAGTCCTGCGGCGGCAAGCAAAAGTACGAAGAAAAGATCCTTCGAGTCTTAAAGGACTACCAAATCGACTTTATTACTCTGGCTGGCTACATGCGGGTGATCGGGCCAACGATTTTGAGCGAATATGAAGGCAGAATCGTCAACCTTCACCCGGCTTATTTGCCGGCTTACCCAGGCCTGCACTCAATTGAACGGGCCTTTGCCGACCACCCGGCTGAAACCGGGGTAACGGTTCACTATATCGACTCAGGCCTGGACTCTGGTCCGGCCATTGCCCAAAGGCACGTGCCGATCTATGACGACGACACGGTTGATACTCTGGAAGCAAGAATTCACGAATGTGAACACCATCTGTATCCGGAAGCCTTGAGAAAAGCTTTGCTGAAATTTGAAGAGGAGAACAAATAA
>LACTIS1119B1_03800 phosphoribosylformylglycinamidine cyclo-ligase
ATGATCGTGAATCGCTATAAGGATGCGGGCGTTGACGTTAATGCTGGCTATGAACTGGTGCGCCGGATCAAGGGGGCGGTAGCCTCAACCAAGCGGCCAGGCTACGTGGGCAATATTGGCGGCTTTGGCGGTCTGTTTGACCTTGATTCCCTGGGCTATGACCACCCGGTCCTGGTTTCCGGGACTGACGGGGTCGGCACCAAGCTGATGATCGCCCAAAAGATGGACAAGAATGACACCGTTGGGATCGATGTAGTGGCCATGTGCGTTAACGACGTCCTGGCTCAAGGGGCTGAACCGCTCTTTTTCCTGGACTACATTGCCTGCGGGCACAACGATCCAGCCCTCCTGGCTTCAGTTGTCCAAGGCGTGGCTGAAGGCTGCAAGCAGGCTGGGGCCAGCTTGATCGGCGGGGAAACCGCAGAAATGCCTGACATGTACGCCCCAGACGAATACGATCTGGCCGGCTTTACAGTTGGGGTAGCGGAAAAAGACCGCCTTTTGTCAGTTGACACTCCGCAAGCTGGTGACGTTCTCTTGGGCCTGGCTTCAAGTGGGGTCCACTCCAATGGCTTTTCATTGGTCCGCAAGATCCTCTTTAAGGACCATGATGTCAAGCTGACTGACAAGCCAGCTGAACTGAAGGGCAAGAGCGTGGGTGAAAGCCTGCTGGCTCCAACCAGAATCTACATCAAGTCTGTCCTGCCTTTGATCAAGCAAGGGCTGGTTCACGGCGTGGCCCACATTACCGGGGGCGGCCTCATCGAAAACGTGCCGCGGATGTTCAATGACGGCCTGCGGGCAGAAATTGCCGCTGGCAGCTGGGAAGTCCCGGACATCTTCAACTACCTCAAGCAAGTCGGCAATTTGTCAGATGATGACTGCTGGCAGACCTTCAACATGGGTTTGGGGATGATCCTGGCAGTACCGGCTGACAAGAAAGAAGAAGCCAAGCAGCTGCTTTTGGCAAGTGGCGAAAAGGTCTTTGAAGTTGGCCACTTGAGTGAGAGAACTGACGGCGAGAAGATCATTATTAAATTGGTAGAATAA
>LACTIS1119B1_03810 amidophosphoribosyltransferase
ATGCCTTATGAAATCAAAGGATTAAATGAAGAATGCGGCGTTTTCGGGATCTACAATGTCCCTGACGCGGCCAACGTGACCTACTTTGGTCTCCATGCCCTCCAGCACCGGGGCCAGCAGGGGGCCGGGATCGTGGCTAGCGATGGCCAGAAGCTCCGCCAGTTCCGTGACCGGGGTCTCTTGTCAGAAGTCTTTTCCAACCCGGCTGACCTGGACTTTTTAAAAGGGAACATGGCTATCGGCCACGTCCGCTACGGTACTGCCGGTTCAGACTCCCTGGCCAATGTCCAGCCCTTCCTCTTCCACTTCCAGGACGGGGAAATCGCCCTTTGCCACAACGGGAACTTGACCAATGCCAAGACGCTGAAAAAGCGCCTGGAAGATTCCGGGTCAGTCTTTCAGTCAAGCTCTGACACGGAAGTCTTGATCCACTTGATCCGCCGCAAGGTCCGTATGCCTTTTATCGAAGCCTTGAAGGCCAGCTTGAACGAAGTCAAAGGGGGCTTTGCCGTCCTCTTGATGACCAATGACACCCTCTATGCCGCCCTTGACTCTAACGGCTTCCGGCCCCTGGTTTTAGGGCAAATGGACAACGGCAGCTATGTCGTAGCCAGCGAATCCTGCGCCCTTGACGCGGTACACGCCAAGCTGGTCCGGGATGTGCAGCCAGGTGAACTCATCACCATCAACAAAGACGGGATCAATATTGACCACTACACGACTGAAACCCAGCTGGCCGTCTGCTCAATGGAATACATCTACTTTGCCCGGCCAGACTCCATTATCCACGGGGTTAACATCCACACCGCCAGAAAGCGGATGGGGATACTGCTGGCTAAGGAACAGCCAGCTCCAGAAGAAGCGGACATGGTTATCGGGGTGCCAAACTCTTCACTTTCAGCCGCGACTGGTTATGCTGAAGCAGCTGGCCTGCCTTATGAAATGGGCTTGATCAAGAACCAATATATTGCCCGGACCTTCATCCAGCCGACCCAGGCTCTGCGTGAGCAGGGGGTTAAAATGAAGCTTGCTCCTGTCCGCGGGGTGGTCAGCGGCAAAAATATCGTGGTCGTTGACGATTCAATCGTCCGCGGGACGACTTCCCGGCATATCGTGCAGATGCTGAAAGAAGCCGGGGCCAAGTCCGTCCACATGCGGATTGCTTCTCCGCCTTTCAAATACCCGCACTTCTACGGGATTGATATTTCTGAAAGAAAAGACTTGATGGCGGCCAAGTACAGCGTCAGCGACATGTGCAAGCTGATCGGGGCCGACAGCCTGGGCTTTTTGAGCATTCCAAGCCTGATCAAGGCAGTCGACATGCCAGATACCGGTGACGCGCCAAACGGGGGCCTTACGGTTGCTTACTTTGACGGCAAGTACCCGACTCCTTTGTACGACTACGAAGAACAAATCAAGGAACCGCTGAATGTGGAACCGGTTGAAGAAATTTTAAAGAAGCAAAACAGAGGTGAATGA
>LACTIS1119B1_03820 phosphoribosylformylglycinamidine synthase II
ATGATGCAGGAAATGACTCCAGAAGAAATCAAAGAAAAGAAGCCTTATCTCGATTGGAGCTTGTCTGAAAAAGAATACGACTACATCTGTGACAAGCTTTTGCACCGCCTGCCAAACTACACTGAAACCGGCCTTTTCTCAGCCATGTGGAGCGAACACTGCTCATACAAGAAGTCTAAGCCGGTTCTCCGTCTTTTCCCAACCAAGGGTCCCCGCATTTTGCAAGGGCCTGGTGAAGGGGCAGGGGTTGTTGACATCGGTGACGGCCAAGCTGTCGTTTTCAAGGCTGAAAGCCACAACCACCCAACTGCTGTTGAACCTTACCAAGGGGCAGCTACTGGTGTCGGCGGGATCCTGCGTGACGTCTTCAGCATGGGGGCCCGGCCAGTTGCTACTTTGGACTCTCTGCACTTTGGTGAATTAGATGACGCCCACACCCGCTGGCTTTTAAACGAAACTGTCGCCGGCATCGGCGGCTACGGCAACTGCATGGGGATCCCAACTGTTGGCGGCGAACTCACTTTTGACGACATCTACAAGGGCAACCCAGTCATGAACGCCATGAGCGTCGGCCTTTTGGACGTTAAGGACATGCAAAAGGGCCTGGCCCAAGGTGAAGGCAATGCCGTAATGTACGTCGGGGCCAAGACTGGCCGTGACGGGATCCACGGGGCAACCTTTGCTTCTCACTCCTTTGACTCAGAACACGAAAGCCAACGCTCAGCTGTCCAAGTTGGTGACCCCTTCATGGAAAAGCTGCTGCTTGAAGCCTGCCTGGAATTGACCCAAAAGCACGCTGACTGGCTGGTCGGCATCCAGGACATGGGGGCAGCCGGGATCGTTTCCTCAAGTTCAGAAATGGCTTCAGAAGGCAAGTCCGGCATGGAACTGAACCTGGACCTGGTACCGCAAAGAGAAAGCGGGATGTCAGCCTACGAAATCATGCTGAGTGAATCCCAGGAAAGAATGCTGCTTTGCGTTAAGAAGGGCCACGAAGAAGACGTCAAGAAGATTTTTGACTTCTACGACCTTGACGCCGTTGTTATCGGCCGGATTACCAGCGGTCACAACTACGTTTTGCGCCACCACGGCGAAATTGTCTGCGACATCCCGGTAACCAGCTTGACTGAAGACGTATTGGAAGAACCAAGCGAAGAAAAGCAGCCGCAGCACATGATCGATGACGCGGCTAAGCCGGCCTGGGAACCTGAGATTACGGATTTGGCAAAGACCTACAAGCAGATGCTGGCCCAGCCAACCATCGCTTCTAAGGGAATGTTCACCCAGACCTACGACTCCATGGTCAGAACCAGCACGGTTGTCGGGCCTGGTGAAGACAGCGGTGTTTTGAGGGTTCGCGGCACCCACAAGGGGATTGCCATGACCACTGACGGCAACGGCCGTTTCATCTACCTGGACCCGGAAATCGGGGGCAAGCGGGCCGTTGTTGAAGCAGCTGGCAACATCATCGCCAGCGGGGCAGAACCTCTGGCCATCACTGACTGCTTGAACTTCGGTAACCCGAATGAACCAGAAGTCTTCTGGGAACTCCACCACTCAGTCATGGGGATTGCCAAGGCCTGTGAAGTCTTAGAAACTCCAGTTGTTTCCGGTAACGTTTCCCTTTACAACGAAACTGACGGCAAGTCCATCTACCCAACCCCAATGGTCGGCATGGTTGGTCTGGTCAAGAACCTGGACCACCTGGTCAGAGACAGCTTCCAAGAAGAAGGCGACGACCTTTACTTGGTCGGCCAAACCGGGGCGGACTACGCCGGCTCAGAACTGCAAAAGATGCTGACCGGGGAAATCTCCGGGTCCTTGAACGATTTGGACTTAGACCACATTAAGGACTACCAGAAGCGCCTCTTGGCCCAAATGGAAGCCGGCCACGTGGCCAGCGCCCACGACTTAAGCGAAGGCGGCCTGGCTGTCAGTCTGGCTGAAAGCAGCTTTGGCCACGGGATCGGGGCAGAAGTTGCCTGCGACTTGACCAGTGCCGAACTCTTCAGCGAAACTCCAGGCCGCTTCCTGGTCAGCGTGCCAAGCGAATACTCAGCTGAATTTGCTGCAGCTTTGGCAGCTGACGCGGTCAAGATCGGTCAAACGGCTGGCGATAGCCTGAAGCTGACCTTGAAGGACCAAGCAGCTGACTTGCCGGTAGCGGAATTGAAGCAAATTTGGGAGGAAGCCCTGCCATGCCTTATGAAATCAAAGGATTAA
>LACTIS1119B1_03830 phosphoribosylformylglycinamidine synthase I
ATGAAGTTTGCGGTAATCCAATTCCCGGGCTCCAACTGCGACATCGACCTCTACGAAGCCTTGCACACGGTTTGTGGAGCTGACGTGGCCTACGTTCCTTCCAAGGAAAGCAGCCTGGACGGCTTTGACGCTGTCATGCTGCCAGGTGGCTTCTCATACGGGGACTACCTAAGAGCCGGCGCTATTGCCCGCTTTACCAATATCATGCCCGCTATTGTCGAAATGGCCAAGGCCGGCAAGCCGGTCTTCGGGACCTGCAACGGTTTCCAGATCTTGACCGAAGCTGGCCTTTTGCCAGGCGCTTTGAAGAGAAATGACTCTTTGAAGTTTGTCTGCAAGACGGTTGAATTGGAAGTAGCCAACAACGACACCATCTTTACTTCTGAATACCAAAAGGGTGAGAAGATCAACCTGCCGATCGCGCACGCTGACGGCTCCTTCTACGCCGACCCGGAAACCTTGCAGAAGATCGAAGACAATGGCCAGGTCGTTTTCCGCTATTCAAAGGAAAACCCGAACGGCTCTTTGAACAATATTGCCGGGATCACCAACGAAAGAGGCAATGTCTTAGGGATGATGCCTCACCCGGAACGGGCAGTCGAAGCCCTCTTGGGCAACACCGACGGTTTGCGCCTGTTTAAGTCAATTTTGGACCACGCGGAGGTAAAAGCGTAA
>LACTIS1119B1_03840 phosphoribosylformylglycinamidine synthase
ATGACTACTGTACGGATTTACGTTACTTACAAGCAATCAGTTTTCGACCCGCAAGGTGAAGCCATCACCAACTCAATTCACTCTTTGGGCCACGATGAAGTCAAGGGCGTCAAGGTCGGCAAGTTCTTCGATGTAACTATTGAAGAAGGAGACAAGCCTGTAGCAGAAACTGTCAAGGAAATTTCTGAAGAGCTGCTGGTCAACTTCAACATGGAAACCTACAGCTACAAGATCTTGGAGGAAAAATAA
>LACTIS1119B1_03850 phosphoribosylaminoimidazole-succinocarboxamide synthase
ATGGCAGAATTGCTTTATCAGGGTAAGACTAAGGAAATGTGGACCACTGACGATCCAGAAGTGCTCCGGGCTGTTTACAAGGACGATGCTACCGCTTTGGACGGCTTGAAGCACGATGTCTTCCAAAACAAGGGTGAACTTGACGCGGAAATTTCCAGCCTGGTTTTCGAATATTTGATGAAGCATGGGGTGAAGACGCACTTTATCAAGCGCTTGTCTAAAAACGAACAATTGGTCAAGAAGGTCAAGATGATCGACCTGGAAGTCGTTACTCGGAATATCGCGGCTGGATCATTCTGCAAGCGTTATGGCTTGAAAGAAGAAGGCGAGAAGCTGGACACTCCAGTTGAAGAACTCTTCATGAAGAGCGACGCCCTGCACGACCCGCTGATGAATGAATCAGACGCCATTGCCTTCCACTTGCTGACTCATGAAGAACATGAACAGATCTGGGAAATCTCCCGCCAGGTCAACCAGCTTTTGACCAAGCTCTTTGCAGACGCCGGCATGCTGCTGGTTGACTTCAAGGTTGAATTCGGGACCCTGCCAAACGGTGAAGTCGTCCTGGCTGACGAATTCTCACCAGACAACTGCCGCCTGTGGGACATGGAAACCAAGGACCACATGGATAAGGACGTTTACCGCCGGCAAATCGGCAACCTAATCGATGTTTACGAAAGAGTTTTGGCCCGTTTGAAGGATGCTTTGGCCAAGGAGGATTAA
>LACTIS1119B1_03860 adenylosuccinate lyase
ATGATTGAACGCTATACCCGACCAGAAATGGGTGCCATTTGGACTGATGAAAAGAAGTATGAATGCTGGTTGGCAGTAGAAATCGCTGCTGATGAAGCCTGGTCCAAGCTTGGCCACATTCCGGCAGAAGACGTGGAAAAGATTAAGCAGAACGCCAAGTTCAGCGTTGACCGCATCAACGAAATTGAAGCCGTGACTCACCACGACGTTATTGCCTTCACCCGGACCATTTCTGAATCATTGGGGCCGGAAAAGAAGTGGGTGCACTACGGCTTGACCAGTACTGACGTGGTTGACACTGCCCAGGGCTACCAATTGAAGCAGGCTAACGACATCCTTCGCAAGGACATCCAGGACTTCATCGACATCCTGGCCAAGCGGGCCCTTGAATTCAAGGATACGGTCTGCATGGGCCGCACCCACGGCATTCACGCTGAACCAACTACTTTCGGCTTGAAGTTCGCCCGCTGGTACTCAGAAATGAAGCGGAACCAGGAACGCTTTGAACATGCTGCCCGCGGAGTGGAAGCCGGCAAGATTTCCGGTGCCGTCGGGACTTTCGCTGAAGTTGACCCAGAAGTAGAAGCATATGTCTGCAAGAAGCTGGGTCTGCACGCCCAGGAAATTTCAACCCAAGTCCTGCCACGTGACCTGCACGCTGAATACATTGCTGCCATCGCCCTGGTTGCAACTTCTTTGGAAAACATCGCTACGGAAATCCGTTCTTTGCAAAGAACGGAAATCCACGAAGTTGAAGAACACTTCGCCAAAGGGCAAAAGGGTTCTTCCGCTATGCCGCACAAGCGCAACCCGATCGGTTCAGAAAACATCTGCGGGATGGCCAGAGTTCTCCGCGGCAATGTCGTAACTGCCTACGAAGATGTAACCCTGTGGCACGAAAGAGACATCTCCCACTCAGGTGCTGAACGGGTAATCCTGCCAGACAGCACCATCGGTCTTGACTACATGCTCAACCGGATGGGCAAGATCCTGGCCAACCTGGACGTCTTCCCGGAAACCATGAAGAAGAACATGGACAAGACTTTGGGCTTGATCTACTCCGGCCGCGTTCTGCTCAAGCTGGTTGAAAGCGGCATGAGCCGGGAAGCTGCCTACGACTTGATCCAGCCATACACGGCCAAGTGCTGGGCTGAACAAATTCCATTCCGGCCTCTCCTTGAAGCAGACCCAACCATTCAAAAGCAACTGACTAAGGCTGATCTTGACGATGCCTTCGACCACCACTGGCACCTGCGCCACGTTGACGACATCTACAAGCGCCTAGGTTTGGAATAA
>LACTIS1119B1_03870 phosphoribosylaminoimidazole carboxylase ATPase subunit
TTGTCTATTAAAATCAAGCCCGGCCAAACGATCGGCATCATTGGCGGGGGGCAATTAGGGCAAATGCTGGCTTTTGATGCCAAGGCCAGCGGAATGAAGGTCATCATCCTGGACCCAACTCCGGCTTGCCCGGCCGGCCAAGCCGCAGATGACCAGATCGTGGCTGAATACAGTGATATCGATGCCATCCATGAACTGGCCTCTAGAAGCGATGTCTTGACCTACGAATTTGAAAACGTGGACCTGGATGCCCTGGAGAGCGTCAAGGACCAGGTCTTTATTCCGCAAGGGACCAAGCTTCTATACACGACCAACAACCGGATCCGGGAAAAGACTTTTATCCAAAGTGCCGGCTGTGAAGTGGCCAAGTTCAGAGCGGTCAAGAACCGGGCTGACCTGGAAGAAGCCGTCAGTGACTTGGGCCTGCCAGCCGTTTTGAAGACCTGTGAAGGCGGCTATGACGGCAAGGGCCAGGTTGTTTTAAAAGCAGCTGCCGACTTGGACAAGACTGCTGATGTCTTGGCTTGCGGTGACTGCATTTTGGAAAAATTTGTCGACTTCCGTATGGAAGCCTCCGTCATGATTGGCCGCAACTCTGATGGCCAAGTCACGGTCTTCCCGGTCAGCGAAAACATCAACCAGGGCGAAATCCTGCATGAAAGTATCGTCCCGGCCCGGATTTCCCCGGACTTGGCCCAAATGGCCCAGGAGGATGCCGTTAAGATCGCTGAAGCCATTGACCTAAAGGGGATCTTAGGCGTAGAAATGTTCGTTACTAAAGATGACAAAATTGTCATCAACGAACTTGCTCCCCGGCCCCACAATTCCGGCCACTACTCAATTGAAGCCTGCAACTTCTCCCAGTTTGCCGTCCACAACCGGGCTATCTGCAACTGGCCTTTGCCAAAGATCAAGCTGCTCAGCCCGGTCGTCATGGTCAATGTATTAGGCCAGCACGTGGCCGGCACGGAAAAGCTGATCGCCGAAAAGCCGCAGTGGTCCTTCCATGACTATGGCAAGGGCGAGGTCCGCAGAGACCGGAAGATGGGGCACGTGACGATCCTGACTGATGATGTCGACAAGACTTTGGCCGAGATTGCCGCGACAAAAGTTTGGGATGTATAA
>LACTIS1119B1_03880 phosphoribosylaminoimidazole carboxylase catalytic subunit
GTGACTAGTAGAATCAGTGTTGTAATGGGCTCCAAGTCAGACTGGGGCTATATGCAGGAAGCTTGCAAGCTGCTCGACAAGTTTGGGGTTGACTACGACAAGCAGGTTATTTCAGCGCACAGAATGCCGGAGGGAATGTTCGCTTTTGCCCAAAAAGCAGCGGAAAACGGTACTAAGGTGATCATTGCCGGCGCTGGTGGGGCAGCCCACCTGCCAGGCATGATCGCTGCCAACACTCCCTTGCCGGTAATTGGCTGCCCAGCCAAGACCAGCGCTTTAGGCGGGATGGACTCCCTTCTTTCCATTGTGCAAATGCCAGCCGGCATCCCTGTAGCGACGACTGCCATCGGCCCGGCCGGCGCCAAGAACGCGGCTCTTTTAGCCATACAGATCTTAGGCATCGAAGATAAAGAACTCCAGCAAAAGATCGTGGACTACCGCAAGGAAATGCACGACCAAGCCAAAGAAAGCAGTGCAGACCTTGTCTATTAA
>LACTIS1119B1_03890 hypothetical protein
ATGGATATTACAGGATTTTTCAAGGATGGCCGCCTGCAGGTCATTCCCCGCAAGCAAAAGGCGAAAGAGGCCTTGTTTGAAGCGCTAATCGACCGCTTTGAAAATTTGGCCGGGACTATTCTGAAAAGGAAGTCAATGAAGTTTTGGCGGCAGTCTATAACGACTACGCGATTTTGCGCCGCTACTTGGTTGACACTGGCCGCTTGGGGCGGGACCCTTATGGCTAGCATTACTGGCGGGCAGAAAAGAAAGATTGATTTTATGGCATTTAAGATAACCACATGGTGGTCTTTTTTTACGATTTTTTAA
>LACTIS1119B1_03900 hypothetical protein
ATGCCGAAACTGAACTTGGTTGCCGATGTAAAATACACGGTCAAGCAAGAACAGAAAACTTTTGCCTGGATCTTGCTTCTGCTTCCCGTGGCAATTATTTCAGCCGGACCGCTTGACCAGTGGCAGATGTACTTTCAAAGCGGCAAGACTGTTAATTCCGGGACGATTTCTGTCTTGATGAGTCTGTCCGGGATGCTGGCGATTTCCCTTTACAACCGATATGTGTCCAAAAAGCCGCTGTCTAATAGGGGGCAGATCCGCTTGATTGTTGTCAGCACGGTTATGATGGCTGCTACTTTGTTCGGCGTGGTTGGTCTGAAAAACTGGTATTATGGGTCTCTGAGCTTGTTCATGCTCCATACCATGTTTGGCAGCTTGGAAAACATGCTGGGCGGGATTGTTTTGCAAACGACGATTCAAACAGAGAACCGCCGGGCGACGATTATGTCTGTTGCCAATGCCTTGGACGCTGGCGCCGAAGTCGTGATTTTGGCAATTAACGGCTTTTTGTCTGACCGCTATGGCATCGGCTTTGCCTGGGTAAGTCTGGCCGCTTTGGGCTTAGTTATCTTTTTGCTGGCAATTTTTGGCATACAGAGTAAAAAATTGGAAGTTGAGGAGATTTAA
>LACTIS1119B1_03910 hypothetical protein
TTGATTTCCAACTCCAGCCAGGTGCAAGGCTTTACTTATAATGTTGCCCACAAGTGCTATTACATTGCCTTTAACGATTATCTCTTCAAGATCGATGCCAAGGGCAACTTGGTCAACTACTACCACTTCAATGCTAAGCGGGAGGTAGAGGGCCTGGCTTCTTACAAGTCAAAGATTTATGTAGCGATGAACAAGCGTGCCGAAGTTTTTGACTCCAACATGGTGAAGTAA
>LACTIS1119B1_03920 hypothetical protein
TTGGTTAAGAGCGTCAGCTTGGTTAACAACGAGCTGGATACCAACGGCTTCGTGACGACTGATGCCATCAACTACGTGACAGACAAGCACGGCAGTGTGGTTGACGTTAATTCGGTGAAGCGGTCGGCCGACCGGATTTCTGAAAAGACGCCGGGCCGGTACGTGGTGAATTACCGCTACGGCAAGGCCAGCGGGAAGGTCGCGGTGACGGTCAGAAGCGATGTCAATGAAGGGATTTCCAAGACTGATGCCAAGCTGGGCAAGGGCGGCAATGTTGGCAAGACCTGGTTCCCGCATGAACTGGCTTTTAGAGGCAACTACAATGCCCAGGTTAGCTCGCACACTTACGTCGGGACTGACAAGCATGGCAAGAAGACGGCTAAATTGACCACTAAGTTTTATGAGCCAAATTCTTTTAGCCTGCTGGAAGGAAGCCAGGAGACCAATGTCCGGGGAAATGTTCAGGGTTTGGATGTGTATGGTCAGGATATGGTCACGACCAACTTTTATGGCGGGCCAGAATCTTCCATGGATGGTGCCCGGGGGCATATGGTCCTTTACCAATTGAACCAAGTGCCAAAGTATGCTTTGCAGTATATTCCAGCCAATACCTTGAATTTCCAGCTTTGGAAGAATTACGTCAAGAGCATCAAGATCAGTCCTTACATTAAACTCGGCCATAGTCAGTCTGTTGGGTCAACTTCCCGCTATATCTATGAACTGGCTAACTGGAACCATACGAAGAAACCGCGGTCAAATGAGCTTTTGCAGATTGACAAGAAGGATATGCAGTTCAAGCGGATCTGGACTTTTGCCGTCAGCAATGGCGAGCGGAAAAACAACCGCTACTTCTTAAACGCGGACGTGATTGACGACAACACCATGCTGGCCTTGTTCCACAGCAAGTCCAAGCACCGCTTTGAAATTTGGAAGATCATCCGGAAGGGCAACAGCTTCAAGGTTAAAGAAGCAGCCGCCACAATGGTGACTTGA
>LACTIS1119B1_03930 hypothetical protein
GTGACTAAGACGGCCTACAAGAACGTGAAGAAGAAGGAGTGGAAGTTCGGCAAGAAATTGACGGCCTCGGCTGACTTCAGATACGCTCACGTTCAGTCCAAGTCCTACAAGGTTAAGGGTGGCAAGCGCTACTACTACATCTACGTTGACGGCCGGCCAGTTGGCTACGTGAATGAGAAGGCTTTTGCCCTTTCGAAAGCTAATGTGGTTTCCCAGGTCAGCCTGGTCAACAACCCGTCTGACTCAGTTGGCTTTAATGCCGAAGACGCGATTAACTACGTGACTGACCAGCACGGCAGTCTGGTTGACAATGATTCAGTTGAGATCAGCTGCAAGTCTGCTGAATTGAATATTTCTGATACTGGCTATGTATCCAGCCGCAAGGCCGGGACGGCGGTTTTGACCTTCAGGTACGGCAAGGCCAAGGCGACCAGCAAGCTGACGGTACGCGGGGATGCCAAAGAAGGGATCAGCTCGGCTGATGTAACGCCGGTGAAAACTGATTTGCCAGAGATTAAGACCTGGTCAGCCAGCGACGGGGCCAGCCTGTCCCCATCTTCAACTATTACTTCAAAAGACGCGGTTTCCAGCTCGTACTGGGCGACCGACATGTCCGGCAACGCTAAGGGCGCGGATATTGAAACCATCTTCTATCATCCGGCAGTTTTGAGCGCGCCAGGTTCAAGCAACCTGGAGGCCAAGGTGTCAAGCGCCGTTCAAGGGATTGATGTTTATGACAATGACCTGGTGACCAGCAACCTTGACTTAGGCCAGGCCGACAACCGGGAGGCCCGGGGCCACATGGTTTACTACAACATGCGGGGGGTCTATAACATGCGGGGGGTCAAGAAGTGCAACTGGCAGCTGATTCCAAGCAAGATGCTGAGCTTCAACACCTGGCTAAGCTATATCAAGAACATCAAGGTCAGCCCATACATGAAGCTGGGCCATGGCCAGTCAGTCGGCAGCACCAAGAAGTATGTTTACGTTTTGGCCAACTGGAACCGGTCCAACAACTGGTCCAACTCCCAGGAACTGATCCGGGTCAAGAAGTCCACCATGGAAATTGACAAGATCTGGACCTTCAAGGTTTGGAACGGGTCAGCCAAGTATCCGCGGATTTTCCTCAACGCGGACGTGATTGACGACAACACTTTGCTTGCCCTCTTCCACAATGCTTCTAAGCACCGCTATGAATACTGGAAGATTTCCAGAAGCGGCGACAGCTTTAAGGCTAAGGAAGTTGGGGCAACTGGCAGCGACCTCATCAGCAATTCCGCTGAAGTCCAGGGCTTTGTCTGGGACAGCGCCTATGACGTTTACTATATTGCCTTTAACGACTATCTCTTTAAGATCGGGGCAGGCTTAGATGGCGGCACGGAGGCCGGCAAGCTTTTGAACTACTACAGTTTTCACACTGGCCGGGAATTTGAAGGCCTGGGTAGCTACAAAGGTGAGCTCTACGTCAACTTGAACCATCCGACGGAAACTTTGAAAGTGAATCATATTACAAAATAG
>LACTIS1119B1_03940 hypothetical protein
TTGATGAGACGTTTTGCCCTGGGCATGATGACCAGTGCGGCACTGATGGCCGGCCTGGCCAGTCAGGTGCAAGCAAGCAGCAAGGACTATAGTAAGAGTACGAAGACCGATCTTGTGACCAAGATCATGGGTAACAAGAGCTACCAGGTCTATTCTTCGCTCAAACTGGAAGAGGTAACTAAGAAGGTCAAGGCAAAGACCAAGGAAAAGAAGAAGTACACGGTCAAGAAGAAGGTCGCCGTCAAGAAGAATAGTAAGAAGGGCAAGACCAAGTACAAGACGGTTAAGCAGGTCAAGTAG
>LACTIS1119B1_03950 hypothetical protein
ATGACGGCCCAGTGGGAAAAGGCCTTAAAGCAAGTCGGGGCCAAAGAGCGGAGCCAGGATAACTTTTTAGGGCAGATCAAGAAATTCATTTCAAAGATGATTACAGAAGTGCCAGGCAAGATCCAGGTTGATCAGGGCTTGCAGGAAGAAGCCCAGACCCGGCAAGCCAAAGCCGCGGCAATCGGCCCCTGCCCGGTCTGCAAGCAAGGGGAAATTACTGACAAGGGCAAGTTTTACGGCTGCAGTAATTACCGGGGCGGCTGCCATTTCACCTTGCCCAAGAAGTTTGCCGGCAAGAATATGGGCAAGCGGATTGTGAAGACCTTGATCAGCAAGGGCAAGACTGACAAGCTGGACGGTTTTGTCTCTAAAAAGAGCGGGCAGCGGTATTCAGCCAAGCTGCAGCTGGAAGGGGACAAGCTCTCTTTGGTTTTTGACTGA
>LACTIS1119B1_03960 DNA topoisomerase III
ATGACGACGGTAATTTTAGCAGAGAAGCCCAGCCAGGCCCGGGCATACGCGGCCGCTTTTACCCAGAGCCAGAAGGGGGAGGGGCAGATTAAGGTGGCGGACCCGATCTTGCCGGCAGACACGGTGATCACTTATGGTTTTGGCCATTTAGTGGAAATGGCCCTGCCGGAAGCCTATGACGCCAGCTACAAGCGCTGGTCTTTAAAGAAGCTGCCGATTTTTCCCGACCAGTACAAGTACCTGGTTCCCCGGGACAAGAAGAAGCAGTTCAATATTGTCGCTAATTTGCTCAAGCGGGCAGATACGATCGTGATTGCCACGGACAGTGACCGGGAAGGGGAAAACATCGCCTGGTCCATCATGCGGCAGGCGGGGATCGATTTGAAACAGAAGCGCCTTTTCCGCCTCTGGATCAATTCACTGGAAAAAGCCGCGATCAGGGAAGGCTTCCAGAACTTGCGGCCGGGTAAGGACTACTACTACCGCTATAAGGAAGCCCAGACCCGGCAGATCAGTGACTGGCTGGTCGGGATGAACGGCAGTCCCTTATTTACCTTGCTGTTAAGAAAGCAGGGGGTCAAGGGGACCTATTCAATCGGTCGGGTGCAGACGCCAACTTTGTACATGGTCTATAAGCGTGATCAGGAGATTGCTAATTTTAAGCCGGAGAAGTACTGGCTGCTCATGGCCGATTTTTGGCAGGGAAGAAAGAAATTTACCGGCCGCTTGCTGCCGGAAACGAAATTCAAGAGTCCGGCAGAACTGGAGCAGTTTTTACTGGCTAAAGGCGGGAGTCTGGGCAAGCAGACTGGCCGGGTGGCCAAGGTGGACAAGGAGCAAAAGAGCCTGGCCAGCCCCCGCCTCTTCTCCTTGTCCAGCCTGCAGACGGAAGCCAACCGCCGCTACCATGCTTCAGCCAGCCAGGTTTTACAGGCCGTGCAGAATTTGTATGAAAATAAGTTTTTAAGCTATCCGCGGACAGACTGCAATTATATTACGGACAATGAGTATGCCTACCTGGCCCAGAACCTGGACCGCTACCAGGGGCTTTTGCCAAATTCTGCAGAAGTCAAAGAGCAAATGAAGCCCTTAAAGGCGGAGAAGCGCTATGTCGACTCCGGCAAGGTCCAGGAGCACCACGCCATCATCATGACCAAGACCGTGCCCAGCCAGGCACAAATGGGCAAAATGTCCAAGCTGGAAGGGCAGGTCTATGACCTGGTCTTGCGGCGAACTTTGGAGATGTTTTTAAAGGCCTATGTCTATGAGAAGACCACGGCTTTGATTAATGTCGGCCAATTGACTTTTAAAGCCAGCGGCAATGTCAGCGTGAACCTGGGCTGGAAGATCCTGGAAGGGCCGGTTAAAGATGCCCAGCTGCCGCCCCTGGAAGTCGGCCAGGAACTGACGGCGAAATTGAAAGAGCAAGAAGAAGAGACCAAGCCTCCGGCTAAGTTTACGGAAGGGAGCTTGATCACGGCCATGAAGACGGCCGGCAAGACCCTGGACGATGAAGATGCCCAGGCTATTTTAAAGGACGTTGAAGGGATCGGGACGGAAGCTACCCGGGCCAGCACCATCGAAATTTTGAAGAAGCGTGGCTACATGCAAAGCCGGCAAAACAAATTGTCGGTTACCCCGGAAGGGACCATCCTCTGCAAAGGCGGCGGAAGCTGA
>LACTIS1119B1_03970 Xaa-Pro dipeptidyl-peptidase
ATGAAATACAATCAATATGCCTACGTTGAAACCAGTCCGGAAAAGGCAACTGAAGAGCTGCTGGCAATCAACTTCTTGCCGGAAAACTACTCTTCTCTTTCCTTCAGTGAGCTCCTGGCCGTCTTGACCGGCAATGTCCTGGCGGAAGCCACGACCCGCCAGGCTAAAGACGCCAAATTGGCGGAATTTGCCGTGGACGACCAAACTGACCTGGCCGCCTTTCTTTTGGACACGCCGACTGCCATCACGGCCAGCCAGTTCGCTAATGTTGCCCTGCAGCTTTTAGGCTACCACCCAAACTACGACTACAGCCTGACTGATCCTTTGACTTGCGGGAAAAAGCATGCCCTGCCGGCCTTTAAGGACTTGACCAGCAAGGAAGAATTGATTTTTACCTTCTACCGCCTGCTCAACACCCGGAGCAAAAACGGGCAGATCCTCTTGGACGTCATGGCCGGCAAGGGCTACTTCACCCAGTTCTGGGGGGAAGGCAAGTTTATGTTCTTCAACGGCAAGTCCCTGCCAGTTTTTGACACAAGCCAGGTCATCCGCGAGGTCGTTTACGTGCAAAGCGACCTGGACACGGACGGCGATGGCAAGGGCGACCTCTTGCCGGTCACGGTCTTCCGGCCAGTTGAAAGCCAGGACCAGCTGAAGGTCCCAGCCCTCTACACGGCTTCACCTTACTTTGGCGGGATCATCGACAATGTCAAGACTAACCACAATGTCGACGAGAACCTGACTGACGCGACCACTTGGACCAATCCCAAGTACGTGGCCAAGCCTTTAGTTAAAAGCCCTGCCCCCAGCGACCAGGACGTGCCGGCCACTGAACTGGCAACTGGGCAATCTTCTTACGGCTTAAACGAATACCTCCTGGCCCGGGGCTTTGCCTCTGTCTTCTCCGGGGCCATCGGCAACCGGCACGGGGACGGGATCCGGATCACCGGGTCACCGGAAGAAACCATCTCCCAAAAAGAAGTCATTGAATGGCTGACTGGGGACCGAGTGGCTTATACTGACCGGACCCGCCGCTTTGAAACCAAAGCCAGCTGGTGCAGCGGCAATGTCGGCATGACTGGCCGCTCTTACCTGGGGACCTTGCAGATCGCCATCGCAACGACCGGGGTCAAGGGCTTGAAGACGGTGGTTTCTGAAGCCGCTATTTCCTCTTGGTATGACTACTACCGGGAACACGGCCTGGTTGTCGCGCCAAGCGAATGCCAGGGCGAAGACATGGACAAGCTGGCTGAAGTCTGCCAGTCCAACCTCTGGGACGGGGGCAATTTCACTGCTAAAAAGGCTTATGAAGCAGAGCAAGCTGAACTTTTAGCCGCCCAGGACCGGGCAACCGGCCAGTACTCTGATTTCTGGGAGTCCAGAAACTACCGCCACCACACCGATGGCATCAAGTGCTCCTGGATCTCCGTTCACGGCTTAAACGACTGGAATGTCAAGCCGAAGAACGTCTACAAGATCTGGCAAAAGGTCAAGCAGCTGCCAGTGAAATCTCACCTCTTCCTCCACCAGGGTCCGCACTACAACATGAACAACCTGGTTTCCATCGATTTCACCGACCTCATGAACCTCTGGTTCGTCCACGAGCTTTTGGAAGTGGAAAACGGGGCTTATGAGCAATGGCCAAAGGTCATGATCCAAGACAACCTGGAAGCTGACGAGTGGCACGCAGAAAGTGACTGGGCCAGCGACCTGGGCCAGGCCAGCCTCTATTCACCAACGGCTGACGGGGACCTGTCAACGGTTGAAAACGGGACAGGCCAGCTAACCTTCACCGACTTGGGCGGGACAGAATTCAAGAAGGCCGGCATTAGTGAAACTGACTGGGAATACCAGTTTATCAGCGGGGAGGAAAAATGGGCCAAGGCCAGCCTCCGCTTTGAAAGCGAGGAATTCCTCCACCCGACTACCCTGGTCGGCCGGCCAAAGGTCCGGGTCCGGGTAGCAGCTAATAAGACTGTCGGCCAGCTGTCTGTTGCCCTGGTTGACCTGGGGACCCGGCAGCGGCTGACGGCTACGCCAAAGATTTTTGCCAGAGGAAACCAGCCCTTTGGCTACCGCTTCGGGGCAGACTCCTTGCAGGAATTCGTCCCGGACAAGGCCACTAAGGCCAAGCTGATTACCAAGGCCCACATGAACCTGCAGAACTACCAGGACATGAAGCAGCCAAGCAAGCTGGAAGCCGGCCAGTTCGTCGACCTAGAATTTGAACTGCAGCCGACCTACTACACCCTGCCAGCTGGAGCAAAATTGGGTCTGATCATCTATTCAACCGACCAGGGGATGACCAAGCGGCCGCTGGAGACCGAAGACTACACAGTTGACTTAGCCGGAACTGCTCTTTTGCTCTACCGGAAATAA
>LACTIS1119B1_03980 hypothetical protein
GTGACCATCGTCATGGGAACTACCGCCTACCTGCTCAAGCAGGTCCCGGCTCGCTGGCTGCATTTAGGAGCCACCCTGGCCTTTATTTGCGGTTGCATCATCTGCGCCTTAACTTCCAGCTTTCCTTTGATGCTGGCCGACCGGATCATTCAGGGGATCGCCACCGGCTTTTCCACCCCGATCATGTTCCAGCTGATCTTTACCCAGGTCCCTAAGCAAAAACTCGGCCTCATGACCGGTTTTGCCGGGACGATCATCTCCTTTGCCCCGGCCCTGGGCCCAACTTACGAGGGCCTGGTGGTCTCAGCTGCCAAGCTGGCGGATGATCTTATGGCTCCTTTTGCCCCTGGCTTTAGTCAGCTTAATCAGCGGTCAGGTCTACATCCGCAACCAGGTAAGCGGGTAAAAGGGAAAATTTGA
>LACTIS1119B1_03990 hypothetical protein
TTGCTGGGTCTGGCCCTTTTTGCCATTATCTATGCCCTGTCTTTAATCGGGACCAGCAGCTTGATCAGCGGCCTGGTCCTTTTGCCAGGCTCCTGCGTGGGGGCCGTCATCTCGCCTTTTGCCGGGAAACTGGCCGACAAGCGGGGCTTCAAGTTCCCACTAACCCTGGGCGGCTGCCTCTTTCTTTTGGGCAACTGCCTGCTTTTGGTCCTGCAGCCCTTGCTGACCCCGGTCTTGATCGTTGTCTGCCATATCGTGATCCGGTCCGGCTTCAACTTGAGCTTTGCCAACACCATCTCTAACGCCTCAACTTTGGTTGACCGGAAAAACGTGGCTGACGTTAACTCCTCTTTCAACATGCTCCAGCAGTTTGCCGGTTCAGTCGGCGTCAGTCTGGCCACGCCCCTGATCTCCCTGGCCCAGAAAACGGGGCAAGGGACTTTGGGCCAAAGAAGCTACCAGGGCGGGAGATACGACTTTATCATGTTCAGCTGCCTAGCTTTGGTGACCCTTTTAGCCATCTGGCAGAACTTCTGCCTGCAGGAGCAGAAAAATAAAGGAAATTAG
>LACTIS1119B1_04000 homoserine O-succinyltransferase
ATGAGCAAGAAAATCGGCATTCTCAATTTGATGCATGACAAGATCGACACCCAGAAACGGTTCAGCCATGTGATCAAAGAAGCCAGCCCGGAAACTGAAATCACTTATTTTTACCCCCAAAGCCACTATCTAAACCGGCCCCGACCCCAAAACTGGCCGGCTGAGCCGCTAAATCTCAAGACAGTTGCCAAGCTGGACGGCTTCATCGTCACCGGCGCCCCGATCGAGCTCCTACCCTTTAGCGAAGTCGACTACTGGGAGGAATTGACCAAGCTCTTTGACCTCTTAAAGGCAAAAAACATTCCCCAGCTCTATGTCTGTTGGGGCGCCATGGCGGCTCTCTACTATTTCTACGGGATCGGCAAGCATCCCCTGCCGGAGAAGATTTTCGGCATCTACCCCCAGGAGATCCTGGCTCCCGCCCCCCTGTTAAGTGGCCTGGTCACAGGCTTTCGGGCCCCGCATGCCCGCTACGCTGAGATGAACAGGAGCGAGATTGAGCAAGAAAAAGCTTTAACCATCAACGCCGCCACACCAGATGGCCACCTTACTCTGGTCACTGGGCCTGGCCAGCAGGTCTTTCTCTTCAGCCACCTGGAGTACGGCCCCCAGGCTTTTAGCAAGGAATACCAGCGGGAATTATCCGCTATAGGAGGTGATGACCGGAAGCTAGCGAAACCGCAGCGGTATTTCGCGGATGAAGCCGCCATGTCCCTGCCCCAGTTTACCTGGGAAAGCAGCCAGCAGCACTTTTTTAAAAACTGGCTGCAAACTATCAAATAA
>LACTIS1119B1_04010 cysteine synthase
ATGTCAACTGACCGCATTTATGGCAACATTTTGGAAACTATCGGCCACACCCCAATCGTTAAGTTAAACCGGGTCGTCCCGGAAGGAGCTGCCGACGTCTACGTCAAGCTGGAATTCTTCAACCCGGGCGGGTCGATCAAGGACCGGATTGCCCTGGCCATGATTGAAAAGGCAGAAAAAGAAGGCAAGCTTAAGCCTGGCGACACCATCGTAGAACCAACTTCCGGCAACACCGGGATTGGCCTGGCCACTGTTGCCAGCGCCAAGGGCTACCACTTGATCATCGCCATGCCAGAAACCATGAGCGAGGAAAGAAAGAAGATCATGCGGGCCTACGGGGCTGAACTGCTTTTAACCCCGGGCAAGGACGGGATGCCAGGTTCTATCGCTTTGGCGGAAAAGCTGGTTAAAGAAAAGGGCTACTTCCTACCAATGCAGTTTGAAAATCCGGCTAACCCGGAAATCCACGAACTGACCACGGGCCAGGAAATCGTCAACGCCTTTGCCGGCGATTTGCCAGACGCTTTTGTAGCCGGGGTTGGTACCGGCGGCACTTTGACCGGGATTGGCCGGGCCTTGAAGAAGGCCGGCGACGTCAAGGTCTACGCCCTGGAACCGGCGGAATCCCCGCTTTTGAAGGAAGGCAAGAAGGGCCCGCATAAGATCCAGGGGATCTCTGCTGGCTTCATTCCAAAGACTTTAGACCAGTCTATCTACGACGGGATTGTCGAAGTTTCCAGCGATGATGCCTTTGCAACAGCCAGAGAAGTTGCCCGCCTGGAAGGCTTTTTGCCAGGGATCTCAGCTGGGGCCAACATCCACGGGGCCATCGAACTGGCCAAGAAGCTGGGTGCCGGCAAGAAGGTAGTCACTGTAGCGCCGGACAACGGGGAACGCTACCTGTCAACGGCTCTGTACCAATAA
>LACTIS1119B1_04020 cyclopropane-fatty-acyl-phospholipid synthase
TTGTTAGAAAAAACATTTTACAAAATGATGCTCAGTAAGTCCTTCCCTTTTCCCGTTAAAGTAACTTATTGGGACGGTAAAAGCGAAGTATATGGTAACGGTACTCCAGAAATTGAAATAGTTTTCAATGAAAAAATTCCAATGGGCGACATTACAAGAAATGCTTCCCTAGCACTTGGTGAAGCATACATGGACAAGAAAATTGAAATCCATGGCAGCATTCAAAAATTAATTGACGGCGTATACGAAAGTGCCGACAGTTTCATGCGTTCATCCAAATTCCGTAAATTCTTGCCTAAAACTAAACATACTGAAAAGCAAAGTGAAGAGGACGTTCAAAGTCACTATGATATTGGTAATGATTTCTACGAACAATGGCTTGACCCAACTTTGACTTATTCATGTGCTTACTTTACGGACGATAATAAAGCTGATCTTGAACAAGCTCAGATCGCCAAGGTACATCACATTTTAAACAAGTTACACCCACAAAAAGGAAAGACTTTACTTGATATTGGTTGTGGCTGGGGTACTTTGATGCTCACTGCAGCTAAAGAATATGGTCTTAAAGTTACCGGTGTTACTTTGAGTGAAGAACAATACAAGTTAGTTCAAAAGAAGATTTATGCCGAAAACTTGCAAGATGTTGCCGAAGTTAAACTTGAAGATTATCGTAAATTAGGTGATCAACAATGGGATTACGTCACTTCAGTTGGTATGTTTGAACACGTTGGTTCTGAAAACTTGGGTGAATACTTCAATGATGTAGCTAAATACTTAAAGAACGATGGTGTAGCCTTAATCCATGGTATTACTCGTCAACAAGGCGGTGCCACTAATGCTTGGATTAACAAATACATCTTCCCAGGTGGTTACATTCCAGGTTTAGTTGAAATTATTTCTAGAATTGAAGAAGCTCACTTGCAAATTAGTGACGTTGAAATGCTCCGTCGTCACTACCAAAGGACTTTGGAAATTTGGGACAAGAACTTTAACAATGCTCGTCCTGAAATTGAAAAGAAGATGGGCGAAAGATTCTGCAGAATGTGGGATATGTACCTTCAAGCATGTGCTGCCAGCTTTGAATCAGGCAACATTGATGTTGTACAATATCTTTTAACTAAGGGTCTATCTGGTAAGAACTTGCCAATGACCCGTGATTACATGCTTAATAATAAATAA
>LACTIS1119B1_04030 endopeptidase o
GTGGGAAGTTTAAGTAATGGTGCTTTTGATGAAGTTGTTGGTATTTTTTATGGTAAGAAATATTTTGGTGAAGAAGCTAAACACGATGTCGAAGATATGATTCACAATATGCTTAAAGTATATGAGCAAAGAATCAATGATAATAATTGGTTATCTGAAGATACTAAGAAAAAGGCAATTATTAAATTAAGAGCTTTAGTACTTAAGATTGGTTATCCAGAAAAAATCGAAAAGATTTATGATCTTTTGCAAATTGACCCAGAAAGGAGTCTTTATGAAAATGAAGCTCAAATGGCAACGGTACGCACCAAGTATATGCTCGATAAATTAACTCAGCCAGTAGATCGCTCAGTATGGCTCATGCCAGGAAACTTGAACAATGCTTGTTATGATCCACAAAGAAATGATTTAACTTTCCCAGCTGGTATTTTGCAAGCGCCATTTTATGATATTCATCAATCCCGTGGTGCAAATTACGGTGGTATTGGTGCAACTATTGGTCATGAAGTTTCTCATGCCTTTGATAATAGTGGTGCTAAATTTGATGAACACGGAAATATGAATAACTGGTGGACTGATGAAGACTTCGCTGAATTCAATAAGCGGGTTGGCCAAATGGTTGATATTTTTGATGGCTTGCAATACGGTCCAGCTAAGATTAACGGTAAGCAAGTAGTAGGAGAAAATATTGCTGACTTGGCAGGGCTTGCTTGTGCTGTTCAAGCTGGTAAGAACGACAATGTTGATTTGAAAGACTTGTTTGAAAATTATGCAAGAAGCTGGATGCAAAAGCAACGTCCAGAAGCAATTAAAACTGAAGTGCAAGTTGACGTTCATGCACCACAACCAACTCGTGTAAATATCCCAGTTCAATGTCAAGACGATTTCTACACTGCATTTGATGTTAAGCCTGATGATGGCATGTGGCTTGATCCTGAAGATAGAATTACTATTTGGTAA
>LACTIS1119B1_04040 adenosine deaminase
ATGAAAAAACTGATTGACCTCCACCTGCACTTAGATGGCTCCGTCCCTTACCAAACCGTCCGTGAACTGCTGGCTAAAGAGGGGAGAAGCCTGCCAGAAACTGACTTGCGAAAAAGACTTTCAGTCAGCCCAGACTGCCGGAACCTGGACGAATACCTGGACAAGTTCGACTTCCCCTTGTCCTTGATGCAGACAGCAGACAACCTCCGCTTGATTGTCAGAGAGCTCTTAGCAGAGCTAAAGAGACAAGGCTTGGTTTACGCGGAAATCCGCTTTGCCCCCCAGCGGCATACGGAAACTTTGACCCAGGCAGAAGCTGTCCAGGCGGTTCTCGATGGCAGAGACGATTTTTACGCCTGGCAAAAAGGGCAGGAAGGAGACGACCTGCACGCCAACTTCCTCCTTTGCTTGATGCGGCTAGTTGGCCAGGATGAAGCCAACTGGGAGACTGTAAGAGTGGCTAAAGAGTTTAAAGATCAGGGGGTAGCTGGCCTGGACCTGGCGGGCCCGGAAAACGAAGAAGTGGCCAACCGCAAGTACGAGCCCTTTTTCCAGCAGGCAAGAGAATGGGGGATTCCATACACCATCCATGCCGGTGAAGCCATGGGGCCAGAGTCGATGAGAGAGGCCCTGGCCTTAGGGACCAAGCGGATCGGCCACGGCATCCGCTGCCAGGAAGACCCAAGTCTGGTTAAAGAATTGGCTGAAGACGGGATTACTCTTGAATGCTGCGCCAGCTCAAACCTGAACACCAAGGTTTTTGACCAGATCGCCGAATACCCCCTCCGCTCCATGCTGGGGCAAAATCTGCGGGTAACCTTGAATACCGACAACATGACGGTCTCAGCGACCAACCTGCCCCGCGAATACCAGCTCATGGAAGAGCAGGGTTTGACTAAATCTGAAGAAAAGCAGCTCTACTTAAACTCGGTTAGAGCCGCTTTTGCCAGCCAGGAGGAAAAGGACCGGCTTTTGGCCTTGCTGGAAAAATAA
>LACTIS1119B1_04050 hypothetical protein
ATGGAAGACATTTTCTTTACGGTAACGGGCTGCAACCACTACTTTGGGACGGAAGCTTTCAAGCCGAGAATGAAGGTAACCTTGTACAAGGAATCTGACAACAAGTATGACAGGGAAGCCATTAGGGTGGAATCCCGGGCTTTATGCAAGATCGGCTACGTGGCCAACAGCCCCGTATACTGTCTTGGGCGAAAGCCGCAGCGCCGGCCGCCTGTACGACTTGATTGA
>LACTIS1119B1_04060 DegV family protein
ATGAAAATTGCTGTTTTAACCGACAGTTCTGCTTACCTGAGCAAGGAGCAACAAGAGAAGTATCATATCGACGTGGTGCCGATTCCCTTGATTTGGGACGGGAAGACCTACTACGACCTGGTCGACATCAGCTATGAAGAATTTTATGAAAAAATCTCTACTAGCCAGACCCTGCCGACCACTTCCCAGCCATCTTTGGGTCAGATCATGGAATTCGTCGACCACTACGTGGAAGAAGGCTACACCGACGTAATCATCCTGCCTTTGTCCAGCGGGATCTCCAGCTCCTACAACAACCTGGTCAACTACGCGGCTGAAGAAGACCGGATCAAGATTCATCCTTTTGACTGCCGTACTACCTGTGCCGGCCTGGCTGACTGCGCCATTTTGGCTGCCCGCCTGGTTAATGCCGGAGCCAGCGTCGACCTCATCATGAAGGACCTGGAAGACCTGCGCAAGACGATCGGCGTCCGTTTCTTGGTCGACAACCTGGGCCACCTCAAGCGGACCGGCCGCCTGTCAAACGCGGCCAGCTTTATCGGCACCTTACTCCACATTACGCCAATCCTAGCCATGGACGTGCAAAAGACTGGCCACATCTCCGCCATTGCCAAGGGACGCCAATATAAGCGGGCCTACAAGCATGTCCAAAACGACTTCCGTGAATTGACGGAAAACAAGGACTACCCAAACCAGGCCACGATTTTTGACGCGGCTAACCCCGATCGGGGCGACGAATGGATTAAAGATTACCAGGCTGCTTTCCCAAAGGACAAGTTTGACCGGTCCATCATTGGCCCCGTTGTTGGCGTTCACTGCGGGAAAAATACCATCGCCATCATTTGGTGCCGGGACATCGACAGCTACTTTGACCAAGACGGCCAGCCTCTGCCAGATGTCGAATCTGCGGAAGTCGGCGAAAAGTTTTAA
>LACTIS1119B1_04070 hypothetical protein
TTGGGCGGCAAGGTAGCTTACAACCCAGACCATCCTTTCTTTGACCACTTCCTTTTCACCCAAAAGGCGGCCGGGGACGCGGTAGCCAAGCAGACTATTCCTTCACCAACCATGCTCTTCAGAGATAACCGGTCTGACAACTGGCCAGAATTCTACGCTAGCTGGGAAGACTACCTGGCTGACTTAGGCAAGGCCTACAACGAAACCATCAAGCACTTTTACGATCTCGGCTGCCGCTACCTGCAAATCGACGACACCACCTGGGCCTTTTTGATCAGCAAGCTCAATGAAAGCCAGGACAATCCAGAAGAACATGCCAAGTACGTCCACTTGGCTGAAAGCGCGGTAATGGTTATCAACGCTGCTTTGGAAGGCCTGCCGGAAGACTTGACGGTAACGACCCACATCTGCCGGGGCAACTTCAAGTCCACCTTCCTCTTCTCCAGCGGCTATGAACCGGTTGCGCCTTACCTGGCCCAGCTGAACTACGATGGCTTTTTCCTGGAATACGACTCAGACAGATCCGGTGACCTGGCGCCAATCAAGCAGATCTGGAACGGCCGGGAAAATGTCAAGCTCGTCTTGGGTCTGGTAACTTCCAAGTTTGGCCAATTGGAAGACAAGGACGCGGTCATCGCCCGCTTAAAGGAAGCCAGCGGCTATGTGCCTTTGGCAAACCTCTGCCTCAGTCCGCAATGCGGCTTTGCGTCAACTGAAGAAGGCAACACCAATGGAACAAGCTGA
>LACTIS1119B1_04080 hypothetical protein
TTGACAATTTCCAGTGAATTAATTTCCCTTTTCTGGTCAAAGCGGGCCTTGACCCATCCAGGTCTTCTGCTGCTCCAGTGCCTCTTGTGGATCAGCGACCTGGTTGAAAAGGAAAAGGCAGTGGGCCTTAAAGCCGTAACTGATGGTGAATTCCGCCGCAGCTGGTGGCACCTGGACTTCTTGTGGGGCCTTAAAGGGGGAATCAAGTACGACTACCAATAA
>LACTIS1119B1_04090 hypothetical protein
ATGTCATCGGGGGCGGCCGGTCTGGCCGGCTTAGCTGCCTGCGTCTTCATGATCCGCGACGGCCACATGGATGGCAAGAAGATTCACTTGCTAGAAGAAGAAGCCCTGGCCGGGGGTTCCCTGAACGGGACCAAGCGGCCGGAATACGGCTATATCATCCGGGGCGGCTGGGAAATGGAAAACCACTTTGAATGCCTTTGGGACATGTACCGGTCAATTCCATCTTTGGAAATTCCTGGCGCTTCCTACCTGGAAGAGTATGCCTGGCTGGACAAGGATGACCCTAGCTCATCCAACTGCCGCCTGATCCACCACCGAGGCGACCGGGTGCCAACTGACGGCCAGTATGGCCTGGGCAAGTGCGCCGGGGAAATCGTCAAGCTGGTCATGACCCCGGAAGACAAGCTAGAAGGAGTTTCAATTGAAGATTTCTTCTCTGATGAATTCTTTGAAACCAACTTCTGGGCTTACTGGGCAACCATGTTTGCCTTTGAAAAGTGGCACTCAGTCATTGAAATGCGCCGCTACGCGATGCGTTTCATCCACCACATAGACGGCTTGCCGGACCTGTCAGCCTTGAAGTTCAACAAGTACAACCAGTATGAATCAATGACCAAGCCCCTTTTGGCCTACCTGGAAAGCCATGACGTTGACATCTGCTACAACACCCAAGTTGAAAATGTCGTAGTTTATACCAGCAACGGCGAAAAGGTTGCCAAGAAGCTGATCCTCACCAGAGACGGGGAACACCAGGAAATCGACCTGACCCCGGACGACCTGGTATACGTGACCAACGGGTCAATCGTTGAAAGCTCAACTTACGGCACCCACCACACTCCAGCGCCGATCACCCACAAGCTGGGCGGGTCTTGGCACCTGTGGCAGAATCTGGCTGAACAAGACGAAGCCTTTGGCCACCCGGAAGTCTTCTGCGAAAACATCCCGGAAAGAGCCTGGTTCGTTTCCGCGACCATGACCATGAAGGGATGTTGA
>LACTIS1119B1_04100 hypothetical protein
ATGCTCTCCTTCACCATCCACCGTCAGCCGCACTTCAAGGACCAAAAGGAAAACGAAACCGTTGTCTGGATCTATGCCCCTTACTCTGACACCCCAGGCAACTACATCAAGAAGTATGCCGGCGATGACGATGTCAACACTGTTCCGGTTTACATACCTTACATCACTGCTTACTTCCAGATGCGGAAGAAGGGCGACCGGCCGGCAGTCGTGCCAGCTGGTTTAGTCAACCTGGCCTTCATCGGCAACTTCGCTGAATCTCCGACCAGAGACACGGTCTTCACCTCTGAATACTCAGTCCGGACCGCCATGGAAGCTGTCTACACCCTGCTGAACGTTGACCGCGGGGTACCGGAAGTCTTCAACTCCGTCTACGATATCCGGGAACTTTTGAAGGCAACCTACTACTTAAACGACAAGAAGCCAATCGACCAGATGGACCAAAGATCGCGGTCAAGGGGGCCATGA
>LACTIS1119B1_04110 hypothetical protein
ATGGAAATCGAGAAATTGAAGGCAGACTACATCAATTGGCTGGCGGGGCAGACAGTTTTTAAGCCTTGGTCAGACACGGTTTTCCAGGTGGAAAACGAACTGGTTGATGCCTATGGCCGCAAGCCTTTTGTCCTGGTCGAAAAAAACGGGGACCAGTACACGGTAACTGATGACGGATACCTCATGTTCAAGTACAACCCATTGGAAGAAAACGAGGATTTGAACGAGTACGCGGCCGGGATGATTATGGCCGCTGGTTTTGACTTTGATGAAGACCATGCCGTGATTGAGCAGACAACCAGTGAAGAAAGTTTGCCTGGTGCCATCGATGCCTTGATGCAGCTGGAAATCATGATTTCCTTTATTGCTTAA
>LACTIS1119B1_04120 major facilitator superfamily transporter
GTGAGCAGCAAGAGTGCAAGTGTTTCCCCGGCTAAAGCGGGGCGGATGGAGAAGGAAAAGGGCAAGTCGATTTATTCCAAAGACGTCATCTTGGTCATGACCGCCTCCTTCCTGTTTTTGTTCGGGACCATGTTCAACAACCCATTGATCAACGGCTATGCTGAAAGCCTGGGGGCTAGCAGCATTTTAGCCGGGGTGATCGTGGGGATTATGAGCTTCGCGGCCATGTTTCTCCGGCCAATCGCCGGCAACTTGACTGACAAGTTCTCCAAGTACCAGCTGTCTTTTATCGGCGGGGTGCTGATTTTTATCGGGATCCTGGGCTATATCATATCGCCTAACGGGGAGCTCTTGCTCTTGTTCAGAATCATCAACGGGACTGGTTTTGTCCTTTGCACGGTCTGCATGACCACTTGGATCGCCTTCCTGGTTCCCCGCCAGCATGTCGGGGCGGCAATGGGCTTGTACGGGCTGATGAACGCCTTGGCCATGTCCATTGCCCCGGCGATCTCCATCAACCTCTACAAAGTGATTGGCTACCGGCAGACCATGATGCTGCCAGCCGCGGCGACTTTGATCATGATCATCATTATCCAGTTTGTCGGCAACCGGGCTGTTCCTAGTCCCCGGCAAAAAGAAAAGAAGCAGTTCAAGATGATCTCCGTCAACGCTTTGCCAGTAGCACTTTTGACGACCTGTTTCGGGATTCCATACTTCGTCACCCAGGCCGACATCGTGACTTACGTGGCCAAGATGCACATGCCAGTGGCGGTAGGGAGCTACTTCTTCATCTACGCCATCGTCTTGCTCTTGATCCGGACCTTCCTCAAGAACTACTTTGACACGGTCCGCTTCGGGGTCTGGTTCTGGCTGAGCCTGGTGGCTACGGCCATTTACCTGGTCCTTTTGGCCTACATGAGCAGCAACTGGATGATGGCCCTGGGGGCGGCCGGGATGGCGGTCGGCTATGGCTTGATCTACTCCGTCCTGCAGTCAACGGTCCTGCTTTTGTCACCGGCTAATGAACAGGGTCTGGGCAGCTCCACCTTTTACCTGGGCCTGGACATCGCCATGGCCTTTGGGCCGATGCTGGCCGGGGTTGTGGCCAAGGCTCTGCCGGGCCGCTGGTTCTACCTGGTCCAGCTGATCGTGGTACCTTTGGCCTTGATCGTTTACCTAATTTGGCGCAAGCACTTGAACGGGGCAATTGATAATCACTAA
>LACTIS1119B1_04130 glutamine synthetase
TTGATCGTAATTTTATTCTTGATTTTTAAAGGTGAGAACATGAGCAAGGTAATTACTGAAGAAGAAATCCGCAAAGATGTAGAAGAGAAGAACGTTCGCTTTTTGCGTTTGGCCTTCACTGACATTAACGGTACGCTGAAGAACTTGGAAGTTCCCGTCAGCCAATTGGACGACGTCTTGGGTAACCAAACCCGTTTTGACGGTTCATCAATCGACGGCTTCGTTCGTTTGGAAGAAAGTGACATGATTCTGTACCCAGACCTGGCAACTTGGTTAGTTCTGCCATGGACGACTGTTGAAGAAGGCACGATCGGTCGCCTGGTCTGCTCAGTTCACAACGTAGACGGCACTCCATTTGAAGGTGACCCACGCAACAACTTAAAGAAGGTTATTGCGGAAATGAAAGAAATGGGCTTCTCCGACTTTGAAATCGGCTTTGAAGCTGAATTCTTCCTCTTCAAGGAAGGCAAGAACGGGGAAGAAACCACCAAGGTTTCCGACCACAGCTCATACTTCGACATGGCTTCTGAAGATGAAGGCGCCAAGTGCCGCCGGGAAATCGTGGAAACTTTGGAAAAGCTGGGCTTCCGCGTAGAAGCTGCCCACCACGAAGTCGGCGATGGCCAGCAGGAAATCGACTTCCGCTTCGACAACGCCTTGGCAACTGCTGACAAGTTGCAAACCTTCAAGATGGTTGTCAAGACTATCGCCCGCAAGTACCACCTGCACGCAAGCTTCATGGCTAAGCCAGTTGAAGGTTTGGCCGGCAACGGGATGCACACCAACATGTCCCTCCTCAAGGACGGCAAGAACGCCTTCTACGACAAGGATGGCCAATACCACCTGTCAACTACTGCCTTGACCTTCTTGAACGGGATTTTGGAACACGCCCGCGCTATTACCTGCGTGGCTAACCCAACGGTCAACTCCTACAAGCGGCTGATCCCAGGCTTTGAAGCCCCAGTTTACATCTCATGGGCTAGCCGGAACCGGTCACCAATGGTCCGGATTCCTAACGCCAACGAAGTCGGCACTCGTTTGGAAATGCGGTCAACTGACCCAACTGCTAACCCATACCTGCTTTTGTCAGCCTGCTTGAAGGCTGGTTTGACCGGGATCAAGGAAGGCAAGCTGCCAATGGCACCTGTAACTTCCAACCTGTTTGAAATGACTGATGACGAACGCAAGGAACTGGGCATCAAGCCATTGCCATCAACCCTGCACAATGCTATCAAGGCCTTCAAGGAAGACGAAGTCGTCAAGTCTGCCTTCAGCGAACACATCGTTGACAGCTTCCTGGAATTGAAGGAAACTGAATGGGCTCTGTACACCCAATCAGTTTCAGAATGGGAAGTAAAGCGCTACTTCAACTACTAA
>LACTIS1119B1_04140 aluminum resistance protein
ATGAGAAAATTACCAGAAGAATTAAAGGCAATCCTGGCTGAAGTTGACCAGAAAATTGCCCCCCGCCTGCGGGAGATTGACGACCAGGTGGTCTATAACCAGGGAAAGGTCCTCAAGGCCTTTGTCGACCACCAGGTGGCGGAAGCTGACCTCAAGGGGACCAACGGCTACGGGGACAATGACATCGGCCGAGAAAAGCTGGAAGCCATCTATGCCCAGGTTTTCCAGACTGAAGACGCCCTGGTCCGGCCCCAGTTCGTCTCCGGTACCCACACCCTGGCCGTGGCGTTAGACGGCAACCTTTTGCCAGGTGAAACTTTGACCTATCTGACCGGGATGCCTTATGACACCATGCAGCAGGTGATCGGCCTGGCCCCGAAGAAGCGGGGAACATTGATCCAGAAGGGGATCAACTTCTCCTACGTGCCTTTAAACGAAGAAGGCGGGGTTGACTACGAAGAAGCGGAAAAGGTCCTCAAGCGCGACCAGCCCCATATCGTGGTCATCCAGCGGTCTAGGGGCTATGACACCCGGCAGAGCTACACGGTTGACCAGATCAAGGAAATGACTGCTTTTGTTAAAAAGGTCAGCCCAGAAAGCTTGGTCTTCGCCGACAACTGCTATGGGGAATTTTCTGAAAAGCATGAGCCGACTGAATACGGGGTCGACTTTATGGCTGGCTCCTTGATCAAGAACGCCGGCGGCGGGATCGCCCAGACTGGCGGCTACATCGTCGGCAAAGAGGAACTGGTCGAAAACGCGGCTATCCGCTTGACGGCTCCGGGGATCGGCAAGGAAGAAGGGGCCACCTTGACCAACATGCACGAGTTTTATGAAGGCTTCTTCCTGGCTCCGCACACAACCGGTGAAGCCATCAAGGGGATGATCTTCTCAGCAGCTCTTTTGGAAAAAATGGGCTGTGAAGTCACGCCAAAATGGCATGAACCGCGAACCGACCTCATTCAGACGATCATCTTCAATGATCCGGAAAAGATGATCAATTTTACTAAAGAAGTGCAGAAAAATTCGCCAATTGACTCCTTCGTTGAGCCAATTCCAAGTGATATGCCAGGTTACGAAGATAAGGTTATCATGGCCGCCGGCAATTTTGTCTCTGGTTCAACCATGGAATTCTCAGCAGATGGCCCGATCCGGCCGCCTTACGCCCTCTACATGCAAGGGGGTCTAACTTATGCTCACGATAGAATAGCAGTTACAAATGCCGTAAATCATTTGTTTTTTAAGGAAAATGGCTAA
>LACTIS1119B1_04150 tRNA delta(2)-isopentenylpyrophosphate transferase
ATGCAGAAAGTAGTGGCCATAGTCGGGCCGACCGCCGTGGGCAAGACCAGCCTGGCTATCGAGATCGCCAAGAAACTGGACGGGGAGATCGTCTCCGGGGACTCCATGCAGATCTACAAAGAAGTAGCCATTGGCACGGCCAAGGCCAGCCGGGAAGAGCAGGCAGAAGTCAAGCACTACCTGGTGGATGCCCACTCGGTCTTTGAGGATTTTTCCGTAAAAAATTTCGTTGATGAGGCCCGGTCCGCCATCGGAGAGATCGCGGGCAATGGCAAGCTGCCGATTATCGCAGGCGGGACTGGCTTTTACGTCAATGCCCTTTTAAATGACATGCAGCTGGGGGACAAGGAAGAAGAAGCAGCCAGCGTGGATCCGGAATGGGAAGACTTTTTAGCAGCTAACGGCCCCCAGGCCTTGTGGGAGGAATTAAACAAGAAAGACCCGGAAGCTGCTAAGAAGATCCCGGTGGCCAACAGCCGAAGAAGCCTTAGGGCCCTGAGCGTGATCAGCCGGACGGGCGGGCTCTTTTCCAAGCAGCAGGCAGAAATTAAGCCCCGCTATGACTACTTGATCATCGGCTTAAACAGTGACCGGGAGGCCATCTACCAGCGGATCAACCAGAGAGTGGACTTGATGATGGAGGCCGGGCTGTTAGAAGAGGCCCGCTTTGTCTACGAGCACCAGGCAGGCGAGCACCAGGTCCTGCAGGCTATCGGCTATAAGGAATTTTTTCCTTATTTTGCAGGAGAGGCCAGCTTGGAAGACTGCGTGACGGCCCTTAAGACGGCCTCAAGGCGGTATGCCAAGCGGCAGCTGACTTACTTTAGGAATAAATTGCCGGTTGAGTGGTATGATCCCTTGACGGATCCCAACTGCGCTAACCGGATTGCTGTCAGAATAGAAGAATGGATGAAGTAA
>LACTIS1119B1_04160 rhodanese-like domain protein
ATGACCAATTTTTTAATCGTTCTTGACGTCATCTTGGGCGTCATCCTGCTGGGCTTCCTGGGCTTCTGGGCCTACAACCGGATCCAGGCCAAGCGCCTGGGCGGGGAGCTGACCAACGAAGAATTCAAGGCCGGGATGCGGAAGGCGCAGATCATCGACGTCCGCGAAGCCAATGAGTTCAAGCATGAACATATTGATGGGGCAAGAAACATCCCATATACCATGTTCAAGTACCAATACACCGAACTGCGGCCAGACCTGCCGGTCTACCTCTACTCGGACTCTTTGACCATGACCATGCGCTGCGCCAGCATCCTGCGCAAGCACAATTTTGCCAAGGTCTTTTACCTCAAGGACGGCTTCTCCCAATGGGACGGCCGCAAGAAGGCAGCCAAGAACTAA
>LACTIS1119B1_04170 hypothetical protein
ATGACTGTTTTGAAAAATCTTTACGATGTCCAGCAGCTTTTGAAAAAATACGGCATCCTGGTCCACTTGGGCAAGCGGAAGTGGGACATCGAATTAATGGCGATTGAATTAGACAATTTGTATAAGGCAGGCCTCTTGGAGAAAAAAATCTATTTAAACGCGAAACTGGTCTTAAAGCATGAGCACGAATACGAAGAACGGCTTGAGCGGGAAAAAAGGCTGGACTAG
>LACTIS1119B1_04180 membrane-associated serine protease
ATGAATAATCTGCGGCGTAATTATATGACAACCGCGCTGGTTGTGGTCCTCTTTGCCGTTTTTCTGGTGGAAACCTTTATGGGCGGTTCTGAGAGCACTTCTGTTTTGCTGAAAATGGGGGCTATGTTCAACCCGGCCGTGGTTATGGAGGGGCAGTGGTGGCGCCTGTTTACCGCCCAGTTCCTCCATATCGGGATCATGCACATCGCTTCCAACGCGATTATGATCTACTATATCGGCCAGTACGCTGAGCCGGTTTTCGGCCACTGGCGCTTTTTGCTGATCTACCTACTGTCAGGGGTGGGCGGCAGTCTTTTAACCTTGGCCTTTGGCAATGACCAGGCCATCAGTGCCGGGGCCTCAACTGCCCTCTTTGGCCTCTTTGGGGCCATGACCTGCACCGGCTTTAAGGATAAAGACAATACCCTTTTGTCCTTCCTGGGCCGGCAGGCTTTGGCCTTAGCGGTCATCAACCTGGTCCTGGACGTCTTCATGCCTGACGTGGATATCCTGGGCCACGTGGGCGGTTTGATCACCGGGGCCTTGTTGGCGGTAATCCTGGGTGACGCGACCTATAAAGGCTACGGCAAGGGCGGCCGGCTATTGGCCGCGGCTGGCTTGATTGTCTATGTGGTTTTGATTTTGCGTTTAGGAATGGTAGTGACGGTATAA
>LACTIS1119B1_04190 5-formyltetrahydrofolate cyclo-ligase
GTGACTGCTTTGATGGACAAGAATACTTTCCGCTCCTGGCAAAGGCAGCGGCTGGCGGATTTCGCCAAGACTCCGGCTAAAAAAAGGCAAGACCAGGAATTGACTTCCCTGGCCCTGCAGCATCCCTTGGTCCAGGAGGCGAAAAAAATTGGCCTGACCCTACCCATGCTGCTGGAAGTGGACATAAATGGCTTGATTAAAGAGCTGCGGGGAGAGGGTAAGGAGCTCTATCTGGCTAAGTGCCATCCCGGCTGGCAGCTGGACTTTTTAAAATGGGACGAAGGCGCTCCCTTAATGCAGACCAAGTTCGGGGTCTGGGAGCTGGCGGAAGAAAAAGAAGCTGATAACGCCTTGGACCTGCTTTTTGTTCCCGGCCTGGCCTTCAGTCCGGCGGGCAAGAGCCGGATTGGTTTTGGCGGGGGCTACTACGACCGCTTTTTGGCCCAAAATTCCGTCCAGACCCTGGCCCTGGTCAACTCAGCCATGTACTTTAAGACTCCGGTCTGGCCAATGGAAGACCATGACCAGGCCATGGATGATTTGATTATTGTAAAGGAGGCCGGTGATGAATAA
>LACTIS1119B1_04200 50S ribosomal protein L33
ATGGCAGACAACATCATTTTAGAATGCACCGAATGTGGCGACAGAAGTTACTTATCTAAGAAGAACAAGCGTAAGCATCCGGAACGTTTGACCTTGAAGAAGTATTGCCCAGTTGAAAGACAGGTAACTCTTCACCGCGAGACTAAGTAA
>LACTIS1119B1_04210 penicillin-binding protein 2B
ATGAGTTATTTTAGAAAGAATAGCGGAACTGGCAACAGTAGTCAAACCGCAAACACCCCTCTCAGAATGAAGATTCTGGTCGGGGTCATCTTAATTTTGTTCGCGGCCTTAATCGGCCAATTAGCATACTTGCAGCTCTTCTACGGTTCGCGCTTTTCCGCGGAGGTTAACGCCACCGACGAAAACACCATGACCAAGTCTGTCCCCCGGGGAGTCATGTACGACTCCCAGGGCCGGGTCCTGGTCGGCAACAAGGCTGAGAACGCGATTACTTACATGCGCAGCCTGTCAACGACTTCCAAAGAGATGTACAAGGTTGCTAATACCCTTAGTAATTATATAAAAATTACCGACGAAAAGCCGACAAAAAGACAAATTGCCGATTATTACCTGGCTGACAGCAGCCGGGCCAAGAAAGTCCTGGCTTCCTTGCCCAAGTCCCAGAAGAAGTCCAGCCTGTCGACTTCAGAAATCAACGACAATGAAGTGGCCTACGTCGAAAACACCCTTAAGCCGTCTTTAACCAGCCAGGAAAAGACGGCCGCCCTCTTGTATAACATGATGTCAGGGGCCACAACCTTGTCGACGATCAACTTAAAGAGTAGCGGCCTCAGCGACAAGGAAATCGCCCAGGTCGGCGAGCACCTGTCTTCCATGCCGGGGGTCGGGATCGGGACTGACTGGAACCGCTACTACCCGAACGGGTCTTCAATCAAGAGTATCATCGGGTCAGTTTCCACGACCAAGACTGGTTTGCCGAGGGACAACCTGCAATACTACCTGGTCAATGGCTATTCCAGAAACGACCGGGTCGGGATTTCCTACCTGGAAAAGGAATACGAGGCCCTCTTGAAGGGGACCAAAGCCAGCTACAAGGTCACCAGCAACTCCAGAAACGAAATCACCAAGACCAAGCAGGTTTACAAGGGCCAGTCCGGGGCCAGCCTGAAATTGACGATTGACGCCAAGTACCAAGCAGCCGTAACCAAGGCCCTCAAGCAGCAGTTTAACTCTGCCTTGAGGGCCGGGGCGGCCAGCCTGTCCAGCGGGGCTTACGCGATCGCCATGAACCCGAATACCGGGGCGATCCTGGCTATGTCCGGGATCAGCCATGACCCATCAACGGGCAAGATCACGGACAACGCCCTGGGCAACATCAACCAGTCCTTCGTTATGGGGTCTGTTGTCAAGGGGGCCCAGGTGGCCGGGGGCTTGATCAATAAGGTCATCACCCCAACCAACAACACCCTGCCGGATACGGCCATCTACCTGCCTGGTACTCCGGTCAAGAAGTCTGTTTACCCGATCGGGACTTTCAGCTCCTTGACGGCGGCCAGCGCCCTGGAAGTATCTTCCAACATCTACATGATGCAGTTGACCCTGCGCTGGGTGAAGGCCAGTTATGTGGCCAAGCAGTACATTCACATGCCGGATACGGCCTTTGAGACCTTGAGAAACAACTTTGCCATGTTTGGTTTGGGGCAAAAGACCGGGATCGACCTGCCAGGTGAAAGCTCCGGTATCCAAGGGGCATCAACTGACTCTAACGGGATCATCCTGTCCGGGTCAGTCCTCGACGAATCCTACGGGAACTATGATGCTTATACCCCAATCCAGCTGGTTCAGTACATTTCAACGATTGCCAACGGGGGCTACCGGATGCAGCCATACGTTGTCCAGTCTATCGGCAGAACCAGCAGCGACGGCAAGCACTTCTATACTTACTATAACAAGAAGCCGACTGTCCAGTTCAAGATCCCTTGGACAGCGGATGAGCTGGCTGTCATCAAGCAGGGGCTCTACCAGGTCGTTCACGGGTCCAACGCTTGGGGGACAGCGCATGCCTTGAAGAATGTCAAGCCGTCGATCTCCGCTAAAACCGGTACGGCCCAGACATTCTACTACAACACTAAGACCAAGAAGTCGACTGATAAGGAACTGATTAACGAAACCATGGTCGGCTGGGCTTCGTCCAACCACCCGCAGATTGCCTTCGCGGTTGTTTTTGTCGGCATCGATCCGAATAAGGAAGGCAACTACAACAAGAACATGGCCAAGTCGATGGTGACGACTTACTACAATATGTACAAGGGAAAGTTTTCAAGCACAAATTAA
>LACTIS1119B1_04220 bacterial membrane protein YfhO
ATGTACATGTCCAAAATAAAACGTTTTTTTCAAAAATTCGGCCTTAAGCAGCTTTATGCCTGCCTGGCCTTCGCCCTGCCGGCCTTGATTTTCGCCGGTTACTTCCTCAGCAAGAAGGGCAATATTCTGACCGTCGACCTGGGCCAGCAGTACGTTGACTTTCTGGCCTACTACCAGCAAAATCTCTTTAAGGACCCAAGCAAGTTGATTTACAGTTTTGCCAGCGGCCTGGGCGGCTCCATGCTGGGGACGGACAGCTACTACCTGCTCAGTCCCTTTAACCTGCTCTTGCTCTTTTTCCCGCAGAAGTTCCTGCCCCAGGGGATCCTTTTGGTCATCTCCTGCAAGATCGGAGCTATCGGCCTGTCCACCTACCTGGTCTGGGGAAAGAAGTACCAGCTGGCTAAGGAATACGTTCTGGCCGCCAGCTTGGCCTTTGCCCTCTGCGGCTTTGTGGTTGCCAACAATTTGAACTTGATGTGGCTGGACAGCCTGGTCCTTTTACCCTGGCTGCAGGAAGCTATTGACCGCCTTTTATCCGGGGAGAAAAATCACCTGGTCCTAATTACCTTCCTGCTCTGGCTGACCAACTTCTATACCGGCTACATGACCCTGCTCTTTGGCCTGCTCTATTTGCTAGTGGGCCTGGCCACGAACAGGGAGCCAAAGAAGCGTTTTTGGGCCTACTTCAAGGGCAGCTTCTTTGGCAGCTGCCTGGCCGGGGTCAACCTCTGGCCGACTTTTCTGGAACTTTTAGCTGGGAAAACTGATGCCGACATCAGCTGGAAGCTGAACTTCCAGTTTCCGCCCTACCAGCTAATCGCTAAATTTATCGACGGGGCCTACAGCTTCCATGAAATGTCGGACGGCCTGCCCAACATCTTCATCAGCTCCTGCTTTGCCCTCTTGGCCCTGCTCTTTATCTTTAATTCCCAGTTCAGCAAGCGAGAAAAACTGGCCCGGGGTCTGCTTTTGGCCTTCCTGGTCTTGTCTTTGTCCTTTACCCCCCTGGTTTTGATCTGGCACTTGGGCCAGTTCCCGGTCTGGTACCCGGCCCGGTTCAGCTTCCTGGTCTCCTTCTATGCCTTGAACCTGGCCCTGGAAAACATGGACAGGGAACCCGGCTTCAATCTCCAGCAGAAGATCCTGGCCGCCCTTTTGGGAGCCAGCGTCTCCATTTACCTGGCTATCAACCCGGACAAGCTGGAATTTATCCGGCAAGACGGACAAGTCGCGACCGGCCTCTTCCTTTTGGCCAGCCTGCTCTTCATTCTCTTTATTTACGGCCAGCACTATTTAGCCGGCCACTACGCCCTGCTTTTGGTCGTTTCGGAAGTCACGGTCAACTTGATTTTTTCCTTAAACGCGATTTCCTACCAGGAAAACAAGAACTATGCCAAGTTTGAAGCCAACGTCAACCAGGCGACCAGCTACCTGGCCAAGACCGACTCCAGCCTCTACCGGACGGAGAAGAGCTTCAGCCGGTCAGACGATGACCCCTTCACTGGCAACTATTACGGAATCACGACCTTTAACTCCATCAGCAATTCCAGCACTTCCAACCTGCTCAGCCGCTTAGGCTACGTCCACAACAGCAACTCTTACACCAACCAGGGCGGGACGCTTTTGACTGACGCCTTCCTGGGAGTCAAGTACTACCTGGAGCCGAATTATTCTTATGACGGCGTTTCAGCCGCCCAGCGGATGCCTTATGACAACTTGAACCACCGGGCTGATTTGAGCAGCTATTATCCAATAAAGCAGTTCAAGCAGATCAGCATTTTAAAAAACAAGCAGGCCCTGCCTTTGATTTTTGCCAGCCAGAGCGGGCAGAAAAAGGTCAAGTTCCTGGATAATGACCCGGTTCACAACCAGCAAAAGCTCTGGGAAAGCCTGGGCTTGTCCGGCCAGCTTTTCAAGAAGGTCAAAAGCGAGATCAAGCTGACCAACTTGAAAGTGAACCAGTCCAATCCCCTGGTCTTTAAAAAGGCCAACTCTGCCAAGCCGGCTTCCGTCACCTTCAGCTTGACGCCAAAGAGCAATGACTCCTACTACCTGCAGCTCCCGGACGGCTTTGACTTCAAGACCGCCAGCTTAAGCGTCAACGACATCTTCTACAACTACGAGAGCCGGGACGGGCAGATCCGCCTGGTCGACATCGCCAGCCAAAATAAAAAGTCCAAGATCAAGGTCACTTTTAACTTGACCAATTCGACCCTGGACTTAACTGACCTTATCTTCTGGCACTTTAACAATTCCGCCTTCAAGGCCGGGATCAAGCAGCTGAAAGCGCCGGAACTTAAGTTAAAGCAGACTGGCTTGCAAATTTCCAGCCAGACTTTTAAGAGCCAAAAGAAGCTCTGGATCACGACTATTCCATATTCCAAGAACTGGCTGGTCTATGACAACGGCAAACGGGTCAAGACCAGCAAATACGCTGCCAGCCTCCTGGCCTTCAACTTAAAGGGGGGCAAGCACCAGCTGACCCTGGTCTATTTGCCGGTCAGCCTGATTGCCGGCAGCTTGATCAGCTTGGTAACTTTGGCTGTCTACCTGCTTTTGAAAAAGAAACAGAGAATTTAA
>LACTIS1119B1_04230 transcription elongation factor GreA
ATGCCTGAAAAAATCTATGAAATGACTGCCGAAGGCAAGAAGCAGCTGGAAGAAGAACTGCAGAACCTGAAGTTTGTCAAGCGGCCGCAAATCGTTGAACGTTTGAAGATTGCCCGTTCATACGGGGACTTGTCCGAAAACTCAGAATACGACGCCGCTAAAGATGAGCAAATGCGGCTGGAAGAAAGAATCGATGCCGTCAGCGAACAATTGAAGTATGCTGTCATTGTCGACACTGATGCCGTTGACCCCGACGAAGTAAGTATCGGCAAGACCGTTACGGTTACTGAAGTCGGCGAAGACGAACCGGAAACTTACGAAATCGTGGGGAGCAGCCAGTCTGACCCATTCCACGGCAAGGTTTCCAACGAATCTCCGATCGGCAAGGCCCTGCTTGGCCACAAGAAGGGTGAAACGGTCAAGATCAACGTTGACTCAGCCAACGTCAGCTACGATGTCGTAATCAACGACGTTAAGACGACCGACTAA
>LACTIS1119B1_04240 phenylalanyl-tRNA synthetase subunit beta
ATGTTAGTTTCTTACAATTGGTTGAAAGATTTCTTGAACATGGACGGCGTAGACCCTTACGCCTTGGCTGAAAAACTGACTCGGTCCGGGGTTGAAATCGCCTCAACGGTTCACCCGGAAGACGGCTTGAGCAAGCTGGTCGTGGGCCATATTTTGACCTGCGAAAAGATCGAAGGGACCCACCTCAACAAGACTACGGTCGACGTTGGTGAAGATGAAGCCCGCCAGATCGTCTGCGGGGCACCTAACGTGGCTGCTGGCCAGGACGTGATCGTGGCCCTGCCCGGGGCCCATTTGCCAGGCGGGATCAAGATCAAGAAGGGCAAGCTGCGCGGGATTGAATCCAATGGGATGATCTGCGGCCTGCAAGAACTCGGCTTCAGCGACTCAGTTGTTCCGCCGAAGTACGCCGACGGCATCTGGGTCTTCCATGATCCGGACCTTAAGCCTGGTGACTCTGTCTTTGCAGCCTTGGGCATGGACGACTACGTTTTGGACTTCGACATTACCCCAAACCGGGCCGACACTTCCTCAATGGAAGGGGCAGCTTATGAAGTTGGTGCCTTGATTGACCAGAAGCCAAAGATCGAAGACGTTGTCCTTAAAGAAGACGGGGCAGACTGGACTGGTGACTTTACTGCCGTTGCTGATGAAAAGATCGCGCCGAAGTACTACTTGAGAAAGCTGACCGGGGTCAAGATCGCTGAAAGTCCCCTTTGGCTGCAGGTCCGCCTGTGGAATGCCGGCATCCGCCCAATCAACAATGTGGTTGACGCGACCAACTATGTCATGCTCTTGACTGGCCAGCCAATGCACGCTTACGACGCCAAGCTTTTTGACAAGACCAAGAAGATCGAGGTCCGCCTGGCCAAGGAAGGCGAAAAGCTGCAGCTCTTGAATGAAAAAGAAATCGACCTGGACCCGCAAGACATCGTGATCACTGATGGTGAGCAGGCAGTCGGCTTAGCTGGCGTGATGGGCGGCTTGAACAGCGAAGTAACTGAAGAAACTACTGATGTGATCCTGGAAGCTGCTGTCTTTGACCCGGCCTTGACCAGAAAGGCAGCTCTGCGCCACGACAACCGGACTGACGCTTCTGCTTTGTTTGAAAAGGGGATCAACTGGGACAACACCCAAAAGGCCCTGGACATCTGCGCCTTGATCTTGCGGGCAAATGCCGGCGCCACTGTCTTAGCTGGTGAAATCAAGGCCAGCGACCTGGACAAGGAAGCAGTTGTTATTACGACCACTGCTTCCCGGACCAACAAGATCCTGGGCACTGACCTGTCCATGGACGAAATCGTCAAGATCCTGGGCAAGCTGAACTTCCCGGTTGCAGTAAATGGCGACGAATACACGGTAACTGTGCCAAACCGCCGCTGGGACATCTTCATTGACTCCGACATCTTTGAAGAAGTCGGCCGGATCTACGGCTACGACAACATCAAGTCCACCCACCCGGCGACCGGTGAACTTATTGGCGGCTATGCGGCTGATGAAGTCAAGGTCCGTCACCTGCGCCAATTGCTGGAAGGGCAGGGGCTCAGTGAAACGATCAACTACTCCCTGACTTCTGAAGAACTGGCTACGACTTTTGTCAAAAAGGCCCTGGCTCCAGTCAAGGTCAATTGGCCGCTGAACTCAGCCAGAACCACCATGCGGCAAAACTTGATTTGCGGCCTGCTCGACACGGTTGCTTACAACTTCGCCCGCAAGCAAACTGAACTCCAGCTCTTTGAAAACGGCCGCGTCTACGACATGGAAGGCGGAGACTACCACGAACATGAACACCTGGCAGCCGCTTACGTCGGCTTAGCTGGTGAAAGCAACTGGCAGCACAAGGACGAAGTCGTTGACTTCTACTACGTCAAGGGGCAACTGGAAGACGTATTTGAAATGATCGGGGTCAAGGACGTGGAATACCGGGCCGAAGCAATCAAGGGGATGCACCCGACCAGAACAGCTGGCATCTACGTAAATGATGAATATATTGGTCTGATCGGCCAAATTTCTCCAGTTTTGACCATGACTGACAAGAACTTCGCCGGCAAGGAAATCTACGTTTACGAACTGAACCTGGATGCCCTGCTGCCGCTGATGGCTAAGGGGGTCAAGTCCAAGCCGGCTCCGAAGTACCCAGCCGTGCAGCGGGACCTGTCAATTTTGGTTGACGAAGATGTCACTAATGCCCAAGTTGAAAGCTGCATTAAGGAAAACGCCGGCAAGTACCTGGTTAGCGTTGAAGTCATCGACGTCTACCAAGGGGCCCACCTGGCTGCCGGCAAGAAGAGCCTGGCTTACCGCCTGACCTTCTTGAATGAGGCAGAAACCTTGACCGACGTGGTTGTCACTAAGGCAATTGACAATGTGCAAGCCGCTTTGGAAGAAAAATTAGAGGCAAACATTCGTTAA
>LACTIS1119B1_04250 phenylalanyl-tRNA synthetase subunit alpha
ATGGATTTATTTGATCGATTGAAGGACCTGCGGGAGCAGGGGCTTGCTGAAATCAAGGAAGCAGAAAGCGAAAAGAGCCTGAATGACGTCCGGGTCAAGCTGGTCGGCAAGAAGGGGGAACTGACGCAAATTCTGCACCAGATGAAGGACGTTGCTCCGGAAAAGCGGCGGGAAGTCGGCCAGAAGGTCAACGAACTCCGCGACCTCTTTAATGAAAAGCTGGCTTCTGCCAAGGATAACTTGATCGAAAAGGCCATTGAGGCCCGCCTGGAAGCTGAAAAGATTGACGTGACCCTGCCAGGGCGCAGAAAGCATGTTGGCTCCAAGCACCCGATCAGAATCATTCAAGACGACCTGGAACGTTTCTTCATCGGCATGAGCTACCAAGTTGTCCAAGGCCCGGAAATCGAAAGCGAACACTACAACTTCGAAATGCTGAATCTGCCTAAGGACCACCCGGCCCGGGACATGCAGGCTACTTTCTACGTTGACGCTGACCACCTGCTGCGGAGCCAGACTTCACCAGTTCAAGCCCGGACCATGGAAAAGCATGACTTCGATAAAGGGGACCTCAAGATGATCTCCCCAGGCAAGGTTTACAGAAGAGACGATGACGACGCCACCCACTCCCACCAGTTCATGCAGATGGAAGGGCTGGTTGTCGGCAAGAACATTTCCTTGAGTGACCTTAAGGGGACCTTGGAACTGGTGGCCAAGCACGAATTCGGCCAGGACCGGGAAACCCGCCTGCGGCCAAGCTACTTCCCATTTACTGAACCATCAGTTGAAATGGACGTTTCCTGCTTTGAATGCGGCGGCAAGGGCTGTGCGATCTGCAAGAACACCGGCTGGATCGAAGTTCTGGGTGCCGGGATCGTTCACCCGAATGTTTTGTCCGCCGCTGGCATTGACCCAAGCGTCTACTCCGGCTTTGCCTTTGGCCTGGGCCTGGACCGCTTCGCCATCTTGAAGTATGGTATTGACGACATCCGCGACTTTTACAGTGACGACGTGCGCTTCTTGCAACAATTCCGTCAGGAGGAAGATTAA
>LACTIS1119B1_04260 HxlR family transcriptional regulator
ATGACAGAATTAGCTAAACAGGACGAGCCATGCTGTAAAAACGCTGAAAACTACGAAATGTGTGCCCGCTTCGTCAAGGCCTTTGAGATCATCGGCAAGAAGTGGAACGGCTTGATCATCAGCTCCTTGTGCGACACCAAGGCCATGCGCTTCCGGGACCTGGCCCACGCGGTCGGTGCCTGCTCTGACCGGGTTCTGGTCGAACGCCTCCGGGAGCTGGAAGCTGACGGGATTGTCAAGCGGTCCAAGGATGCGGAAAAGAAGATCGTCCTTTACACTTTGACGCCAAAAGGGGCCAAATTAAAGCCGGTCTTCAACCAGGTTCATATCTGGGCTGACAAGTGGTCGTAA
>LACTIS1119B1_04270 rRNA methyltransferase
ATGCAAGAAAGAACATCTGTCAACAATCCGCAAATTAAGGCCATCGGCAAGCTGCAGCAGAAGAAATACCGTGAAGAAAGCGGCTATTACTTGATCGAAGGCTTCCACCTGGTTGAAGAAGCCTTAAAAGCAAGCGTCAAGTACCGGGAAATCCTGGCTACTGAAGCAGCCCTAAGCCGCTTGGCGCAACTGGGCCTGGCTTATGATGAGGGCAAGCTGATCAAGATCAGCCAAAGCGTGGCCAGTCACCTCAGCAGCACCAAGAATTCCCAGGATATCTTTATGACCGTCAAGATCAACCAGTCTGAGCATTTTTTCTTCAGCTACGGCAAGTGGGTCCTCTTAGATGACCTGGCTGACCCGGGCAATGTCGGCACCATCATCCGGACGGCTGACGCGGCTGGCTTTGACGGGGTGATACTGTCAAACAAGACGGTTGACCTCTACAACCCAAAGGTCCAGCGGTCCATGCAGGGGAGCCAGTTCCACTTGAACTTGATCAAGGCTGACCTGCCAGACGCCATTGCCAGCTTGAAGGCCGCGGATATTCCAGTTTACGCCAGCCTTTTGGATCCAGCCGCTAAACAATTGGGCGACTTTGCCCCAGTAGCCCAGGTTGCTTTGATCATCGGCAATGAGGCGCACGGGGTAAGCCCGGAAATCGCGGCTCTGGCTGACGAGAAGCTCTACATCCCGATCAAGGGCCGGGCTGAATCCTTGAACGCCGCTGTTGCTGCCGGGATCATGATCTACCACTTCAGCTAG
>LACTIS1119B1_04280 acylphosphatase
ATGCAAACATGGGAACTATTAGTGCATGGAGTCGTCCAGGGCGTGGGCTTTCGCTGGAGCGTGCAGATGCTGGCTCAGAAGATGAAACTGCCAGGCAGCGTGAGAAACAACCCTGACGGGACGGTCACCATTGTCATTCAAGGGACGCCAACTGATCTGGTCAAGTTTAAAGCTGAGTTGCCAAACGCGGCGCCATATGCCCAAATTTCACGTTTGGACACAAAATTTCTGCCTGAAATGGAACAAATGCATTCTTTTCATGTATTATATTAG
>LACTIS1119B1_04290 preprotein translocase subunit YidC
ATGAAAAAAATCAAAAAACGTTTATTACCTGTCAGCCTGCTGGCGCTCTTGCCGCTTTTCCTTACGGCCTGCGCCAGCCAGACCAGCAAAAACGGCAGCTTAAAGGCCCCGACCAGTGGTCCTTACTACTGGATCTATGAATGGATCGGCCTGCCTTTGCAGCATATCACCGTCAACATCGCCCACGCCATCGGCGGAGCCAGCGGGGCCGGCTGGGCCATCGTTATCATCACTTTGGTCGTCAGAGTGATCTTGATGCCGCTCATGCTGAGCCAGCAGCACAAGGCTACCCTGCAGCAAGAAAAGATGCACCTTCTGCAGCCGCAAATGCAGCTTTTGCAAAAGGCCATGAAGACGCCAGGGATGACTCCTGACCAGCAGATGGCCTTGACAGGTCTGCAAAGAGAGATCTATTCCAAGAACAATGTCTCCATGACTGGCGGGATGGGCTGCCTGCCCCTCTTGATCCAAATGCCAATCATGATCGGGATCTACCAGGCCGTAGCTTACTCAAACGCCCTGGCCAAGTCCACCTTCTTCGGCATTTCTCTGTCCAGCAAGTCCATGGTCCTGGCCATCATCGCCACTGTTTTTGCCTTGATTCAAAGCTACGTGGCCATGATCGGCATCCCTGAAGAGCAAAAGAAGACCATGCAGGCCACCATGCTGATGAACCCGATCATGACCTTCTTCTTCTCCATGTCCTTCTCCGGCGCCCTGGCCCTTTACTGGGCAGTCGGTAACCTGGTCATGGTCATCCAGCAGCTGATCACCACCTTCATCGTGCAGCCGCGGGCCAAGAAGCGGGTTTCCAAGGAACTGGAAGACAGCCCGATCGTGGAAGTCGTTACCCAAGCCAAGCTTGACCAGATCTTAAAGCCAGCCCCTGAACAAAAGCCAACCAGCCAGCCGAAGTCCGGCGACCTGCGCAAGCGCAACCAGGGCAAGCAGAAGCGGAAGTAA
>LACTIS1119B1_04300 two-component system sensor histidine kinase
ATGCTTAAGCAAAACGCCGCTAGCGGCAAGAAGGGGACCAGACACGTTTCACTGATCGTGAGATGGGTCAGCATCGTCGCGATGACGATCATGGTCTCCTTTCTTGTTTTCTCAGCTGTCGTCTACAATACGGTCAAGCAGGAAGCCCTGAGCCAGCAAAAGGATACGTCTAACGAAGTTGTCAACGTCCTCCGCAAGCGTCTAATCGGCATCGATGATGAACTGGAGATCACCAACGTGGTCCAGCAACTATCACCGAACACCAGACGGATTTTAACGGGCTGGCCGGCTCTGTCAGAAAATGACAACAGCAACAGCAGCGTTTTTGGCGACTCGGTCTTAAGCACCGTGACCAACCCTGACATGACCGTGGCGATCTATAATCTCCGCAATGAGATCGTCTTCCACAACGGCGATAGCGCCCCTAAACTGGTCAAGTTCACCAGTGAGAGCAAGAGTGTGGTCAAGGAAGGCAAGGATGGGCAAAGTTCTCTTTATGTCTACCGGAAGGTCAGAAACCGGAAGAGCCATAAATTGACTGGCTACATTGTCGTCAAGAACCAGATGACCGGCTACAACCGCTTGATTTCCAGGACATTGAAGGCCATGCTCTGGCTCTCAATCCTAGGGATCGGCCTGGCGATTGTAATTTCCTACCTGGTTGTCCGCAGCGTCGTCAGACCAATCAACAAGATGTCCAAGGTGGCCAGGGAAGTCAACGCCGACCCGAACAGTACGGCCAGAATTCCCGAGCTGCACAGAAACGACGAACTGGAAGAGTTGGCCCTGTCTTTCAACATGATGCTGGACCGGATGCAGAAGTATATCGAGCAGCAGAAGCAGTTCGTCTCTGATGTCTCCCACAAATTGAGGACGCCTGTAGCGGTCATTGAAGGCCATCTGAGCATGCTTAAGCGCTGGGGCAAGGATGACCCGCAGGTCCTGGAAGAATCCATTGACGCCTCGATTTCAGAGGCTGAGCGGATGAAGCACTTGATCCAGGAAATGCTGGACCTGACCCGGGCTGAACAGATCAGTGTCCACTACCCGAATGCCATCACTGAACCGATGGAAGTCTTGACCCGGGTAGTCGGGGACATGGGCATGGTTCACCCGGACTTCAAGATCTCTCTGGAAGTTGAGGATCTGGATCCGGATACTAAGATTCAGATCTTCCAGGGCCACCTGGAACAGATTTTGATCATCTTGATCGACAACGGGATCAAGTACTCAACCGACCGCAAGGAAATTGCCGTGGCTGCCGGCCAGTCTGGCCAGGAAATGCAGATCGTGGTCCAAGACTACGGGGAAGGGATTTCCGATGAGGACAAGAAGAAGATCTTCAACCGCTTCTACCGGGTCGACAAGGCCAGAACCCGGGAAAAGGGCGGCAACGGCCTGGGCCTGTCAATTGCCCAGAAGCTGGTGGAATCCTACCACGGGACCATTGACGTTGAATCAGTCTTAGGGCAGGGGAGCCAGTTCAGAATCACCTTCCCGGTCTTGACTGATGAAGAAGTCAAAGAATTGGAAAGCCGGGAAGAGCAAAAGCAAGCTGGAACTGAGAATCCAAAGCAAGATCCGATAATTTAA
>LACTIS1119B1_04310 two-component system response regulator
ATGCCGAAAATTTTAATTGTTGAAGACGAAAAGAACCTGGCTCGTTTCGTCGAACTCGAACTCCAGCACGAAGGATATGAGACCGTAGTGGAAAACAACGGCCGCAAGGCTTTGGACCGCGCTTTGAGCGAAGACTTCGACGCGATCTTGCTGGATTTGATGCTGCCAGACTTGAACGGTTTGGAAATTGCCCGCCGGGTACGGCAGAGCAAGACCACGCCAATTATCATGATGACGGCCCGTGACTCCGTGATTGACCGGGTATCAGGCCTGGACCACGGGGCTGACGACTACATCGTCAAGCCATTTGCTATTGAAGAACTCCTGGCCCGCTTGCGCGCTGTCTTGCGCCGGGTCAAGATCGAAAAGGACGCCTCAAAGGACAAGCTGCCGCGGCAAAAGGTTGTCAAGTTCAAGGACTTGACCATCGAAACCGCCAACCGGATCGTCCACCGGGGCGACGGCAAGACCGTTGACTTGACCAAGCGGGAATACAACCTGCTCATGACCTTGATCGAAAACAAGAACAATGTTGTTGGCCGAGACCAGCTCTTGAACAAGATCTGGGGACCGGAATCAAACATCGAAACTAACGTTGTCGAAGTTTACGTCCGTTACCTCCGCAACAAGATCGACATCCCTGGCCAGCCATCTTACATCAAGACGGTGCGCGGAACCGGCTACATGGTCAGAGACGAGGAAGACAATGCTTAA
>LACTIS1119B1_04320 DNA-binding protein
ATGCTAGAACTTTCAATTTTCCAAATCAAGAACAGCCGGGAGCCATTGACCCAGATCTCAGCTGATTTGACTTTTGCTGATGGCTTTTACCAGCGGGCCAAGGACCTGGTCTATGAGGTAAAAAGCGCCCACGTGGAAGGGCAGCTCTTTTATGACGAACCCTTCGTGACTGGCAATTTCCAAGTGGAAGCCGACCTCTTGGTTCCGTCCTCCCGCAGCCTGGAAGCAGTTCCTTTGAAGCAGAAATTCAGCTTCGTGGAAAATTATTCCGACCATGAACCGACCCAGGAAGAAAAGGAACTGGGCTTGATGATCATTCCGCTGGACGATGACCGCATTGACGTGCAGACGGCCGTGGAAGACAACATGCTCTTGAATATTCCAAGCACGGTTTTGACCAAGGAAGAAGCTGAAGAAGACCTGTACCCAGAAGGGCAGGGCTGGGAAGTCATGTCTGAACAAGACTTCGCCGGCCAGAAGAAGGACCAGGTCAACCCGGCCTTTGCCCAGCTGCAGGGTCTTTTGGACAAGATGCAGGCTGAAGAAGACAAAGATAAAGCCGAAGACGAAGAGAAATGA
>LACTIS1119B1_04330 nucleotidyltransferase
ATGAGCGTTGTCGGGATTGTAGCTGAATATAACCCTTTCCACAGCGGCCATGAATTCCTGATGAACCAGGCCCGCTTGATCGCCGGTGATGACCCCATTATCGCGGTCATGTCCGGCAATTACGTGCAAAGAGGGGAAATGGCCATCCTGGACAAGTGGTCCAGGGCCCGCAGCGCCATTGAGGCTGGGGCTGACCTGGTCTTTGAGCTGCCTTTTTCCTATGCTGTCCAAGCTGCCGACATGTTCGCCACCGGCGGGGTCGACCTCTTAACCCGTCTGGGGGCCAAGAACCTGGTCTTTGGGGTCGAAGACGCCAACTTGAATTTTGAATATTTCGGCGACCGGATCTCCAAGATCCCCCGGCAAAGGCAGGAATTCGCCGACTACAGCCAGACTTATTCCACCCAGTACAACCAGATGGTGGCCCGGGAAGTCGGCCATGAAGTCAGTGAGCCCAACGCGATTTTGGGCCTGGCTTATGCCGTGGCTAATGCCAATCTGGGCTCGCCTTTAAAGCTCAGCCCGGTCAACCGGGTTGGGGCCGGCCATGATGACATCCTGCAAAGAGAAGCAGCTGTCCAAAGTGCCAGCGCTATCCGCAACCTCCTTTTAAACGGGGCCGAGCGCTCAGAACTGGAGCAATGGCTGCCAAAAGGGGAAATTGCCGCTTTTGACCAGGAAAAGGTTCTGCCCAACTGGGAACTGCTCTTCCCGTTTCTGAAATACCGGCTGGAATCAGCCTCAATCAAGGAATTGCAGCAGATCTACCAGATGAGCGAGGGCCTGGAATACAAGTTCAAGGCAGAAATCCACCTGGCTAAAAATTTCGCTGACTTCCTCCGCCGGGTCAAGTCCAAGCGCTACACCTATTCAAGGTTAAGAAGACTGAGTCTTTATACTCTTTTGAACGTGACTGAAGCCGATGTCTTAAACAGCTATGACCATGTTTCCACCATGCTTCTGGCTTACAGCAAGCGGGGACGGAAATATTTGAAGCAGCAGCGGAAAGACTTTGAGATCGATATCGTTTCCAAAGTGGACCGCAAGAATGCCCAAGAAGGGACCCTGGGCCTGCAGGTCAGGGTTGACCGTTTATTTGAACAGATTGTTGGCGCTGACCAGAACTTTGGCCGGCGGCCACTCGAGGTAAATTAA
>LACTIS1119B1_04340 ribosome silencing factor RsfS
TTGAAGAGCGAAGAATTACTTGACTTAGTTTTAAACGCAATCAGCGAACGGCACGGGGAAGACACCGAAGCCTACGACATGCGCGGCATCAGCATCCTGGCTGACTACTTCGTGGCCACCAGCGCCACTTCCAGCCGCCAGCTGCACGCCATTGCCAACAGCATCATCGAAGCCTGTCACGAAGCTAATTTCTACGACTACCGGGTTGAAGGCAATCATGACTCAGAATGGCTCCTGGTTGACCTGGGCGACGTCGTTGTCAACATCTTCTCAGAAGATGCCCGGGCCTTCTACAACCTGGAAAAGCTCTGGGCTGACGGCAAGCGCGTGGAAATCGAGGAAGACTAG
>LACTIS1119B1_04350 hypothetical protein
GTGACTGATCCAGTTTTTAAGGAAACATATTCCCCCTTGTCCAGCAGTGAATTGGTGGCCAAGGAGAAGAGCATGATGGATGAAAAACGCTTTGCCCACTGCGTCCGCGTCAGTGAAACGGCCCGGACCCTAGCCAAATTGAACGGCTATGACGAAGACAAGGCGGCTTTGGCTGGTTTTGTCCACGACTATGCCAAGCAGATTCCAGTTGAAGAATACATCAAGGTCATCAAGGAAGAAGGCTTTGATCCGGATCTTTTGAACTGGAACCGGGCTATCTGGCACGGGATCGTGGGCAGCTGGTTCATTAAGCGTGACCTCGGCATCACCGACCCGGAAATTTTAACCGCTGTCTACCGGCACACCACCGGGGACGTGGAAATGACCACCCTGGACCAGATCGTCTTCGTGGCTGACTATATTGAGCCGGGCCGGACTTTTGCCGGCGTTGCAGAGGCCAGAAAGACCAGCTACGCGGATTTAGCTTCCGGGGTTGGCTATGAACTGGCTCACACTCTGGCCTTTTTAGTCCAAAAGAGAAGCAAGATCTACCCAAGAACTCTGGCTGCTTACAATGTCTGGGCAGCTGAGTAA
>LACTIS1119B1_04360 nicotinic acid mononucleotide adenylyltransferase
ATGGATTCATTGGTAGATTTCAGTAAAGAAACGCAAGTAAAAGTGCAGACGGCTGAGAGCCAGCGGAAAGGCAAGCAGATCGGCATCATGGGCGGCACCTTTAACCCGGTGCACATGGCCCATTTGGTCGCCGCTGAACAGGCCATGACCAAGCTGCACCTGGATGAAGTCTGGTTCATTCTGGACAATATTCCCCCGCATAAGGACGCTCCCTTAAACGTGTCTGCCCGCGACCGGGCCACCATGCTGGATTTGGCTACCCGGGACAATCCCCGTTTCAGGGTTAAGCTGCTGGAACTCTTCAGAGGCGGCGTTTCTTACACGATTGATACCGTGCGCTATTTAACCAAGAAGGCGCCGGAAAACACCTACTACTTGATCATGGGCAGCGACCAGGTCAACAGCTTCCACAAGTGGAAGAATGCTGAGGAACTGGCCAAGTTAGCTACCTTGGTCGGTATCCGCCGGCCGGGCTACCCGCAAGATCCGCAATATTCCATGATCTGGGTTGATGCTCCGGATATCCGACTCAGCTCAACTGCTATCCGCCAGGCTGTCTCAACCGGAACCTCAATCCGTTACCTGGTCCCGGACAAGGTCCGCGAATATATTGAAGAAAAGGGGCTTTACCGTGACTGA
>LACTIS1119B1_04370 GTPase
ATGAGTGAAGAAATTCGCTGCATCGGCTGCGGCGCGGCTCTGCAGAGCCAGGACAAGCAGCTGCCAGGCTACCTGCCGGCCAGTGCCCTGGCCAAGGTGGAAAATGGTGAAAGAGACGAAGTCTACTGCCAGCGCTGCTTCCGCTTGCGCCACTACAACGAGATCATGCCGGTCTCCCTGGACAATGATGACTTTTTAGCACTTCTGAACACCATGGCGGAAAAGAAGGCCTTGATCGTCAACGTGGTGGACCTGTTTGACTTCTCCAACTCGCTGATTTCTTCTTTGAAGCGCTTTGTCGGCACAAATGACTTTATCCTGGTCGGCAACAAGCTGGACCTCTTCCCGAAGAACTCCAAGGAAAGCAAGATCAAGGACTGGATGCGGCAGGAAGCCAACCGGATGGGCCTCTACCCAAAGGACATCTTCCTGATCTCCGCGGCCAAGAAGAAGAAACTGGACACTTTGATCGACTACTTGAACAAGCACAGCCAGGACCAGGACGTCTACTTCGTCGGCACGACCAATGTCGGCAAGTCGACCTTGATCAACGCCATTATCGATGAAATGGGGGACGTCCAGGACTTGATCACTACTTCCCGCTTCCCTGGGACCACTTTGGACCAGATCGAAATTCCCCTGGACAACGGCCACTTCTTGGTCGACACCCCAGGGATCTTGACCGACAAGCAGCTGGCCAGCCGGCTGGACCCGAAGGACCTGGACCTGGCTTCTCCAAAGAAGCCGCTTAAGCCTGCCACTTATCAGCTTTTGCCAGGCAATACCATCTTCTTGGCCGGCCTGGGGAGAATTGACTACCTGAAGGGGCCGTCAACCAGCTTTACTATCTATGCTGCCCGGGGCATGTACATCCACCGGACTAAGACGGAGAAGGCTGACGAATTTTACCAAAAGCATGTGGGCGAATTGCTGTCTCCGCCAGGGCCAAACAGCGACCTGCCGCCGCTTAAAGGGCAGGAGTACTCCATCAAGTACCGCAGCGATGTATTGTTTGCCGGGGTAGGCTTCATCACTGTGCCGGAAGGCTGCGTGATCAAGGCCTACACGCCGGGCGGAATCGGCTTGGGAACCAGAAGAGCTTTGATTTAG
>LACTIS1119B1_04380 50S ribosomal protein L20
ATGCCAAGAGTTAAAGGTGGTACCGTTACACGCGCACGTCGTAAGAAGGTTTTGAAGCTTGCCAAGGGTTACCGTGGCTCAAAGCACGTTCAATTTAAGGCTGCAAGCACTCAATTGTTCGTTTCATACAAGTACGCATTCCGCGACCGTAAGAAGCGCAAGAGCGAATTCAGAAGACTGTGGATCGCCCGGATCAACGCAGCTGCTCGTCAAAACGGCTTGTCATACTCAAAGATGATGCACGGTTTGAAGCTGGCTGGTGTTGACATGAACCGTAAGATGTTGGCTGACATTGCCTACAACGACGAAAAGACTTTTGCCGCTTTAGCAGAAACTGCTAAGAAGGCTTTGGCTTAA
>LACTIS1119B1_04390 50S ribosomal protein L35
ATGCCAAAGATGAAAACCCACCGCGCTTCAGCTAAGCGTTTTAAGAGAACTGGTAACGGCGGTTTGAAGCGCCACCACGCCTTCACTGGCCACCGTTTCCACGGTAAGACCAAGAAGCAACGTCGCCATTTGAGAAAAGCCGCTATGGTTTCACGCAGCGACTTGAAGCGCATCAAGCAAATGCTTTCCCAAATGCGTTAA
>LACTIS1119B1_04400 translation initiation factor IF-3
ATGATCCTTAACGAAAACATCCGCGCTCGTGAAGTTCGGCTGATCAACGCTGAAGGTGAACAAGTTGGGATCGTGTCAAGAAATGAAGCTCTGCGCCAAGCGAGCGATGCTGGCCTCGATCTGACTTTGATTTCACCAAACGCCAAGCCGCCTGTAGCAAAGATTCTTGATTATGGTAAGTACCGGTTCGAACAGCAGAAGAAGCTGAAGGAATCACGCAAGAATTCCAAGCAGGTCAGCGTTAAGGAAATCCGTTTGAGTCCGGCGATTGAAGGCAATGACTTCGAAACCAAGTTGAAGCATGCACGCAAGTTCTTAGAAAAAGAAGGCGCCAAAGTTCGTGTTTCGATTCGTTTCAGAGGCCGGGCAATCACGCACAAGGAATTAGGACAACAAGTGCTGGAAAAGATGGCCGAAGAAACTTCGGATATTGCTGTTGTAACCAGCCGGCCAAAGATGGAAGGCCGTCAAATGTTTTTGATGCTCAGTCCCAAGAGCGATAAAGACAAGAACAAACAATAG
>LACTIS1119B1_04410 ATPase
TTGGAAAACCTGGCCCGTTTTTCTGACGCGATTCACGCCTACGAAGATCCCAGCTATCTGGATGGACCTAATTTTGCTTCCTTTGAGCAGGCCTTCAAATATCTCGTCCATCTCTCTGAGAAAAATGACCGCTTAATCTTAGTCATCGATGAATTTCCTTACCTGGCGAAAGCCTATCCGCCAATCAGTTCAATGCTGCAATCCTACATCGACCATTATTTTAAGCAGAAAAAACTCTTTCTTATCCTCTGTGGCAGCTCCATGTCCTTCATGGAAAAGCGGGTCCTTGGCTACAAGAGCCCGCTTTATGGCCGCAGAACTGCTCAGTTTAAGCTGAAACCCTTCAGCCTGCATGATGCCGAAGAATTTTTCCCGCAATTAAATAAGGAAGAAGTTTTTGAACTCAATGCCATCACCGGCGGAATTCCCCTCTACCTCTCCCTGATGTCTCCCAAAAAATCACTTAGGGAGAACATCAAGGACAATTTCTTAACCACCAGCGCCATGCTCTATGCCGAGCCGATGAGTCTGCTCAATCAAGAACTCCGCGAGCCGGCAAGCTACAGCTCAATCATCAGTGCCATCGCGGCCGGGGCCAGCCGGCAGTCAGAGATCTCAACTAAAACTGGTATTGCCAGCGGAGCCCTTAGCCCTTACCTGGACAATTTGATCGACCTGGGCATTGTCGAAAAACGGTTGCCGGTTACGGAACTTGATAAAGCCAGAAGCCGAAAGACCATCTATGCCATCAAAGATGGCATGTTCCGCTTCTGGTATACTTTCGTCGGCAAACGGGTCAGCTTTATCGAACGGGGGATTACCGAGCCAATTTTAGACTACATCATTAAGCAGCTCCCCCACTTCATGGGACCAGAATTTGAAAAACTCTCCCAAGAATACCTCTGGTCCAAACTGTTTGATCCAGACCTGGTGCCAGAGCCTTTTGTCAACTTAGGCAACTGGTGGGGACCGGATCCCAAGGAAAAGAAGCAAGTCGAAATGGACATTGTCGGTTTCGATGACCAAAAGCTGAACGGCTACTTTGGCGAATGCAAGTGGAAAAACGAACCGATCTCCGCGGATATCCTCGAAACTCTCATCTACCGAAGCCGCCTCTTCCCCACTCCTAAGAAAAATTACTACCTGTTCTCCAAGACCGGCTTTACTGATAAATGCCAGCAGCTTGCCCAGCAAGTCGACTGCCACTTAATTACCTTCGACATGATGTAA
>LACTIS1119B1_04420 hypothetical protein
ATGAAAGTTTTTTCGGTAACGTTAATTCTGTTTATTTTTGCTTATATAGTTGAGCAGCTAACCAATAGGAATAGCAACTACTGGAGTATCATTCCGATATCTGTCGTAGGCTTAGGCAGCTATGAACTCTTGAGAAGTGATTCTGTGTCTGATAGAGTAAAAAAGGTGATCAATATCATTACGGTTGTAGCTGCAGTCTTATTAGCAATAATTCTTGTGTATGTTGCATTACTATAA
>LACTIS1119B1_04430 hypothetical protein
GTGGGTAGAGGTATAGATAAATTAACTGCAGCAGGGATAAAAGCTGCTGTAAAAAAAGTGGGTCGGAAAAAGTTGAGTAGATTGATTCGCCAAAAAATTATTAAGAAGTTTGGTACTGCAGGTGCTGTTACCAGTACATTTATTGATTATGCTTTGAATTACAATTCTCCAGGCACGATAATAGCGAAGTATTGGGATAAACACGATGCTTATCCTAACAATGGAAGGATTAATCTGTAG
>LACTIS1119B1_04440 hypothetical protein
ATGAAAAAGTGTAAACGATATCTAACCGTCTTTTTTGTTGCCATGATTACTGTAACAATTTTTTTGCCATTCAGTGCTACTAGCGTAAGTGCGAAAACTAACTTGAATGAAGCGATGAGTTTACCTAACAAGAATATTGAGATTGACAAAAAGTATTGGTCTGATGAACGAATTGATCAACTTGCTGATATTTTACAAAAATCTCATCCTGAGTTTTCAAGGAACTACATTAAGGAGCTGATTCGAGATGAATTAAATGATGGACAAATCCCATCTGTATCTGTATTCAAGAGTCAAAAAAACAATCTCCTCAAGATCCTCGTGGAAAGGGATTACCGTTGCACAGGCCGCCGCAGCAATTGA
>LACTIS1119B1_04450 threonyl-tRNA synthetase
ATGAGTTTTGCTTTGACTCTGCCAGATGGCTCAAAGAAAGAATTTGACGTAGCTGTTTCCGTTGCTGACCTTGCTTCCAGCATCTCAACTTCCCTGGCTAAGAATGCCGTTGCCGGCAAGGTTGACGGGGAAATCAAGCCCCTTGACTTTCAGCTGGACGCTGACTACGAAGTTGCCATTTTGACCAACAAGGACGCTGAAGGTTTGAGCGTCTTGCGGGCAACTGTTGCCTTCGTTTTGGAAGCCTTGGTTAAGGACAAGTACCCGGAAATCAAGCTGGGCCAGGCTGAAGTTTCAGAAGATGGCTTCTTCATCGAAACTGACAAGGAAGACCAAATCAAGGTTACTGAATTGCCAGACTTGGAAAAGGCCCTGCAAAAGGCTATCAAGAACGGCGAAGCCATTGAACACGTACAAGTAGCTAAGAGCGAACTGGCTGAAGCCTTCAAGGACGACCCATACAAGAGCGAACTTTTGGCCAAGGAAGGCGACGTGGTTGACGCTTACAAGCTGGGTGACTTCGTTGACTTTGGCTTTAGCGCGCTTTTGCCAAACACTGGCAAGATCAAGAAGTTCAAGCTCTTGTCAGTAGCTGGTGCCTACTGGAAGGGCAAGAGCTCAAACCCAATACTGCAAAGAATCTTCGGGACTGCCTTCTTCAAGGAAGCTGACCTGGAAGCTGACCTTAAGCGGCGGGCAGAAATCAAGGAAAGAGACCACCGGACTATCGGCCGGGACCTGGATCTTTTCTTCGTTGACCCTAAGGTTGGGGCAGGTTTGCCATACTGGATGCCAAAGGGTGCTACTATCCGCCGGATCATTGAACGCTACATCGTGGACAAGGAAGTCGCAGCCGGCTACCAACACGTTTATACGCCAGTTTTGATGAACCTGGACGCCTACAAGACTTCCGGCCACTGGGCTCACTACCGGGAAGACATGTTCCCGCCAATGGGCATGGGTGAAGGCGAAATGCTGGAATTGCGGCCAATGAACTGCCCATCCCACATCCAAATCTACAAGCACCACATCCGGTCCTACCGGGAACTACCAATCCGGATTGCTGAACTGGGGATGATGCACCGCTACGAAAAGTCTGGTGCCTTGTCAGGTCTGCAACGTGTCCGGGAAATGACTCTGAACGACGGTCACACTTTTGTAGCTCTGGACCAAGTTCAAGAAGAATTTGCCAGAACTTTGCAAATTATCATGGACGTTTACCACGACTTCGACATCAATGACTACTACTTCCGTCTTTCATACCGGGATCCAAAGAACACTGACAAGTACTTTGCCAACGATGAAATGTGGGAAAGAAGCCAAAGCATGCTGAAGGCAGCCATGGACGACATGGGCCTGGACTACGTTGAAGCTGAAGGTGAAGCTGCCTTCTACGGTCCAAAGTTGGACATCCAAACCAAGACTGCTTTGGGCAACGACGAAACCATGTCAACCATCCAACTGGACTTCATGCTGCCAGAACGCTTTGAACTGTCATACATCGGCGCTGATGGCGAAGAACACCGTCCAGTTATGATCCACCGCGGGATTGTTGGTACTATGGAACGCTTTATCGCTTACCTGACTGAAATCTACAAGGGTGCCTTCCCAACTTGGCTGGCTCCTGTTCAAGCTGAAATCATTCCAGTTAACCTGGACGCTCACTCAGACTATGCTAAGAAGGTTCGCGACGAACTGGTAGCCAAGGGTTTCAGAGCAGAAATCGACTTCAGAAATGAAAAGCTGGGCTACAAGATCCGTGAATCACAAACCCAAAAGGTACCTTACACTCTGGTGCTTGGGGATGATGAAATGAACGCTGGCACGGTTAACGTTCGTCCTTACGGGACTGAAGAACAAAACTCCGAAAGCCTGGCTGAGTTCATGGACAAGCTGAGCAAGGACGTAGCAAGCTACTCCCGCGAAGACTAA
>LACTIS1119B1_04460 primosomal protein DnaI
ATGAGAGCAATTGGCGACATGTTGAGTGACGCGGCTAAGGCCGCGGCAGCCAAGAACGGGCATGATTTTTCGGCGGAATCATTTGAAAAGATGAAAAAACAGGTCTTTGCTGACCCCGACGTCCGGGCCTTTCTGACGGCCCACCAGGACCAGCTGACTAAGGAGAGCGTGGACGCCAGCTTTGCCAGCCTCTATGAATACTGCCGGCAAAAAGACAGCCACGACAAGGTGATCAGCGGCTATTTGCCCCAGCTTTTCATGGAGGGTCCTTTAATCGGGATTCGCTACCAGGCCAGCCAGGACAAGCAGCGCCGGGACAAAGAAGCAGCAGCCAAGCGGCGGATTGAGTTGATTGACCTGCCGGAGAAATTGCGCCGGGTCAAGCTGGCTGACTTGGACATGGCCGATGACCGCAAGCAGGCCTTGTTTGAAGTGGGGGCCTTTTTGCAGGCTTACCAGAGCAATCCCCATGCCAAGGGCCTCTATTTAAGCGGGGACTTCGGAGTCGGGAAGACCTACATTTTAGCGGGCCTGGCCAACCGGGTAGCGGAAATGGGCGGCAGGGTGATCTTTTTGCACATGCCGACCTTTATCGCTGGTTTGTCCAGCCACTTCGGCGACAACAGCCTGCAGACGGAAATCCAGCGCCTGGCGGTTTGCGATGTCTTGATTTTGGACGACATCGGGGCCGAGACCCTCAGTCCCTGGTCAAGAGACGACGTTTTAGGCGTGATTCTCCAGGCCCGGATGGACAATGACCTGCCGACCTTCTTCAGCTCCAACTTTGACATGAAGGCCCTGGAGAGCCACTTTAGCGCGACCAAGAACGCGGATGACCCGGTCAAGGCGGCCCGGCTGATGCAAAGAGTCCGCTATTTGGCTAAAGAAGTGGTGGTTTATGGGAACAACCGCCGCCTGCCTTAG
>LACTIS1119B1_04470 replicative DNA helicase
ATGTACGAAAATTCCAATCCCCGCCTCAGGTACGTCGTTTTAAATGAGCTGGCCGACCAGTCAGGGCAAGGGCAGGTCTTAATCAAGCTCTACCAGCCCTTGATCGGGGCTTTAGGGGTTGCCCTCTACCAGACCCTGGTCCAGGGCTTTGATCCTTACCGGTCTTTGTCGGCTTCAAGTGCCCTGTACAGCCTGCAAGAAGACCTGGACTGCAGCCTCCGCCAGCTCTGGCAGGCCCTGCATAAGCTGGAAGCTGTGGGGCTACTCAAGACCTATGTCAGCCACAATCTCCGCTTGGGGGATATCCTGGCTTTTAAGCTGCACGCCGTGCCGGAGGCCAGTGAGTTTTTCAACACTTCGCTGTTAGCCAGCCTCTTAAAAGAAAAAGTTGGTGGGGTCCGCTTCAGCCAGCTGTCCCGGGAATTTGCCAAGCAGGCCCAGGTCAAGGAGCGGCAGCTGGACAACCTAGAAGAAGTTTCCGCTTCCTTTTTTGAAGTCTTCCGCCTGCCGGAAAATGAGGCCATCAATCCTTCTGAAGACGTCCAAAAGGCGGCTGAGGAAAATGCCGGCCAGAAGACGGAAGAAGCCCAGGTCAACTTAAAGCAGATCGACTGGCAGTATTTGAAAGACCGCTTCGTGACTTACCAGATCCCGGAAAGCGAGATCGACCGGCAGAAAGACGAAATCCGGTCCATCATGGAACTTTACGGCTTAAGCGAGGAAGAGTTTATCAACGAAACCCTGCCGACCCTGCATGGCAGCTACCAGCTGGACGCTGCGGCGATCAGAAAGAGCCTCAACTACAACTACAAGGCTGACCACCGCCGCAAGCAGGTAATCAAGCGCCAGGAAGAAAAGCAGGACCGGCCGAGCGTGGACCAGCAAGACCAGCAGTTTTTAGACCTGGTGAAGAGCAAGTCCCCGGTCAACTTCCTGGATGACATGAAGCGGGAAAAGGGCGGCTTTACCACGGCCAGAGAGCGGCAGATCGTCTATGATTTGCGGGAAAATGTCGGCCTGGAAATGGACTTGATCAATGTTCTGGTCTACACCTGCCTCAACTACCAGCCGGTTTTGACCCAGGATTTGGCCTACCGGATTGCCAACGACTGGCTGCAAAAGGGAATCATGACCCCGGAAGCCGCCATCAAGCACCTGCGCGCTGGGAAGAAACAGGCCCAGTCAGGGCAAAAGAAGAACTACCCGGCATATTCAGGCAGCCGGCGGCTTGAACAGGGGACTGACTGGAACAAGAAGCAGTTTGTCCAGCCGGTCAATATTTCTGATGAAGACCTGCGGAAGATGCTGCAGGGGCCGGACAAGAAAGACAAGTAA
>LACTIS1119B1_04480 NrdR family transcriptional regulator
ATGCTTTGTCCAAATTGCCATCAAAACGCCTCCCGGGTTATTGACTCCCGGCCAACTGACGAAGGGCGGACCATCCGCCGGCGGCGGGAATGCGAAAACTGCGGCTACCGCTTTACGACTTTTGAACGGGTGGAACAGTCACCCCTTTTGGTGATCAAGAACGACGGCACCAGAGAGGCCTTCAGCCGGGAAAAGATCCTGAACGGGGTGGCGGCTGCCTGCCAGAAGCGGCCGGTAACCAGCGAGCAGCTCAACAAGCTGGTCGACAATGTTGAAAACCGGATCCGGGCTAAAGGAGTCAGCGAAATCTACTCCAAGGAAATCGGGGAACTGGTCATGGACCAATTAGCCGACATCGACGACGTGGCCTACATCCGCTTTGCTTCCATCTACCGCCAGTTCACTGACATGTCCAGCTTCATGAAGACCATGGAGGACATGATGGACCGGCACAGCAAGGCCAAGTAG
>LACTIS1119B1_04490 dephospho-CoA kinase
ATGACTTTTTATCTGGGACTGACCGGCGGGATTGCCACGGGCAAGTCGACCGCCAGCCGGATATTAAAAGAGCTGGGCTGCCAGGTCATCGACAGCGACTTGATTGCCCACCAGCAGGCCGAAGTGGGCCAGGTCTCCTGGCAAAGGATCTTAGAAGAATTCGGGCCGGACTTCTTCAATGAAGATAAGAGTCTTAACCGCAAGAAGCTGGGCCAGTATGTCTTTGCCAATCCTAAGGCTTTGGCCAAATTGTCTGAAATTACCCAAGGCGAGGTCTTAAAAGAAGTTCAAAAGCAGATGAAAGAAAGCCAGGCTTCTGTTTGCGTCATCGATGTTCCCCTGCTCTTTGAGGCTGGCTGGCAGGACTACTTTGACGCTGTCCTCTTGATCGCGGCCCCGGAAGAAGTGGAACTGGACCGCTTGATGAAGCGGGACTCTTTAAGTGAAGCAGAAGCTAAAAGGCGGATGCAGGCCCAGCTGCCCTTAGGGGAAAAACGCCTGTTGGCTAGCTATGTCCTTGAAAATACTGGTACAATAGAAGAATTAAGAGATAAATTGAGCAATCTGCTGAAAACTATCGCGTGA
>LACTIS1119B1_04500 formamidopyrimidine-DNA glycosylase
ATGCCAGAAATGCCAGAAGTTGAAACGGTCCGCCGGACCCTGCGGCCCTTGGTCGTGGGCAAAACGATCGACCATGTCGATATTTGGTACGACAAGGTCATCACCGGCGACCCGGAAACTTTTAAAAGGGAGTTAAAGGGCAAGACCTTTACCGCCGTTAACCGCTATGCCAAATTCCTGCTCTTCCGTTTAGGCGACTTGACGGTCGTTTCCCACTTGCGGATGGAAGGCAAGTACCATCTAACGACCTGGGATGCACCGGTAGACAAGCATGAGCACCTGCAGTTTGCCTTTACCGATGGAAGCAGCCTCCGCTACGCGGATGTCCGCAAATTCGGCCGCCTGCAATTGGTGGAAACTGGAACTGAATTCCAGGTCACCGGCTTGAAGAATTTGGGCGTTGAAGCAAATAGTCCAGAATTTAGCTTGGACTACTTTGAAAAAGGCTTGAAGAAGAGGAGCATGAACATCAAGAGCCTACTCATGAGTCAGACCCTGGTGGCCGGTCTGGGCAACATCTATGTTGATGAAGTCATCTGGCAAAGCCGGATTAACCCCTTAACGCCAGCTAACGAATTAACCAAGGACCAGGTCAAGTGCCTCCATTCAGCCATCAATGAAACCATAGAAGAAGCTACTAAATACGGCGGCACGACCGTCCACAGCTTCTTAAACGCGGAAGGGGAGTCCGGCCACTACCAGGAAAAGCTCAAGGTCTACGGCAAGGAGGGGCAGCCATGCCCCCGCTGCGGGGAAGACTTTGTCAAGATCAAGATCAGCGGGCGGGGAACCACCTACTGCCTGCATTGTCAAAAGAGGTAA
>LACTIS1119B1_04510 DNA polymerase I
ATGAACAAGAAGAAGTTACTTTTAATCGATGGCAATTCCGTGGCCTTCCGGGCCTTTTTCGCCATGTACCAGCAGCTGGACAAGTTTAAGAATCCAGAAGGTCTCCACACCAACGCCCTCTATGCCTTTAAAAACATGCTGGACGTGGTCTTGAAGCAGGAAGACCCAAGCCATATCCTGGTGGCCTTTGACGCCGGCAAGACCACCTTCAGAACCGCCATGTACAAAGACTACAAGGGCGGCCGGGACAAGACCCCGGCAGAACTTTCCGAACAGCTCCCTTACCTGCGGGAAATGCTCAAGGACATGGGAATCAAGAGCTACGAACTGGCCAACTATGAAGCCGACGACATCATCGGCACCATGGCTAAAAAAGGAGCCGAAGCCGGCTATGAAGTGGCCGTTGTTTCCGGGGACAAGGACTTGACCCAATTGGCCAGTGACCATGTCACCGTCTACGTGACCAAGTCTGGGGTAACTAAACTGGAAGCCTTCACTCCAGACCACATGAAAGAAGTCAACGGGGTGACCCCGACTGAGTTCATCGACATGAAGGCTTTGATGGGTGACCCGTCCGACAACTACCCAGGCGTGGCCAAGGTCGGCCCCAAGACTGCCTTTAAATTGATCCAGGAATACGGCAGCGTGGAGAACTTGTATAACCACGTTGATGAAATGAAGAAGTCCAAGCTGAAGGAAAATCTGATCGCCAGCAAGGACAATGCCCTTTTGGGTAAAAAGCTGGCCACCATCAACTGCGACAGCCCGGTGGAAGTGACCCTTGATGACCTTAGCTATGAGGGCAGCAATATCGACGACCTCCGTCGCTTCTACGAAAAGATGAACTTCCGCCGCTTTCTGGCCGACTTGGCCCAAAAAGGGGAGTTGACTGAAAACAAGACGGAAGTTAAAAAGCAGGACTATGTCGTGCTCAGTGCTGATAACTTAGACCAGCTGCCAAAGGCTGCTGAGGTTACTTTCTACCTGGCCATGTTTGGCGACAACTACCACCTGGCCGACTTCGCCGGTTTTGCCTTGAAAATTGGCGGGGAAACTTTCGTCAGCCGGGACGTCTTCCTCTTGCAGGAAAGCCCCTTGAAGGGAATGCTGGAAGATTCTGCCGTTCAAAAGAACGTCTTTGACTTAAAGCGGACCACTTACGGCCTCTACCGGCTGGGAATCAAGGCTGAATCTTTGACCTTTGACCTGCTCCTGGCTTCTTACCTGGTTGACAATGAGAAAAATTCCAACGACCTGGGTGAACTGGTCCAAGGCTACGACTACTATGACTTAAAGACCGACCTGGAAGTCTACGGGAAGGGGAAGAATGCCAAGATTCCGGCAGATGACGCGGTCTTCTTCAACCACCTGGCTGGCAAGACCGCGGCGATCGCGGCTTTGAAGGACAGTCTTTTAAAGCAGTTAAAAGACCATGAGCAAGATGACCTCTATGATTCAATCGAACTGCCAACGGCCAGAGTCCTGGCCAAGATGGAAATGAACGGGATCAAGGTCCAGCCTTCCCGCTTAAAGGAACTGGAAAACGACTTTGCTGTCCGTTTAAAGGAACTGGAAGAGAAGATCTACAAGGAAGCCGGAGAAGAATTTAACTTGAATTCACCAAAGCAGCTGGGGGTCATCCTCTTTGAAAAGCTGGGCCTGCCAGTTATCAAGAAGACCAAGACTGGTTACTCCACTTCAGTTGAAGTCTTGAACCAATTGAAAGAACAAAGCCCGGTTGTCAGTGACATCCTGGAATACCGGCAGATTTCCAAGATCCAGTCTACCTACGTTAAGGGCCTCTTAGACGTCATCGATAAGCGTGACGGCCGTATCCACACCCGCTACCTGCAGACTTTGACGGCAACCGGCCGCCTGTCTTCAGTTGACCCTAACCTGCAGAACATCCCAGCCAGAACGGAAGAAGGCAAGCAGATCAGAAAGGCTTTTGTCCCATCAAGTCCGGATGGATATATCTACTCCTGCGACTACTCCCAAATCGAGCTCCGGGTCCTGGCCCATGTCTCAGCCGACCCGAACATGCAGGAAGCCTTCAAGACCGGCTACGACATCCACGCCCACACGGCCATGAAGATCTTCCACTTAAGCAGCGTTGACGAAGTAACGTCTTTGCAAAGACGGCGGGCCAAGGCGGTCAACTTTGGGATCGTCTACGGGATCTCCGATTACGGCCTCTCTAAGAACCTGGACATCTCCCGCAAGCAGGCCAAGGAATTCATCGACGAATACTTTGAGCAATACCCAGGCATCCAGGCCTACATGGACCGGGCTGTTAAAGACGCCAGAGAAAAGGGCTACGCGGAAACCATCATGCACCGCCGCCGCTACCTGCCAGATATCCACGCCAAGAACTTCAATGTCCGCTCTTTCGCGGAAAGAACGGCGATCAACTCCCCAATCCAAGGGTCAGCCGCGGACATCATGAAGATTGCCATGATCAACATGCAAAAGAAGCTGGATGAACTGGGATTAAAGACCAAGATGGTCGTCCAGGTCCACGACGAATTGATCTTTGACGTACCAGCTGATGAACTGGAAACGATCCAGAAGATTGTCCCGTCAGTCATGCAGGCAGCTGTTAAGTTGGACGTGCCTTTAGTCGCTGACGCCGGCTGGGGCCATGACTGGTATGAAGCAAAGTAG
>LACTIS1119B1_04520 hypothetical protein
GTGGCCCTGAGCCAAGCCCAATACGGGTCAAAGGGCCCGCGGCCGACAGCAATCGGCACCCAGCACGCCTTTATTTTCCTGGCCGTAATCGTAGTCTTCCTCTGGCTCATGTTCTACAAGAACGTGAAAATAGAAAGCGGATCTAAATAA
>LACTIS1119B1_04530 tRNA binding domain protein
ATGATCACTAGTATTAACAAAGTAAGCTATCCCAACACTTTGATTGTCATCTTGGCGCAAGGCGATGGCGAAAGCAATTTCGAAGAAAAGGCCGACGTAACCCGGGTTACGGACGGCAAGGGCGAATTGACCGGCTTCAACTTCTTTAACGTTGACCAGGTACTGGACTACGACAAGCTGCCAAACGGCGAAGTCAAGCTGGATGAAGACCAAGTCGCAGCTTTGAACGAAAAACTGGCCAGCGTTGGTTTTTCCGACAAGCTGACTGTGGCCAAGCCAACCCTGGTTTACGGCTATGTTAAGGAATGCACCGCCCACCCGGACTCTGACCACTTGCACGTAACGCAAATTGACGTTGGCGATGGTCAGGACCACCAAATTGTCTGCGGGGCACCAAACATCGCCCAAGGGCAAAAGGTCGTTGTGGCTCTGCCAGGTACTTTGATGCCAACTGGGGCCCAGATTTGGCCAGGCACCTTGCGCGGGGTTGAATCAGACGGGATGATCTGCTCAGCCAGAGAACTGGGCTTGGCTCATGCTCCGCAAAAGCGGGGGATCATGGTTGTTCCGGACAGCTTCAAGATCGGTGACGAATTTGAACCGACCAAGTGTGACGAACTGCTGGCCAGCGGCGCTATCACCCTGTAA
>LACTIS1119B1_04540 thiol-disulfide isomerase / thioredoxin
ATGGAAGAATATAAAGTAGTTGACCAGGCAAAGCTGGCGGACTTAGTCAAGAGCGGGCGGACGGTTGTCGAATTTTCTGCTGACTGGTGCTCAGACTGCCGCTTTTTGGAACCTGCCATGCCAGCAATCGAAGCTGACTTCGCAGACAGCAAGTTCATCAAGATCGACCGGGACGGCTCTATCGACTTGTGCAAGGAAATGAACATTATGGGAATTCCTTCATTTGTTGTCTACCAAGATGGGCAAGAAATTGGTAGACTAGTTAATGGAGACCGCAAGACCAAGCAGGAAGTAGAAGCATTTTTGCGGTCGCTTGACTAG
>LACTIS1119B1_04550 tRNA (guanine-N(7)-)-methyltransferase
ATGCGTTTAAAGAACAAGCCTTGGGCAAACAAACTGGTAGAAGAGCACCCGGAAAGCGCCTTGGACTGGCCGGATCCAGCGGAAAAGATCGACTGGGCAGCCCGCTTTGGCAACGACAAGCCAATTGAAATCGAAGTCGGCTCAGGCAAGGGGCAGTTTATTACTACTTTGGCTAAGCAGCACCCTGACCGCAACTTCGTGGCCATGGAAATCCAGAAGACGGCAGCCGGCATCATCTTGAAAAAGAAGCTGGACGAGGGGCTGGACAACCTGCAGATCCTCTGCGCCGACGCGGCCAACCTGGTAGCCTACTTCGGGGAAAACTCCACCAGCAAGATCTACCTCAACTTCAGCGATCCCTGGCCAAAGAGCCGGCATGAAAAGCGCCGCTTGACCTACAAGGACTTTTTAGCCAAGTACCAGGCAGTCTTGACCGGCGACGGGTTGATCGAATTCAAGACCGACAACTCCGGCCTGTTTGCCTACAGTGTCAAGAGCATGAACAATTACGGGATGCACTTTGACTTCGTGTCAGTTGACCTCCACCACGAAAGCGAAGAAATCGTGGAAAAGAACGTGGAAACTGAGTATGAGCACAAGTTTGCCAGCAAGGGGCAGCCGATCTACTGCCTGCACGCGGGCTTTCTGGCCAAGTAA
>LACTIS1119B1_04560 multidrug ABC transporter permease protein
ATGCGTGAGTTGGCAAAGAAGAGACTGCAGGGTAACTTCCAGCAGTCAGCCAAGTATTTGGCCTTGGTTTTCAACGATTTCTTTGTCCTGGCTCTGATCTTCATCTTTGGGGCAGTCATGTTCTGGTATGCCCAGGTGATGAAGGTCCTGCCGGTAAAGGCCTGGTACTATCCCCTGGTATTATCCGCCTTGCTTTGGCTGGCCTACTTGCCGGGCAAACTGGTGACCCTATTGCAGACGGCTGACCGGCAGTTTTTGTTGGCCACTGACGACCGGCTGGATGATTACCTGGCTCCCATGCGCCGCTACAGCTTAGTTCTGCCGGCCCTGCTTTTGGCCTTAGCTGGCGGGATCATGTATCCCTTCGCCAGTTTAAAAATGGGCCTCAGCAATCTCAACTACTTTAGCTTGGTCTTGGCCCTCTTTTTCGCCAAGGTCTTTGAGCAAGGGGCGGTCAGCCGCAGCCTGACTTTTGACCACAGGGTCAAGCAGGTGACCTGGCTGATCAGGCTAGTCCTATTAGCCCTGCTTTTAGCGAGTTTGTATTTCTTGCCAAATGCCTTGTACCTGCTTTTGGCCCTTGCCGTTATCGCAGTTTTGGCCTTACGGGCCTGGAAAAATTCCGCCTTTGACTGGCAGTACGCCATTGACTATGAAGCAAGGCGGAAAGAGACGGTTTACGCCGGCTTTGCCCTGTTTACTGACGTCAAGGAAAGACAGGTCAATATCAAGCGGCGGAAGTACCTGGACTTTTTATTGCCGCCTTTTGGCAAGGAAAGCCCAAACAGCTTCTTGTACCGGCGGACTCTTTTGCGGGACCCGGAATACTTGAACCTTTTGGCCCGGATGACGGCCTTTGCCGTTTTGTTAACAGCCATGATCCAGGATCCGGTCTGGTCTCTGCTCCTGTCCGGCTTGGTCATGTACTTAACCGTCTGGCAGCTCCTGCCTTTAGGGCAAAAATATGACCAGAACATCATGTACCGGGTCTACCCGATTGCCCAAAAAGAGCGGGGGCAGGAAGTCAGCCGGGTCTTGGCCTGGGCCTTGCTTTTGCAGACGGGGCTGATTATAATTTTCTGGCTGGCCATTATGCCGGGCCAGTTTGCCTGGAGCCTCTTGCTCTTGGTCTGGTGCGGCCTTTTGGCCAAAGGCTACCTGCCTTACAAGACCCAGCAGCTGGCGAAAAAATCCCGCTACAAGAAGCGGAAAAAATAG
>LACTIS1119B1_04570 ABC transporter ATP-binding protein
ATGAAGAAAGATAGGGAAAATATGACTTTAGAAATATCGCATTTGACCGGGGGCTACAGCGGCATCCCGGTAATCAAAGACGTCAATCTGACCATCGCTTCCGGTGAGGCGATCGGCTTGATTGGCTTGAACGGGGCTGGCAAGTCGACCACCATCAAGCACCTGCTGGGCCTTTTGCGCCCGCAAGCCGGCAAAATTACTTTAAACGGGATCAACCTGGCTGAGAAGCCAGCTGAATTTAAAAAGCTGGTGGCCTATATCCCGGAAACGCCAGTCATTTACCCGGAACTGACCTTGAAAGAGCACCTGGAACTGACCATCCTGGCCTACCAGCTAGATCCGGATAAAGCCTGGGAAAAGGCTAAAAAGCTTTTGACCATGTTCCGCCTGGCAGACAAATTGGACTGGCTGCCGGTGCACTTTTCAAAAGGGATGCAACAGAAGGTGATGATCGTGGCCGCCTTCTTGACTGACGCCCAGCTTTTAGTGATCGATGAGCCATTTACCGGCCTGGACCCTCTGGCTGTCGCCAACTTCATCGGCCTCATCAAAGAAGCGCAAGAGTCTGGCAAGGAAATTCTGATGACGACCCACGTATTAGCCGATGCCCAGAAGGCCATCAAGACCTACGCGATCTTAAACCAGGGCACGATCGAGTTCACCGGCAGCCTGGATGAAATCAGGGACCACTATGGCTTAGAGGCCAGCGACTCCTTTGACAAGCTCTATCAGCTCTTGTACCAGGAGCAGAAAAATGCGTGA
>LACTIS1119B1_04580 histidine triad protein HIT
ATGACTAAGGCTGAATTAATTGACGACTGTTTATTCTGTAAGATTATCCGCGGCGAAATTCCCAGCTACACCGTTTTTGAAAATGACGACGTGAAGGCCTTTTTGGACATTTCCCAGGTCAACGAAGGCCACGTATTGATGGCGCCAAAGAAGCACTTGACCAACTTCTTTGACTACAGCGCTGAAGACGCCAGCCGCTTTATGCAATACGTGCCGGAAATCGCCAAGGCCATCAAGGCTTCTGACCCGCGGATCCAGGCGATGAATGTCACCAGCAACAACGGTAAAATTGCCGGCCAGGTGGTCATGCACTCTCATATCCACTTTATCCCCCGCTGGGAAGGCGACGGCATCAAGTTCTTCACCAGAAACAATGCCGACCAGTACGACGAAAAGAAGTACCAGGAAGTCTGCGACCGGATCAAGGCCCAGTTTTAA
>LACTIS1119B1_04590 hypothetical protein
ATGCGGAATTTCAAGCACTTTGGCCTGGGCTTTTTGCTCGGGGCAGCAGCAGGGGCGGTCTTTGCCTTTTTGCCAGATGAAAACGGCAAGAGCACCAGGGAATATCTCAAAGAAGACGCGGAAGACTTCAAGGAAAGCCACAAGGAACTGCAAGACGGCCTCTCCCGGGCCCAGGAAGCCGGCAGCCGCTTAGCCAGTGAACTGCCAGCAGCTGAGCAGATGGTCAGCGACCTCAACACCGACGTAGAACGCTTCAAGCAGGAAGCCGACAAGGAAATCACCCGCCTGCAGGCCAAGATTGACAGACTAAGCAGCGAGCTCAACCAGGACCTGAACGAGAGCGAAAATTAA
>LACTIS1119B1_04600 dihydroorotate dehydrogenase
ATGACCGCAGAAGTTAATTTGGCTGTTGAACTGCCAGGCTTGAAGCTGAAGAATCCGGTAATGCCGGCGAGTGGGACCTTTGCCTTTGGCGACTTGCCAGAGAATTTCAACTGGGACGAGATGGGGGCGATCGTCTTAAAGACTGCCACCCGGCATGCCCGGACCGGCAACCCTCAGCCGCAGATTTCCTTGCTCGCTGACGGGGTCATGAACGCCGTAGGCTTGACCAACCCAGGCGCTGAGGTCGTGGCTAGCGAGAAGATCCCGGCTTTAAGAGAAAAGCACCCGGACCTGCCGATCTTGGCCAGCGTGGGCGGGGAAAGCGTGGAAGACTACGTGGAAGTCGCGGAAATTCTGGCCGCGGCCAAGCCGGACGCTTTAGAGCTTAACTTGTCCTGCCCGAACGTGTCTGAAGGCGGGATGACTTTTGGCATCGTGCCGGAAATGGTGGAAAAGATCACCCGCCTGGTTAAGGAAAAAGTGGACCTGCCGGTATACGTGAAATTGACGCCAAACGTTACCAGCATCGTGGAAATTGCCCAGGCCGCTGAAAGAGGCGGCGCTGATGGCTTGACCTTGATTAACACCTTGCTGGGCCTGCACCTTGATTTAAAGACCCGGCGGCCGGTTTTAGGCAATGACTTTGGCGGCTTGTCCGGTCAAGCAGTTAAGCCAGTGGCTGTCCGCATGGTGGCCCAGGTCAGGCAGGCAACTAGTCTGCCGATCATCGGGGTCGGCGGGATCAACAGCCCGGAAGACGCGGCTGAATTCATCTTGGCTGGGGCCAGCGCTGTCCAGATCGGCAGCATGGCCTTCCATGACAAATTGGCCATCAAACACGTGATTGACGGTCTGCCAGCAGTTTTGGCTGACATGGGCGCAAGTGACGTTACCAGCCTGGTTGGCCAGTGGCAGTCAAATAAACAATAG
>LACTIS1119B1_04610 orotidine 5'-phosphate decarboxylase
TTGAACAAACCGTTATTTATCGCTTTGGACTATGATGATCAGGAAAAAATGTGGCTGTTCCTCAACCAGCTGAAGGACAAGCAGGGCCTGCACGTCAAGCTGGGGATGGAAATGTTCTACCAGTACGGGCCGGAAATTGTCCGTGATTTGTCCGCCAAGGGCTACCAGATCTTCCTTGACCTCAAGCTGCACGACATTCCCAACACCGTCAAGCGGACTGCCCACCAGCTGGCTGCTTTGGGCGTTTACTGCACGACTGTCCACGCCCTGGGCGGCAAGCAGATGATCCAGGCCGCTAAAGAAGGCCTGATCGAAGGTACCCCGGCCGGCAAGCCGGTGCCAAAGCTTTTGGCGGTGACTGAACTGACTTCAATCTCTGAAGAAGTCTTGAAGAATGAACAGCACTGCTCACTCAACCTGGCTGACGAAGTAAAGAGCCTGGCCCACCAGGCCCAGGAAGCCGGGGCTGACGGGATCATCTGCTCACCTTTGGAAGTCAAGGCGATGAAGAGCGAATTCAGCGACGACTTCATGTTCGTCACTCCGGGCATCAGGCCAAAGAGCTACCAAAAAGACGACCAGGCCCGGGTGGCCACCCCAGGCCAGGCGCGGGAAAACGGGTCAACCGCTATTGTTGTCGGCCGGCCAATCACCCAGGCCGCCGACCCGCAAAAAGCATATGAAGAGATTTTGAAGGATTGGAGCAAGAACGATGCAAAATAA
>LACTIS1119B1_04620 orotate phosphoribosyltransferase
ATGCAAAATAACGAAATTATCCGCCAGCTGATCGACAAGAAGATTGTGACTATTTGCACAGACAAGGACTTTGTCTACGCCAGCGGGATGCACTCCCCCATCTACACTGACCTGCGGCAAACCATTTCCTTCCCGAAACTGCGGCAGGCAATCGCTGAAAACCTGGCAGCCTTGATCAAGCAGGAATTCCCGGAAGTTACGGTGATCGGCGGTGTCGCTACGGCCGGCATCCCGCACGCTGCCTGGGTTGCCCAAGTCATGAACCTGCCAATGATTTACATCCGCTCCAAGCCAAAGGACCACGGCCAAGGCCGGCAAATCGAAGGCCGCCTGTCCATGGACGACCACATCGTTTTGATCGACGACCTCATTTCAACTGGCGGCAGCGTTTTGTCTGCCGTGCAAGCAGTCAAGGACACCGGCACCCACGTTGACGGGGTCAGCTCAATCTTTACCTACCTTTTGCCAGACGCTGACGAAAACTTCAAGAAGGCCGACACCAAGTTCGCTCCGCTCTTGAACTACCGGGAACTGATTGAACAGGAAATTGCTGAAACGGTCAGCGAAGAACAATATAAGGAATTGTTGGCTTGGCACCAGGATCCTTGGAACTGGAAGCGGTAA
>LACTIS1119B1_04630 peptidylprolyl isomerase
ATGAAAAAGCATTTGAAGAAAATTGCCGTTTTGGCAGGTGCCGCAGCTATCGGTCTGTCCACTGCCGCTTGCTCAAGCAGCTCAGCTACTGTAGTTAACTACAAGGGTGGCAAGATCACTCAGGACGAATACTACGAAGCTATGAAGGACACTTCAGCCGGCCAATCAACTTTGGTCAGCTTGATCATCTACCGCACGCTGAAGGCCCAATACGGTGACAAGGTATCTTCAAAGAAGATCAACGCCGAATACAACAAGTACAAGAAGCAATACGGCTCAAACTTCAGCACTGTTTTGAGCTACAGCGGCTTGACTACTAAGTCATTCAAGCAAAACCTTGCAACCAACCTGTACTCAGTTGCCGCTTTGAAGGACTTGAAGAAGCCAACCACCACGCAAGAAAAGAACTGGTGGAAGAGCTACCACACCAAGACCACTGTGCAACACATTGTAGTTGACAAGAAGTCAACCGCTGAAACTGTCATTAAGAAGCTGAAGAGCGGTACTAGCTTTGCTACTCTGGCTAAGAAGTACTCAACTGACACTGCTACCAAGAAGAAGGCCGGCAAGCTGGCAGCCTTCGACTCAACTGACACCAGCTTGAGCAGCACTTTCAAGTCAGCTGTTTGGAAGCTTAAGGAAGGCGAATACACTACCACGCCAGTTAAGACTTCATCCGGCTACGAAGTCATCAAGGTTTTGAAGACTACTGAAAAGGGATCATACACTAAGAACAAGAGCTTCATCGACAAGCAGCTCTACGCTAAGTGGGCAGCTGACTCCAACACGATGACCAAGATCATCAGCAAGGTTCTGAAGAAGGCCAACGTCAACATCAAGGACAAGGACCTGAAGAGCAAGAACCTGCTGGCTAACTACCTTGGCACTTCATCATCATCTAGCTCATCATCAAGCTCAAACTAA
>LACTIS1119B1_04640 hypothetical protein
GTGGCTTTGGGCAATATCGCCCAGCAGTTTTTGCGGCAGCTGGATATCGACCTGGTGGCTTATGTGGCGCAAGTCGGGCCAGTAGAAGCTGATTCTGAAAAGCCCTTAGACGTCAGTGAGATCCGGCAGAAGATTTTTCAAAATGACATGCATGTTATCGACCAGGACAAGGTGGAAGACCTGCATCAGCTGATTTCAGAGACTAAGGAAAAGGGTGATACACTGGGCGGGATTATCCGCCTGGTAGCAACTGGCTTGCCGGCAGGGCTGGGCAGTTACGTCAGCTGGGACACGAAATTGGACGCCAAGCTTGCCGCGGCCGCTGTCGGGGGCAATTCCGGCACGACGAATCGTCTTTTGCTGGGAATTTTGGCCGGTAGCTCCTTTGCCAGTCAATTGATCGGGGATGCTTCTTTAAGTAAGCGGCCGATGAAGCGGGTCAGCCAGCCCTTGGCTAAATTCGGTGCAGAGATTGCCTTGAGCCCGGCCGGAACCCTGCCAGCCACGGTCATAGGGCAAAAGCTGCATGGGGCGGAAATCCAGCTGGAAGTTGCCAGCGCCCAGGTCAAAAGCGCGGCGATTTTTGCTGCCCTTGAAGCAGGTAGCCTGTCAACCATCATCGAAAAATTGCCGACCAGAAACCATACTGAGATCATGTTGCGGCAGTTTGGCGCTGATATCACAACAGAGGCGGACAATTTGACCATCCATGTCCAGCCGGGCCAAGAATTGCTGGGCCAGGAAGTAGAAGTGCCCGGCGACATGTCTTCAGCAGCCTTTTGGCTGACCGCCGGCAGGCTAAGGGAATCCTGGCCGCTTATGAGCTGA
>LACTIS1119B1_04650 shikimate kinase
ATGAGAATTGTATTAGTTGGCTTCATGGCATGCGGGAAAACGACGGTTGGCGATTTGCTGGCGAAAAAGCTGAACAAGCTGCAGATCGACTTAGACCAGGCTATTGTGGAAAGAGAAAAGCTGACCATCCCGGAAATTTTTGCCAAGTTCGGCGAAGACCACTTCCGCCTCTGCGAGCACCGAGCCCTGCTGGCCAATATTGGCAAGGACGCGGTGATCACGACCGGCACCGGGATCTGCGCAATGTCTTGGAACGGTCCTCAGCCCGGGAAACTACCCTGCGGGTGGCTTTGGGCAATATCGCCCAGCAGTTTTTGCGGCAGCTGGATATCGACCTGGTGGCTTATGTGGCGCAAGTCGGGCCAGTAG
>LACTIS1119B1_04660 3'-5' exoribonuclease YhaM
ATGCTTAAACGTTTGCTGGATTACAATGAAGGGGAAGAATTTGACCTGGTCTTGATGGTCAAGAATTCCCAGCTGCGCCAAGATAAGAGGGGCAAGCACTACCTGCTCATGCAATTGGCTGACTCTTCCGGCAGCATCCGGGCCAATTACTGGCAGGCCCAGGCTGAGGACGCCAGCCGCTTCAACGCCGGCACGGTGGTTGAGGCCTCAGGGATGATTGAGGACTACCACAACCATGACCAGATCAAGCTGTTCAGCATTCATCCGGTCAGCCCGGACGACCAGGTGGACTTGAGCCAATTGGTGGCCACTGCTCCGGAAAAGCCAGCAGAAATAGAGAAGGAGATCAAGGACTTTGTGGCCCAGATCGACAATAAGAACTGGCATGATCTGGTGGACTTCCTTTTGAAAAAGTGGTCCAGCCGCTTCTTCGCTTACCCGGCTGGCAAGTCCAACCACCACGCCTACAAAGGCGGTCTGGCCTTCCACACTTTGACCATGCTGAAAGACGCCAGAGGCTTAGCAGACAACTACCCAGCCGTCAACCGGTCTCTGCTTTATGCCGGCTGCATCTTGCACGACATGGGCAAGGTGCTGGAATTGTCCGGCCCGGTAGCGACCCAGTACACGGCAGAAGGCAACTTGGTTGGCCACCTGGTTTTGATCGATGAGCAGCTGATGCTGGCTGCCCAGGAACTGAAAATCGACCTGGCCAGTGAAGACCTGCTTTTGCTGCGGCACATGGTCTTATCCCACCACGGCCGCTATGAGTACGGGTCACCGAAATTGCCGGCGCTGCTTGAAGCAGAGCTTTTACACCGGATCGATGACCTGGACGCGGCGGTCAACGCCATCACGACTGAATTGTCCACGACCAAGCCGGGGGAATTCACCCCGCCGCTGATGTCCCAGGACGGCCGCCGCTATTACCGGCCAAGACAGGAAAGATAG
>LACTIS1119B1_04670 DNA repair ATPase
ATGAGACTCAAGCAGATTCAAATCTATAATTTCGGTCAGTTCAGCCAGGAGACTTTTGACCTGCCAGAGGGCAATTTAGCAGCCTTCTTCGGGGGCAATGAGGCTGGCAAGAGCACGACCGTGGCCTTCATCAAGCAGATCCTTTTTGGCTTCAATTTGAAAAATACTAGCTCAGTCTTTTTTGAAGACTACGAACCCTTGACCAAGAGCTACCCGATGGGCGGGCAGCTGGTCTTTACTAGTGATGCAGGGGAATATGTCTTAGAGCGGACCTGGAGCAAGGGGGACAAGAGCAAGACCGGGGCAGTCAAGGTCCTCTTAAACGGCCAGGAAGTCCCGGCCAGCCTCTTTTACGACCAGATTCAAAACATCGACGGGAGCTTTTACGCTGAAAGCTTTATCTTTAATGAAGACCTCCTCCGCCAGGTCAGCTCCCTGTCTGAAGGCGAGATCCTGGAGAACATCTACTATCTGGGGGCGGCCCAGAGCAGCCAGCTTTTAGCCATCCGGGCTGACTTTGACAAGGAAGCCAAGGACCTCTTCAAGCCAAGCGGGAAGAAGGCCCCGGTCAACCAAGACTTGCTCAAATTGGCTGAGCAAAGAGACAAGGTGGCCGCTGACGGCCAGGAATTCGACGCCTACCAGCAGCTGGAAGGCCAGCGGCTTGCTGAAGAGCAAGCAGCTAAAAAGCTGGAAAAAGAAGTCCAGGAAATCTCCAGCCAGTTAAGCAAGCTGGAAAAGCAGCTGGAGCAGGTGCAGAACTACCAGACTTATCTGGACCTAAAAAAGCAGGTCAGCCCGGTCGCTTTTGACCATGAGCTCTACCAGAAGGCCCTGGAGCTTAATGCCCAGATCAAGGCCCTCAAGGCCGCCATCAAGGAAGAAAAAACAGCGGTTGACCCGGCCCTTTTGGCCAAAAGAAAGGACCAGGTCCGGGCCTGGCGGCAGGAACTGGGGCAAATCAGCCAGAGCATGGAAATGCTCAAGCAGCAGGTCAAGCAGCTGGAAGAAAAGCAGGCCAGTCTCTTAGAATTGACCCCGCATTTAGAGCAAGTGGCAGATTTATCCATGGACCAGTTCCAGCAGATGCAGGCTGACTGGGAAGAAAGCCAGAAGGCAGAAGCCGCGCCTAAGACCCTGCCGCCATATGTCGGCTTGATCGTAGCGGTAATTGGTCTGGCTTTGATCGGGCAAAACCGAATTTTGGCAATATTGTTAATCCTTGCCGGCGCGGTTTTAGCAGCTTATGCCTACTTCAAAAAGCCCGCCAAGGGACCGGACAAGGCGGGAGCCTTTAAGGAAAAGTACGGTATCGATGCCAGCGTTAAGGTCGACTCCTTGCTTGCCCCTTACCGGGACCTGGCCATCAACCGACGGGACTTGGCAAATAGCCAGGCAGAACTCGCTCAAAAAGAAAAACAGGCCGCTGACCTGGCCCGCCAATTGGGCTTGGATGGCAGTGACCTTACAGCTGTAAGCCAGCAGCTGGGCCGCTTGGAAGAGCAGGTGGAAGCTGAGAATGCGGCGCTTAGGGCCAGCCAGGAGGTCAATGCGGCCAACTTGAACTACCAAAAGCAAATCAGCGCTTTAACTGAACAGCTTTTGGCCATCTACCAGACTGCCGGGGTAGAAAACCTGGCAGCCTACCAGGCATTAGCGCAAAAACTGCAAGAGCAAAAGGCTTTATCTGCCCAGATCACCGCTTTGAAGAACAACTTGGGTGACCAGTTAGCGGCTTTTGAAGAAAATGGCCTGGATTCAAGCAAATTGCTGAGGCAAAAGCAAGAGCTGGAAAAAGAACTGGCTGATAAGCAAAAAGCTGTCTCAGCCCGCCAGCAGGAAATGGCCAACCTTTTGGCTGAGGAAAAACGCTATGCTTCTTCCAGCCAGGTGGCTGAAGACAAGCAGACCTTGGCTGAAATCGCCGACAGCTTCAGAAGAGACAGCCAGGACTACCTGGCCAGCCTTTTGGCCGGGGAAGTCATTGGCCGGACACTGGATCTAGCCTCAAATGACCGCTTCCCGAAGATGCTGAAATTAGCCCAGGACTACCTGGAAATTTTGACCGGCGGCCGCTACCGGGAAATCCTTTTGCCGGCCAAATTGTCCAAGAAGACCCCGCTCAAGGTGGTCAGAAAAGACAAAAAGAAGATCCCCCTGGCCTACCTGTCCCGGGGGACCCAGGAGCAGCTCTATTTTGCCTTGAAACTGGCTTTTGTCATGCAGATCAAGGACAAGATCGACCTGCCGGTCTTGATCGACGATTCATTCGTCAACTTCGACGGCCCGCGGACTGGCTACATTGTAGACATGCTCAAGAAGATGAGCAAAGACAAGCAGATCCTGGTCTTTACGGCCAGAGAAGACTTGGCTGAAGCCGTCAGCGCCGCGCCAATCAGATACAGAAAGAAGGAGCAGGATGCTTAA
>LACTIS1119B1_04680 phosphoesterase
ATGAAATTCATTCATTTAGCTGACGCGCACTTAGATAGCCCCTTTCGTGGACTATCTTTTTTGCCAAACAGGGAATATGCTGAAATCCGCCAGTCAGCTGCCCAGTCTTTGACTAGGATCGTGGACCTGGCCTTAAAAGAGCAGGTCGACCTGGTTTTAATCGCCGGCGATACCTTTGACTCAAACAAGCCGTCTCCGGCCAGCCAGCTTTTTTTAGCCCGGCAGGTGAAGCGGCTGACTGACGCCCAGATACAAGTGGTCATGATCTTCGGCAACCACGATTACATGACCCGGCAGGATCTCTTGGTCGAAAACAGTCCTTACTTCTGCCTCTTGGGTGACCAGGAAAAAGTTGCCCGGGAATTTTTTAAGACTAAGACCGGCTTTGCCTACAATGTGACCGGCTTTTCCTATAGCCAGAACCATATTGAAGCTGACCTCCTGGACCAGTTCCCGGAAAAAGAGGGCTATACCATCGGCCTGATGCACGCGGCCCAAAGAGCGGCCAGCGGCAATGTCTACGCTCCCTTTGACTTAAGCCAGATGAAGGAACTGAACTATGACTACTTTGCCCTGGGCCACATCCACGCCCGGCAAATTTTAAGCGAGAAGCCACTAATTGTTTACCCCGGCAACATCCAAGGCCGGGATGTCGGCGAACTGGGGGAGAAGGGCTGCTACCTGGCTGAAGTCGATGAGACCAGCGGGCAGATCAGCTTGACTTTTGTCCAAACAGCGCCGATTACCTGGAAGCAGCTGACTTTAGAGCTGGACCAGGCAATTGATAAGAGCAGCCTGCATGCTAAAGCCCTGGAACTTTTGCAAGAAAATATCCAAGGCAAGACCTACTTCAGCTTGAAGATTTCGGGCTCAGAATATTTGACCAGCGAAGAAATAGACCTTTGGCAGGACCAGGAGGCCTGGGCCGGTCTGTCCGCGGCTTTAGCCCCAGCACAATTGGTTGATGTCCGATTATCCGTCCGGGGCCTGGTCAGCCTCAACAACAGCGACCGGGAAGCCCTGGCTGCTGCTGAAGCAGAAGTTTTGACTGACGAGAAGATCCAGCAGCTGGCCGCTTCCTGGGCCAAGAAGGACCCATATGCCCGCCGGCTTTTAGAGGACGGGGAATTCCGCGGCCAGGTCCGGGACTTGGTGGCCGTCAAGCTGGCCAGGCGCCTGCAGGCAATGACTGGGGGAGAAGAATGA
>LACTIS1119B1_04690 hypothetical protein
ATGGTCAACATTTACGATACTGCCAACCAATTAGCTAACGACTTGCGGGAAACCCAGCAATTTTTGGCTTTGAAGGAAGTCATGGACGCTGTTAAGGCGGATGAGGGCAGCCTGGCCTTGTTCAAGGAACTGGACGCGGCTCAAATGGAAATCATGGAAGCCCAGCAAACCGGCAAGGAATTGACTGAGGAGCAGCAAGACCACTTCAAGAGCTTGAACGAACGGGTCAGCCAAAACACCACCCTGCAAAGCATGCTTTTGGCAGAACAAGCTGTTTACACCCTGCTCAACGACGTACAAAAGAATATCGGCCAGCCTTTGTCTAAAGCATACGAGGATTTGAGAAAAGCCTAA
>LACTIS1119B1_04700 penicillin-binding protein 2A
ATGGAAAACAGGCGCAAAGCGCGTAAACAAATGAACGACTCCCAGCCCAAAAAGGGCTTGTGGGGATGGCTGAAAAGGATCAACTACCGCTTCCAACTGCTAAGATGGTTGATTTTGATCGTTTTGAGCCTTTTTTTAGCTGTATCTTCTTATTATACCTTTAAAGTCAAAACAGCCAACCTGTCCAACCTCCAGGCTTCCCTGGCCAAGACCACGGTTATCTATGACCAGAATGGCAAAAAGGCCGGGTCCGTGTCTTCCGGCAAGGGGACCTATGTCAGCTTGAGCAAGATTTCCCCCAATGTCCAAAAGGCCATAGTCGCCACCGAAGACCGGACCTTCTGGACCAATATCGGGATCAGCCCCAAGGGCATCCTCCGGGCGGCGGTCAGCTATGTCATCCACGGGGGCAATATCGCCGGGGGCGGGTCGACCATCACCCAGCAGCTGGTCAAGAACTCCATTTTGACCCAGCAGCAGACTCTGTCCCGGAAGGTGGAGGAAATGTTCTATGCCATCCAGGTGACCAAGGTCTATTCTAAAAAGCAGATCATGGCCATGTACCTCAACAATGCCTACTTTGGCAACGGGGTCTACGGGGTCCAGGATGCCAGCCGCAAGTACTTCGGCAAGAACGCCAGCCAATTGACGGTGGCTGAAGGGGCAACCTTGGCCGGCATCTTGCGGAACCCTTCCTACTACAACCCGATCGATTCCCTCTCGCACTCGGTTTCCAGAAGAAACCTGATCCTGCAGCTGATGGTTGACAACAAGTCTATCAGCCAGACGACCGCCAACAAAGCCAAAAAAGAGGGGATGAACCTGGTTGATACCTACAAGGCGACCAGAGGCTACAAGTATCCTTACTACTTTGACGCCGTCATCTCTGAAGCCATCAGCAAGTACGGTTTAAGCGAAAACGAGATCATGAGCAAGGGGCTGAAGATCTACACGACCTTGGACCAGAACTACCAGAAGTCTATGCAGGCCAGCTTCAAGAACAAGTACAACTTCCCGGTCAACCCGGCCGGCACGGCCCGGGCCCAAGGGGCCAGCGTGGCCATGGATCCCAAGACCGGGGCAGTCAAGGCCCTGGTCGGAGGACGCGGCAAGCACGTCTTCAGAGGCTACAACCGGGCCACGCAAATGCAGCGCCAGCCCGGCAGTGCCATCAAGCCCCTGGCTGTCTACGCGCCGGCTCTGGAGAACGGCTACCACTATGACTCTGACCTCTCCAACAAGCGGCAGAAGTTCGGCAGGAACGGCTATGAGCCGGTCAACGTCGACAACCAGTACTCGACCACGATCCCGATGTACCAGGCCCTGGCCCAGTCCAAGAACGTCCCGGCTGTCTGGCTTTTAAACAAGATCGGGGTGTCTACCGGGGTCAGCTACTTGAAGAAGTTCGGCATTACCATCTCAAAGAGTGACCAGAACCTGGCCCTGGCCCTGGGCGGAGTGTCCACCGGGGTCAGTCCTTTGCAGATGGCCCGGGCCTACTCAGCTTTTGCCAACAGCGGGAAGCTGCCGGACAGCTCATATATGATCACCAAGATCACCGACGCCAGCGGCAACGTGATCGCGGAAAACAACAATACCGGGACCAGCCAGATTATTTCAGCTGACACGGCCAAGGAAATGACCCAGATGCTGCTCAGCGTCTTCACTTCCGGGACGGCCGTTAACGCTAAGCCAGCCGGCTACTCAGTAGCTGGCAAGACCGGGTCAACTGAAGTATCTTTTGCTTACGGGACTAAGGACCAGTGGATCGTCGGCTATACCCCGGACGTGGTCGTGGCTACCTGGGTCGGCTTTGACAAGACTGACAAGAGCCACTACATGCAGGGGATTTCGGAAACCGGGATTACCGCCCTTTATAAAGACGAAATGACTCGGATCCTTCCTTACAGCAAGCAGACCAGCTTTACCGTTCAGTCAGCTGACTCCATGGCCCAAAGCAATGGGACAAGCAGCTCTTCTTCAAGTTCTTCGGACTGGAGCAAGAAGCTGAAAGAATCGATCAGCAATGGGGTAAAGAATGCCGAATCAACGATTCAGTCATGGTACAATAAGATTACTGGAAAATAA
>LACTIS1119B1_04710 ribosomal large subunit pseudouridine synthase D
ATGATCTATCATTTCAGCTTAATCTATCCCGCAGACCGTCCCCCAGCTTCCGTCAGTGACCTGCTTAGGCAGCTCTTAATTCCCCGCAAATGGCGGCACTATCTTCGTACTGAGCGGCAGGTTTTAGTCAACGGCCAATACCGCAGCTTCAACCAACTGATCAAGGGCAATGAAAAAGTCGACCTCTACTTAGACCAGGTGGAATCCCTGCAAGGAGACTACCCGGCCAGCGGCAAAATGCCAAAAGTCGTCTATGAAGACGAAAATGTTTTAGTCATTGACAAGCCCAAGGGGCAAAAGACCCACCCCAACCAGGGGGAAAACGGAACGGCCCTTAACGACTGCGCCAGCTACTTAGGCTACAGCCCCTACATCGTCCACCGCCTGGACATGCTGACGGGCGGGCTCTTGCTGGTCGCTAAAAATCCTGCAGTCGTCCCGATCTTAAACCGGCAGCTGACTAGCAAGACCTTAAGACGAGACTACCTGGCTACGGTTGACTTAAACAAAGAAATACCCGATCAAGGCACAATTGACCTGCCGATCGGGCAAGACCCGGCAGACCAAAGAAAAAGGCAGGTCAGAGCTGACGGCTTAAGAGCAGTCAGCCACTTCCAGGTCTTAGAAAAAGACGAGGAGAAAAAGCAGGCTAAACTGCTGGTAACTTTGGAAACCGGCCGGACCCACCAGATCCGGGTCCACTTGTCAGCCTCAGGCTGGCCGATCGTGGGCGATCCCCTCTACAACCCAAATTTTGCCGGCGAAGACTTGGCTTTAACCGGCTGGCAGCTGACCTTCGTCAAACCCTACAGCTTTAACCAGGTCGCAGTCAGATTAGACAAAAAATAA
>LACTIS1119B1_04720 fructose-bisphosphate aldolase
ATGGCTTATTTCGTTAATGGTAATGACATTTTTAAGAAGGCTCGTAAGGAACACTACGCTGTTGGTGCCTACAACACTAACAACTTGGAATGGACCCGCGCTCTTCTTCGTGGTGCTGAAGAAACCAGAACTCCATTGTTGATTCAAGTTTCAACTGGTGCTGCTAAGTACATGGGTGGCTACAAGCTCGTTAAGGACTTGGTAGAAGACTCAATGGACGCTATGGACATCTCAGTTCCAGTTATCTTGAACTTGGACCACGGCGACTACGACTCAGCTATTGAATGTATCAAGCTTGGCTACTCAAGCGTTATGTTCGACGGCCACGCATTGCCAACTGAAGAAAACTTGGCCAAGACCAAGGAAATCATCAAGCTGGCTCACGAACGCGGCATTTCTGTTGAAGCTGAAATCGGCAAGATCGGTGAAAACCAAGGTGCCGGCGAACTTGCTTCAGTAGAAGACGCTAAGGCCTTCGTAGCTGCTGGCGTTGACAAGCTTGCTTGCGGTATCGGTAACATCCACGGTGTTTACCCAGAAGGCTGGAGCGGCTTGAACTTCGACCGTCTTAAGGAAATCGCTGAAGCTGTTCCTGAAACTCCACTTGTTTTGCACGGTGGTTCAGGTATTCCTCAAGACCAAATCGAAAAGGCAATTTCTTTGGGTATCTCAAAGATCAATATCAACACTGAATTCCAACTTGCATTCCAAGAAGCTACTCGCAAGTACATCGAAGAAGGCAAGGACCAAGACAAGAGCAAGAAGGGTTACGACCCACGTAAGCTGCTCTTGCCAGGTACTGAAGCTATCACTGACTCAATGAAGGAAATGATCAGCTGGATGGGTACTCCATCAATCGACGACAAGAAAGCTGACGCTTCATTCGACAGAAGCTCACTTAACGAAGAATAA
>LACTIS1119B1_04730 cell surface protein
ATGAACAAGGCCCATAAACGAATAGGAATGCTGCTGATTGCCATAATCGCGTGCTTGATGGTCATTCCAGTCTTTGAGCCCCTGCCGGAGGTCGGCGGAAAGAGCAAGGTTCAGGAGCATCCCCCGAAGAAGGAGCAGGTTGCCAAGAAAGAAAATGACCGCCCTTACTCTGACCCGAGTGACATGCGTCCCATGACCGGCCACTACTACCTGTATTCCAGCGAAACCAAGCGCAAGTACCCTGACCTGCGTAAGTACAAGGATGTCTGGATCCGCGTCTCCATTTTGGGAGCCCGGGCCTATGTCATGTCTGGCAAGAAAGTCATCTACACCATGTACGCTTCCCCGGGCGCGATCAAGAAGAACGGTGAAAGCCGGACCCCAGTCGGCAACTACCGGATCCAGGAAGAAGCCGGCGAGGTCTTCTACAATAATGACGGGGTAGGGGCCCGCTATTGCGTCTCCTATCACCAGCACGGGGTCTACCTCTTCCACTCAGTCCCGATCAACAACTTCAATTCCGGGGTTAAGGCCGGCAAATACCACTATGGCTACAAGGGCGGAGCCCACCTGACCACCCTGGGCAAGAAGCCGGACAGCCATGGCTGCGTTCGTCTGTCAGTCAGCGATGCCAAGTGGATCTATGAGCAAAGATTGAACGGGGGCCTGCCAGTTGGCAGCAAGGTTGTCCTCAAAATGCGTTAG
>LACTIS1119B1_04740 hypothetical protein
TTGCCGGTAGCCAGCAAGTGGCGCTTCAGCCAGCTGGAAGTGTCCCCGGCAACTTATACGGGGACGGCAAAGGACCGGGACTGGACCGTGGCCGGGCACAATTTCGTGAACCATTTTGGCCGCTTGAACCAGCTGAAAGTCGGCGACAAGGTCTGTTTTGAAGCCGCGGCCGGCCAGCGCTACGTCTACCAGGTCCAGAAAATGGAAGTCCTGCAGCCGACCGCCATCAGCAAGATGGTTCAAAGTAAGTACGATTTGAGCCTGTTCACTTGTACTTATGACGGCACGACTCGCTTTACAGTTAGATTTCGTTTATTACAAATCAAATAA
>LACTIS1119B1_04750 hypothetical protein
ATGAATTCAAGAAAGAAAATGATGAATGAACCATCTAGCGAAAAGCAAAGATGGTCCTTAAGAAAGATTAGCGTAGGTATGACGTCTGTGCTTCTTGGGGCGACTATGTTCTGGGCTAGTGGCGCGGGCAGCCAAGTAAAGGCTGATACCACGACTGCTAGCGAGCAAGCAGCCCAGACGCAGACGAATACAGCGAGAAAAGCTGCCGGCACGGAAAGTACCGAGCAGACAGAAGACAATAATGCCAATGCAGATGCAGGCAAGACTGCAGAAACTCCCGCGGCAACTAACAACGGCAGTCAAGAAACCACCACGGAATCGACGGCTGCCTCTTCTTCTGCCCAAAATCAGGGCCAAGCAGCAACCGCTACCTCAAGTACAACCACCAAGGCTGCTTCGAGTATCCTCAGTCAAGCGGACAGCGAAACTGCCAACTCAAACACTAGTCAAGCAGTAACTGCTACCTCAAGCGCTACTACCGAGGCTGTTTCGAGTGCCGCCAACCAAACGGGCCAAAAAGTAAGCTCCAGTAATAACAAAAGCCATGAGGCGAAAGCTCACACAACTAGTGCTGCCTCTGGTTCTATTAGCCAAGTAAATGATGGACAACCTATCACTGGTCTACGACACTACAGTAATAACAAGCTAGAATATTATGGCAAAGATCATGTTCAGTATCGTAATCGTTATGCTAGTCAGGGAAATAAGTGGTATTACTTTGGTAGCAATGGTGACGCAGTAACTGGCTTACGTCATTACGGCAATAATAAGCTAGAATATTATGGCAAAGATCATGTTCAGTATCGTAATCGTTATTATCAAGAAGGTAATAAATTCTATTACTTCGGTGGTAACGGTGACGCAATGGTCACCATCCGTGGGGCAATTGAAAACGGCAAGTTTAATATTTATGATATTCGGACAAACAAGCTTATTAAGAGCCTCGACGCTGGTACTTGGGAGAACTTGGCCTATTCGATGGATGCCAACTCCATTAACAATGTTGATGGCTACCTTAGCTACAGTGGTTGGTACCGACCAATTGGAACAAGCCAAGATGGTAAGACATGGTACAAGACCGGGGCTGGTGACTGGCGGCCAATCTTGATGTATGTATGGCCAAATAAGGATGTTCAGGCACAATTCATTAAGTATTTTGTTAATCATGGTTATGAGAATGCTAATTATGGATTAACAAAGGTATTGGTAGCAAATCTTAACAAGGGCACAGATGCAACAGTTCTTAACACGGCAGCACAAAATCTTCGTTACGTAATTGAACAAAGTATTGCTACTAATAAGGGAACGGGTAAGTTAGCAAATGACATTAATGGTTTTGCAGCTACTGTTCCTGAACTATCGGCTTCATCTGAATTATCAGTACAGAGCATACCAAATTATAAGCCTAATGAAAGCGGAACTGTAGATAACGATCAAGTAATCTTCGTTAATGACGCTGATAGTAAGTATCGCTTAATGAACCGTACGATCAATAACCAAACTGGTAATGATAATAGCGATAACAGTCCTGAGTTATTGGTTGGAAATGATATTGATAACTCTAATCCGGTGGTACAAGCTGAGAACCTTAACTGGGAATACTTCTTGTTAAATTATGGTAAGCTGATGGGTTATAACCAAGATGGTAATTTTGACGGTTTCCGGGTTGATGCTGCTGATAATATTGATGCTGATGTGTTCGACCAGATGGGACAATTAATGAATGATATGTACCATATGAAGGGTAACCCGCAAAATGCTAATAATCACTTAAGCTATAACGAAGGATACCATTCAGGTGCTGCCCGGATGTTGAACAAGAAGGGTAATCCACAATTGTACATGGATTCTGGAGAATTCTATACTTTAGAGAATGTCCTCGGACGTGCTAACAATCGTGATAATATTAGTGATTTGGTTACTAATAGTATTGTTAACCGACAAAATGACGTTACGGAAAATGAAGCTACTCCAAACTGGTCATTTGTCACTAACCATGATCAACGCAAGAACTTGATTAATAGGTTAATTATTAAAGACCATCCTGGCATAGCTTACATTATGGGATCAGCATATAAAGCAGAATATGCTAACCAAGCTTGGCAAGAGTTTTATGCTGATCAAAAGAAGACCGATAAGCAGTATGCTCAGTATAACGTTCCAGCACAATATGCAATTCTTCTAAGCAATAAAGATACTGTACCGCAGATTTACTATGGTGATCTTTACAGCGAAACTGCACAATATATGCAGGAAAAGTCGATCTACTATGATGCAATTACGACGTTAATGAAGGCACGGAAACAATTTGTTAGCGGCGGACAAACAATGACCAAGCTTAGCGATAACTTAATTGCAAGCGTTCGTTACGGTAAGGGCGTTGCTAATGCTAATAGTGAGGGTACTGATAGTTTGAGTCGAACGAGTGGAATGGCAGTTATCGTTGGTAACAATCCACAAATGGCAGAGCAAACAATTTCTATTAATATGGGTCGTGCCCATGCTAATGAGCAGTATCGTAACTTGCTTGACACAACGGATAATGGTTTAACATATAATGCTGATGGTGCTGAAAATCCAGAGACCTTAACAACTGATGATAATGGTATTTTGAAGGTTAATGTTAAGGGATACAGCAATCCTTATGTAAGTGGATATCTTGGTGTGTGGGTCCCAGTTGTTTCTGGAAATCAGGATGTTACTACTAATGCCGCCACTGTTTCAGCAGATAGTAATAAGATCTTCGAATCTAATGCTGCACTTGATTCTCATATGATCTATGAAGACTTTAGTTTGTATCAACCTGAACCAACAAGTACAGAGAATCATGCATATAATATTATTGCCCAAAACGCTGCGCTCTTTAACAACCTGGGAATCACTGACTTCTGGATGGCCCCTGCTTACACACCGTTTAGTATGAGTCGCTATAACGAAGGTTATTCTATGACTGATCGCTATAACCTAGGGACTAATGCTAATCCAACCAAGTATGGAAGTGATGAAGAATTAGCAAACGCGATTGCCGCTTTGCATAGCGCTGGCTTAAAGGTTCAGGAAGATATTGTTATGAACCAGATGATTGGCTTTTCCGGTCAAGAAGCAGTAACGGTTACCAGAACTAACAATCGTGGAATTCAGATTTACGTCAATGGTAAGACATATGCTAATCAAATCTACTTTGCATACACAACCGGTGGTGGAAACGGACAGGAAACTTATGGTGGTAAGTATCTGTCAGAGTTACAGTCCAAGTATCCTGACTTGTTCACCACAAGGGCCATTTCTACCGGCGTAGCTCCTGATCCAACAACGCGGATTACGCAGTGGTCTGCAAAGTATCAAAACGGTACATCACTTCAAAATATTGGAATTGGTTTAGCTGTGAAATTACCTAATGGCGATTACGCTTACCTGAATGGTGGTAATAACGATAAGTTTAAGACGATCCTTCCAGAACAGATGGGATCGATTGGTTACTATGTTCAACAGGAATTAAAAAATAAGACTTTCCTGCCAAGGCAATCGTACGGACGATCGAGCAGGCGCCAAAAACTGCGAAAGCAAAGAAATCTGGTAAAAGCACGATTAAAGTCGACGCCTGCAGCGGTTATCTCAATTTCCCGACTTTAA
>LACTIS1119B1_04760 transposase
ATGTTGAACCAATTACAGACTAAACCTTATAGTCACCGTTTGCAAGTAGAGTTTAGAACTTTGTCGAAAATCTGCAAGAAACTTTATTACAAGTACGCCCCATCTCGGTTAACTCACCGCCGCAATGCCAGTCTGGTAAAGGTTCCAGACTACGAGATCATTGCATTACTTGTCTGGAAAGCTGAGGAAGGTATATCTTCTCAGCGCAGATTTGCCCGTTGCTGGGGACTTTGTGGTCTTTCTAGGTCTCGTTTTAATCGCAGGGCTAGAGTGCTTCTTGGCATCACTGCTCAGATCGTCAACGATCTGAACTCAAGAGTCGATCTGTCCGATCAGTATATGATCATTGACAGTCTACCCATACCTTTGTGTCAGCCAATCAGAAACCGCAGAGCTAAGGTATTTGAAGGAACAGCCAACATTGGCTATAACTCAACCAAAAAGTTTTACTACTACGGTTTTAAAGGCCATTTTGCCGTATCTCAAGACGGGTATGTTCTTGGCTATATAATCGCCAAGGCATCAATCCACGATGCAAAAGAAGCAGAAGAGCTGATTCTCAGTATCTGTCCCGAAGGGCACTTTATCTTAGGCGATGAAGGTTATATAGGCAAACGACTGCATGATGCCCTCAAGATAGACGGTTATATACTGTGGACACCTTATCGGAAAAATATGAAGGGTGCTAAGCAGCATAACAAAAGAGAGCTAATGGCAATTCGCAGAACAATCGAGAGTGTGTTTTCAGTACTAAAGTACTACGGAATTGAAAATATACTTGCAAGAAATGTAGATGGTTTCCAACAAACTGTCGAGATAATTGTATTAACTTACAATATCAGCTACATCCTACAGAGATATGGATTCAGCTTCTTCAACTAG
>LACTIS1119B1_04770 hypothetical protein
TTGTATAGAATTGAATTGCTGATTGTTGCGGTTTTGCAGGACGACATCTATAACGCAACCAGCTATACCAGCCATGATGAAGCCGTAACTGACCGAGGGACCGGCACTCACTACGCTTTAGCCAGTGAGCTTTACCGGGAATTAACCGACAAGAGCCAGCAGAGCTTGACTGACGATGACAAGATTTATGTCCTTGATCAAGAGCTACTAATTAGTAACAAGTAA
>LACTIS1119B1_04780 hypothetical protein
ATGAAAAAGTCAAAGTATCTTACCCTGCTTTCAGTGGCAGCTTTGACCCTGCTGACCAGTGGCCTGGGCAGCCAAGCAGTCTTGGCTGACACGGACACGGCGCAGACGGCAGAGACGACGACCAATACGTCAACCAACACAACGGATACGTCAGAAACGTCAACTGCTTTAAACCAGCAGGAAGCCAAAGGGAAGAAGCTGACCACGCCTGTGGGCACTCTGCCGAATGCTTCTGACGCCATCAGCAACAAGGATGATTTAAAGAACGTCCAGGGTTACAGCTGGAAGACCACGCCAGACGTGTCAGCTGCCGGCAGCCAGAAGGCAACGGTAGTCATCACTTATACTGACGGGACGACCAGCGAAGTTGAAGTCGACCTGGAAGTAGTAACCAGTTATGCCAGCCAGAACAGCCCTGTAGCCAAGACCGGCTTGACGGTCAAGGTGGGCAAGAGCCTGACGGCCAGCTCAGCCATCAGCAACCTTTCCAGCCTTAAGAACGTGGCCAGCGTGACCTGGAAGCAGGCACCAAGCACGGCCAAGGCCGGCACGGTCAAGGGGACTGTTTTAGTAACCTACACTGACAAGTCTACTGACACGGTTGATGTTACGGTTAAAGTGTCTTCAGTCGTGACGACCAAGAAGTCGGTCAAGAAGAGCAAGAAGAAGCAATACACTACCAAGACCCGGAAGATAATCCTGGACCGGCCGGGCAAGAACAAGACCATCACCCAAAAGGTTAAGCTGTCCAGAACGGTAACGACCACCACCACGACGACTAAAACCTATACTGATGGCAAATTAACCAAGACTTCCAAGAAGGCGAAGAAGAGCTATGGCAAGTGGTCAAAAGGGACCTGGAAGAGTTATAATGTTCCTGCAATAAGCGGCTACAAGCGTAGCACGACTAAAGTTAAGGCCAAGACGGTGACCAGCAAGACCAAGAATGTTACCGTCAAGGTCAGCTACAAGCGGGTTCTGCATAAGCCAGCCAACGCTCCTTACTATGACCCAGCCGACATGCGGCCCAAGACTGGAGCTTACTACTTCCAGTCAAGTGAGAAGCGGGCTTACCCGAACCTGGCCAAGTATAAGAATGTCTGGATCCGGGTTTCCATCCTGGGCAACCGGGTTTACGTCATGAGCGGCAAGAAGGTCATCTACACTATGTACTCTTCAGCCGGCCGTTTTGAAATGACTAACGGCAAGTACCAAAGCGACACGCCGCGTGGCACCTTCTACTTGAAGGCCGCTTATGGCCCGTCCTTCATGTCTTCAGACGGCGTAGGGGCCCGTTACTACATGGCTTACTACGGCAGTGACTACTTGTTCCACAGCGTGCCAATCAACAACTATGGCTCTGGCGTCTACTACAAGGGCTACCACTACGGCTACGGCGGCGTCGGCAGCACGGCCCACCTGACTGTGCAAGGGACCAAGCCAGACTCTCACGGCTGCATCCGGCTGACGCTGAGTGACGCCCGCTGGCTGTACGGTCAACGGACTTCAGGCAAGCTAAAGGTGGGTACCAAGGTCGTTATCAAGTACAAGTAG
>LACTIS1119B1_04790 carbohydrate kinase
ATGAAAAGCATTGATGAAGATTTAGCCCGGCAGGTGGTCCGCTCCCGGCCGGCTGAAAGCCACAAGGGCAATTACGGCCGGGTTCTGCTAATTGGCGGAAATCACCAGTATGGCGGAGCCATCAGTATGGCTGCCGAAGCTGCGGTTTACTCCGGGGCGGGTCTGACAACGGTAGCGACCGACCCGGTCAATTTTGCCGCCCTCCACGCCCGCCTGCCAGAAGCAGCCGTGCTTGACTACAATTTAGATCTGGCTAAGCAGATTTCCCGGTCTAATGTAATTTTGTGCGGGCCTGGCCTGGGCCTGGGGGAAAAAGCCTGGGAAATTTTAGAAGCAGTCTGCCAGCATGTAGGTTCTGACCAGACTATTATTTTTGACGCCAGCGCTTTAGACTTGCTCAGCCAAAAGCCTGACCTGCTGAGAAATCTCCAGGCCAGCCTGGTCATTCTGACTCCCCACCAGATGGAGTGGCAGAGGCTGAGCGGGATCAAGATTGCTGACCAGGAAGACCAGGCCAACCAAGAGGCTCTTTCGCGTTTGTTCTCTGGCAAAATGAAAAATGTTATACTAGTCTTGAAGGCACATCGAACGCGAGTATATGCTTTTACAGGTGAAATCTACCGCAATTCAGCCGGCAACCCCGGAATGGCTACGGGCGGAATGGGCGATACTTTAGCTGGAATTATTGCCGCTTTTCTTGGCCAGTTTGGCCCCAAGCTGACCAGCGTTTTAGCAGCAGTTTACTGCCACTCAAGGGCAGGGGACGACCTTTATCAGTCCTCCTACCTAGTGCGGCCAACGCAAATTTCAGCTTATATGCCGCGCTTGATGAAGCGCCTGAGCACCTGTTAG
>LACTIS1119B1_04800 D-alanyl-D-alanine carboxypeptidase
TTGTTAAAAAAGATCAAAAAGGCGCTGCTGAGTCTGGCAGCCAGTGGATTATTACTGACCGGAATAAGTACTTGGCAGGCCGCGCCGGTTGCGGCGGCAACCGCTAACTACCAGCAGCAGGACCTGAACCTGGACGTCAAGGCCGCGATTGCCGTTGATGCCGATAGCGGGCAGATCCTTTATGCCAAGAATGCCACGACCCCGCGGCAGATTGCTTCCATGACCAAGCTGGTGACGGTTTACCTGACCCTGCAGGCCATCAAGCAGGGCAAGCTGTCCTGGACCAGCACGTCTAAACCGACGGCCGCGATTGCCAAGATCAGCCAGAACACTGAGTATTCCAATGTGCCATTAACTAGCAGCCGTGCTTACACGATCAAGGATCTTTACCGGGCCACTCTGATCGAATCCGCTAACGGGGCAGCCATGACCCTGGCCCAGGCTGTCAGCGGCGACCAGGTAACTTTTGTTAAAAAGATGCGGAAGCTTTTGACCAGCTGGGGGATTAAGGACGCCAAGATCTACAACGCCTGCGGCTTGGCTAATGGCAACCTTGGCTCAGCCGCTTACCCGGGCGTGGGCAAGGACGTTGAAAACGAGATGTCAGCTACTGATATGGCCATCGTCTGCCAGAAGCTCTTAAAGGACTTCCCGGAAGTCTTGCAGACGACTTCAATTACCAGCGCTACCTTCTCATCCGGTTCAACGCAAAGCCAGATGACCAACTGGAACTGGATGCTGAAGGGGCTGAGCAGCTACTACTCTGACCTGCCAGTTGACGGTTTGAAGACCGGGACGACTGATAAGGCCGGTGCCTGCTTCGCCGGGACTGTGAAGAAAAACGGCCACCGGATCATCACTGTGGTTTTGGGCGCCAAGCACGCAAACAGCCAGGACCCGTCCCGTTTCGTGCAGACGGCCAAATTGATGCACTATGTCTACCAAAACTACACGGCCGTAACCTTGAAGAAGGGGTCCAGCATCAGCGGGGCCAACACGGTCAAGGTGCCAGAAGGCAAGGAAACCAGCAGCAAGGTTGTTTTGGACAAGACGGTGACTATCTGGGCCAAGCAGGGCAGCAAGCTGCAGACTTCTTTATCCAAGACTACTGTTTCTGCCCCTGTAAAGAAGGGGAGCAAGGTGGCCAGCTATAAGTTCTCAGCAACTAGCGGTAAATTGCCATCTCTTAGCGGCAAGACGGTGACTGCCCCAGCTGTGGCAACTCAGGACAACCAGGAGGCCAACTTCTTCGTCCGTTTGTGGCGGAGCATCTTTGGCAGCAAGTAA
>LACTIS1119B1_04810 putative membrane protein
ATGGCACAACAATACTACTCAATGGATCAAATCGCAAAATTGGCACAGATTTCCCAGCAGCAGGTCTACTACCTGATCAACATGAAGTTCAAGTTCAAACCGACCTTGACTGATCCCAGCGGCAATAAATTTTATGATGAGCGAGCGGTGGGGCAGATTTTCCAAGAACTGGGCAAGGTCCTGCCCAAGTCGGCAGCTTCGCCGGCAACCGACAATGGCCTGCTGGACATCAATGCCCTGGCGGAAACTACTGGCCTGGGCAAGAAGAAGCTGCGGATTTTTTTGCGGGAACACAAGGACTTGAAGCCAGACTTTGTTGATAAAAAGAACCACAACAAGAAATACTGGGGTCCGAGCGCCATCCAGTACATCAATGACCACTTCGGAGCAGAAGAAGCAAAGGCAGAAGAAAAGACCACGCAAGCAGAAGAAAAGACTACCGAAGTTGAAGGCAAAGCAGAAGCTGCAGAAGTTGTAGAAGCAGCAAAGACGGAAGAAAAGCAAGAACAAGCAAGCCAAGTAGAGGATGAAAACAAAGAAGAGACTACTGCAGAGGAAGAAGTCAAAGAAGAAGATAAGCCAGCTGGCCCGCGCTTTATCAAGAAGGCGCCGCGCCCGGCAACGGAAAAGTTGGCTGAACACCCGCAAGTTGAATTGCCTTTTGCCTTTGATGACAGCGAGGAAGCCGAAAACAAGGCTGAGGAGGCTGACAAGCCAGGCCGCGGGTCAGAAGAAGTCAAGGAAGAAGCAAAGCCAGCGGAAAAAGCCGAAAAGAGCCATGAGCCGGCCAATGACCAGCAATTTGTTGTTAGAAAGCGCACTAACGACGACAAGCGGGGCCGGGGCAATTACGGCAAGCGCAGAAACAACCAGAGAAACGGCTACCAAAACCAGAACCGGACCAACAATTACTCTAAGCTGCGGGAACTTTTTGCCGGCAAGATGAAGCTGGTTACGGAAAAGGGGACTTTCTACACTGACCAGTTTGCCAGCCTGGAAGAACTGGCTGAATACGTCTTTTCATCCAAGGACGGCTTCATGAAGGTCGAGAAGTACAACCGGGGTGAATTTTCACCAGCCTACATCTCAACCAAGATCATCATCGAATTTGAAGAAGTTTAA
>LACTIS1119B1_04820 phosphoenolpyruvate synthase
ATGGAAATTAACGACAAGAAGGAATTGACTGAAGAAGAACGCAAAAATGCATACGTTCTTTGGTTTAACCAACTGCGCCGCGCTGACGTGGCCTTGGTTGGGGGCAAATCAGCATCATTGGGTGAATTGACTTCAGGTACTGACGTGCCAGTGCCTTATGGTTTCGCAACGACCGCACACGGCTACCGGCACTTCATGGAAGTCAATGGCTTGAACGAGAAGGTAAATGCCTTGCTGGCAACTTTGAAGGACCCGGAAGACTCAGAAGAACTGCACCGGGTCTGCAGCCAGATCAGAAAGATCATGCGCGAGGCACCAATGCCGGAAGACTTAGCCGAAGACATCGGCAACTCATATGACGAACTGGCCAAGATGACCGGACAAAACGAACCATACGTTGCCGTACGTTCAAGTGCTACGGCTGAAGACCTGCCAGACGCTTCATTCGCCGGGGAACAAGACACTTACCTTAACGTTAGAGGCCGCAAGGACGTTATCCGCAAGGTCCAAGACTGCTACGCTTCCCTGTTTACTGACCGGGCAACCTACTACCGGATCAAGCAGAAGTTCCCGCAAGAGAAGGTGGCTCTGTCAGCCGCTGTCCAAATGATGGCCTTCTCCAAGTCAGCCGGGGTTATGTTCACGGTCAACGTTGCCAACGGTGATGATACCAAGGTTATGATCGAAGGTTCATGGGGCTTGGGTGAATACATCGTCCAAGGGACGGTTACCCCGGACAACTTCGAAGTTGACAAGGAAAGCATGCAGATCGTAAGCAAGACCATCAACAACAAGAACATTGAATTGATCCGTCTGCCAGGCGGCGGGGTTGAACAAAGAGATGTCCCAGAAGACATGGCCAAGAGTCCATGTTTGACTGATGAAGAAGTTATTGAACTTGCCGGCTACGCTAAACAAATTGAAAAGCACTATGGCTGCTACATGGACATGGAATGGTCCAGAGACCAAGACGACAAGCTCTGGCTCGTTCAAGCCCGGCCAGAAACTGTTTGGTCACAAAGAAAGAAGGAGGGCGGCGCCAAGGAAGTAACTGACGCTAAGGCTCCAAGCTCCAACAAGGTTTTGGTCAAGGGTCTGCCAGCCAGCCCTGGTGTAGCTTCAGGTATCGTGCACGTAATTGACGACCCGAAGGACATCGGTGACTTCAAGGAAGGCGAAATCCTGGTTACCTTGATGACTTCACCAGACTGGGTCCCAGCCATGAAGAAGGCGGCCGCTATTGTTACCAACAACGGTGGGATGACCTGCCACGCCGCTATCGTTTCCCGGGAAATGCAGATCCCATGTATCGTTGGTACTGCCAGCCGGGGGACCTTTGCAACCAGATTGCTGAAGACCGGCCAGGAAGTAACGGTTGACGCAAAGAACGGGGTTGTCTACCAAGGGGTGGCTGACGAAGTCGTTAAGCCAAAGAAGGCTGAGACTGCCCCAATGGCTGCAGCTGAATACTTCCCGCCAACGGCAACCAGAGTCATGATGAACCTGGGTGACCCGGACCTGGCTGAAAAGTACTCAACTTTGCCAGCTGATGGTATCGGTTTGATGCGGGAAGAATTCCTCTGGACCACTTACATCCACCAGCACCCGCTTTATTTGATCGAAACCGGCCACCCAGAACGGGTTGTCAACGAACTGGCTAACGGGATTAGCAAGGTCTGCCGGGCCATGAACCCAAGACCTGTTGTCGTGAGATTCTCTGACTTCAAGTCCAGCGAATACCGGAACTTGAAGGGCGGGGACAAGTACGAACCGCATGAACCAGCTGACCTGCTTGGCTGGCGCGGGGCAAGCCGCTACTACGACCCGAAGTACATCGAAGCCTTCAAGCTGGAACTGGAAGCAGTCAAGAAGGTTAGAAACGAATTCGGCTTGAAGAACCTGAATGTCATGATTCCATTCTGCAGAACTGTTGAAGAAGCAGAAAAGGTAACCAAGATCATGGCTGATGAAGGGCTTGAGCGCAGCCGCGACTTCAAGGTCTTCATTATGGCGGAAATTCCATCCAACATCATTTTGGCTGACAAGTTCAACAAGTACGTTGACGGCTACTCAATCGGGTCAAACGACTTGACCATGCTGATCATGGGGACTGACCGGAACAACGATGCCGTTTCCGCCCTCTACGACGAACGCAACTTGGCTGTTAAGCGGGCAATCCGCCACTTGATCAAGACCGCCCACAAGGATGGCAAGACCGTATCTATCTGCGGGCAGGCACCTTCAGAATACCCAGACTTCACTGAATTCCTGGTTAAGAGCGGGATTGACTACGTTTCCGTAAACCCGGACATGGTTAAGGAAACCAAGCTCAACGTAGCGCACTTTGAACAAAGAATTCTGCTGGACAAGGCTACTGGTCTGGGGATGCAGGATACTGAAGACTACGAATGGTAA
>LACTIS1119B1_04830 polysaccharide transport membrane protein
ATGGCAAAGAACAAATCACAGACCAACTCCCAGGCCCAGTTGTTAAAGGGCTCGGCCTGGATGACTATCGGCTCGATCCTGTCGCGGATTCTCGGGGCGATCTATATTATCCCTTGGTATGCCTGGATGGGAAAGTATGGCAACTTGGCCAACTCTCTGACGGCGAAGAGCTACAACATCTATAGCCTGTTCATTATCATCTCCACCGCGGGCATTCCAGGGGCGATCGCCAAGCAGATCGCCAAGTACAATGCCCTGAATGAGTACGGGGTCGGCCGCAAGCTCTTCAGGCACGGCCTGGCCTTAATGGGGGTCTTCGGGATTATCTCAGCGGCCTGCATGTACTTTTTGGCATTGCCGCTGACTGGCTTTAACCCCCAGGAAGTACCGGTGATCCGGAGCCTGGCTTTGGCCGTTTTGATCATTCCGATCTTGAGCATCCTGCGGGGCTATTTCCAGGGCTTCAACGACATGATGCCCAGTGCCATGTCCCAGTTCGTGGAACAGCTGGCCCGGGTGATCTGGATGCTTTTGACGGCTTATGTGATCATGCGGGTCCAGCACGGCAACTATGTCGACGCGGTAACCCAGTCCAACCTGGCCGCCGCGATCGGGGCCGTGTTCGGTATTGGCCTGCTGGTAATTTTTTACCTTAGGCAGAAGCGGACGGTTGATCCTTTGATTGCCCAGTCCAACAACCAGGTGCAGGTTTCAACCAACAGCCTGCTCTTTGAAATCATCCAGCAGTCGATCCCCTTCATCATCATTGACTCCGGGATCAACATCTTTCAGCTGGTGGACCAGTATACCTTCCACCCGATGATCGCCAGCTTCATGCACGTGCCTTATGACGCGATCGAAATCTGGTATGCCTTGTTCGGTTTGAACGCCAACAAGCTGATCATGATCGTGGTCTCCCTGTCAACGGCCATGGCAGTTACGGCTATTCCGCTCTTGTCAGGGGCCCACGCCAGAAGGGACTACCGGGATATTTCCCGGCAGATCGGCAATACCTTGGAACTTTTCTTGTTCGTCTTATTGCCGGCTTCGCTGGGGATGGCCGCGATCTCAGACCCCTTGTACACCATTTTCTACGGCTATGACCGGCTGGGGGCCCATGTCTTGTACCTGTCCTCCTTTACGGCCATCAGCTTGGGGATGTTTACGGTCCTCATGGCCATCTTGCAGGGTCTGGACGAGAACATGTATGCCATCCGCTACTTGATCTTTGGTTTGGTCATCAAAGCGATCGTCCAGTATCCGATGATCCGCCTTTTCAAGGTCTATGGTCCGCTTTTGGCGACCAACCTTGGCCTTTTGGCGGTCATCGCCATGTCCCTCAAGCACCTTAGCATGAAATACCGCTGGCAGGCTGACCGGATCATGCGGCGCTTTATCGGGATTGCCAGCTTCTCCATAGTGATGTTCGCGGCGGTCTTTGCTGCCGTTAAGCTGGGCGGCCTCTTCCTCAGCCCTTACCGGCGCTTGTCAGCCATGCTACTCAGCGGCTTGGCGGTAGCTGTCGGCGTGCTTGTTTACGGGGTCTTGAGTCTTAAGACCGGCCTGGCTGAAAACATTTTGGGCAGCCGGATGACCCGGATCATGCAAAAGTTCAGATAA
>LACTIS1119B1_04840 leucyl-tRNA synthetase
ATGTACAACCATAAAGTTGTCGAAAAGAAGTGGCAAAAGTACTGGCTGGAAAACAAGACTTTTAAGACCGGGACTGACCCGGAAAAGCCAAAGTACTACGTTCTTGACATGTTCCCTTACCCATCTGGCAAGGGCCTGCACGTTGGTCACCCGGAAGGCTACACCGCTACTGACATCATGGCCAGAATGAAGCGGGCCCAAGGCTACAATGTTTTGCACCCAATGGGCTGGGATGCCTTCGGTCTGCCGGCAGAACAATACGCCCTGCAAACTGGTAACGACCCGGCAACTTTCACCGACAAAAACATTGCCCACTTCAAGAAGCAGCTGCAAGCTTTGGGCTTCTCCTATGACTGGGACCGGGAAATCAAGACTACTGACCCGAACTACTACAAGTGGACCCAGTGGATTTTTGAACAAATGTACAAGATGGGCCTGGCCTATGAAGCTGAAGTACCGGTTAACTGGTCACCAGACCTGGGCACGGTTGTCGCTAACGAAGAAGTTATCGACGGCAAGACTGAACGGGGCGGCTACCCGGTTTACCGGCGCAAGATGCGGCAATGGATGCTGAAGATCACTGCTTATGCTGACCGTTTGCTGGACGACCTGGACGACTTGGACTGGCCAGAACCGATCAAGGAAATGCAAAGAAACTGGATCGGACGCTCAGTCGGGGCCCAGGTAACCTTCAAGATCAAGGACTCAGACAAGAGCTTTGCCGTCTTCACTACCCGGCCGGACACCCTCTTTGGCTGCTCATACACGGTTTTGGCCCCGGAAAACGAACTGGTTAAGGAAATCACCAGTCCAGAGCAAAAGGAAGCCGTTGACGCCTACATCAAGTCCATTGAATCCAAGTCTGACCTGGAAAGAACTGACTTGAACAAGGACAAGACCGGGGTCTTCACTGGTGCTTACGCTATCAACCCGGTTAACGGGGAAGAAGTGCCAGTCTGGATTTCTGACTACGTTTTGGCAACTTACGGGACCGGGGCAGTTATGGCCGTTCCAGCCCATGACGAAAGAGACTACGCTTTTGCCACTAAGTTCAACCTGCCAATCAAGGAAGTCGTTGAAGGCGGCGACATCAGCAAGGAAGCCTTTGTCGGTGACGGGGTCCACGTCAACTCAGACTTTTTGAACGGCCTGCACAATGAAGAAGCCAAGGCCAAGATGGTTGACTGGCTGACTGAAAAGGGCGTCGGCGAAAAGAAGGTCAACTACAAGATGCGGGACTGGAACTTCTCCCGTCAGCGCTACTGGGGTGAACCAATCCCGGTCATCCACTGGGAAGACGGGGAAACCACTTTGGTGCCAGAAGACGAACTGCCGCTGCGCCTGCCTAAGGAAAGCAACATCAAGCCGTCCGGCACTCCGGAAAGCCCGCTGGCCAACTTGACTGACTGGGTCAACGTTGTTGACGAAAACGGCCGGAAGGGCAAGCGGGAAACCAACACCATGCCGCAATGGGCTGGTTCAAGCTGGTACTTCCTACGCTACATTGACCCGCACAACGACAAGGCCCTGGCTGACCCGGAACTCTTGAAGAAGTGGATGCCAGTTGACCTTTACATCGGCGGGGCAGAACACGCGACCCTGCACCTGCTTTACGCTAGATTCTGGCACAAGGTTCTTTACGACTTGGGCGTCGTTCCAACCAAGGAACCGTTCCAAAAGCTCTACAACCAGGGCTTGATCTTGAAGAACCATGAAAAGATGTCCAAGTCCCGGGGCAACGTGGTTAACCCAGACGACGTCATTGACGAATACGGTGCCGACAGCCTGCGGACTTACGAAATGTTCATGGGGCCTTTGAACGCGTCTATTGACTGGGATGACAACGGTCCTTCCGGTGTTAAGAAGTTCCTTGACCGGGTATGGCGGACTTTTGTCAATGACTTAGACCTGGATCCGATCCCATCTGAAAAGATCACTGACAAAAACGACGGCAAGCTGGACAAGATCTACAATGAAACGGTCAAGACTGTTACGGAACACTTTGAAGAACTGCGCTTCAACACGGCTATTTCCCAAATGATGGTCTTCATGAACGCCTGCCAAAAGGTCGACAAGATTCCGCGGGAATACGCTGAAGGCTTCGTGAAGCTGATGGCTCCGGTTGCTCCGCACATGATGGAAGAAATCTGGCATGTCTTCGGCCACGACGAAAGCGTGCAGTTTGCTGCCTGGCCAACTTACGACGCAAGCAAGCTGGTTGAAAGCACGGTTGAAATGGCGGTTACGGTCAACGGCAAGAAGCGGGGCAACTTCCAAATCGCCAAGGACGCAAGCAGAGAAGAAGCCCAAGCTGCCGCAACCGCTCTGCCGCACGTAAAGGAATTTTTGGAAGGCAAGGAGATCAAGAAGGTCATTGTCGTGCCAAACAAGATCGTGAACATTGTTGCCAAATAA
>LACTIS1119B1_04850 membrane-associated phospholipid phosphatase
ATGAAAGGAAATAAAGTTAATTATCAGCCGCTTTTAATTTTTTGCGGTGCCTTCAGCCTCTTTTTTGCTTTTTGGGTTTACCTGATTGCCAGCAAGAATCCCTTTATCAAGACTTTTGATACGGTAGTCTACAATGCAATCAGAAACAACAATCCGGTCGAAAGGCAACTGGCCTTTTACTGGACCCAGCTGGGCAATACCTTGACGATAACAGTCTTTACCGTGGTCCTGGTTCTTTTCCTGGTCTACCAGCGAAACTATATCCACGCAGTTTTTGCCAGTTTAACCATGATCGCGGCAAACGCCTGCAACTCAATTATCAAAAATATCATCCAACGCCAGAGGCCCCGGATGGACAAGGCGGTTCAAGCCGATGGCTTCTCCTTCCCGTCCGGCCACTCGGTCGGTTCCATGACCCTGGCCCTGGTCTTGATCGCCTTGATCGTCGTCTTGGTGAAAAAGAAGCCAGTCAAGACCTGGTTGATCGTCTTCTGCGTCTTCTTCACCCTGTCGATTGGCTTTACCAGAATGTACCTGCACGTCCACTGGCCAAGCGACGTCTTAGGGGGCTGGTGCGAGGGCCTGGCCTTCAGTTCATTGGCTAGCTGTCTCTTTTTCAAGGCCTTGGACAAAAAAATAAACTAA
>LACTIS1119B1_04860 major facilitator superfamily transporter
GTGTCGACCGCGATGCCAACCATTATCGCCGATTTGGACGGGCTGGCAATCATGAGCTGGGTGGTGCCTGTCTTTCTGCTGATGACGGCAGTCTCAACGCCGATTTATGGGAAACTGGCTGATAGCGTAGGACGCAAGCCAGTTTTTTTATTTGGCATTGGACTCTTCGTGATCGGGTCAGCCCTCTGCGGCTTCTCGCACTCGATGGTGGAATTGATCACCTTCCGGGTCTTGCAGGGGCTTGGTTCAGGGGCTATCCAGACAGCCGGGGTGACGGTTTTAGCGGACATGTATGATATTGACAAGCGGGCTAAAATGCTGGGCCTGACTTCGGGCTTCTGGGGCCTGGCTTCGGTTATCGCCCCGCTTTTGGGCGGTTTTATCGTCCAAAAGCTGTCCTGGCACTGGGTCTTTATGATCAATGTGCCGATCGGCTTGCTCGCCTTTTTGCTGGTTGCCTTTTACCTGCATGAAGATTTTGCTAAAAATAAATTACGGATCGACCTCAAGGGCAGCTTTAGCCTGGTTATCTTCCTTTTATCCCTAATGCTGCTTTTACAGGGGCTGGAAAAAGGATTTAACTGGACTCTGCTGCTTTTAGCAGCAATTATGCTGGTCAGCCTCTGGGCCTTTACCAAGGTGGAAAAAACAGCCGCTGACCCGATTATTCCTTTCAGCATCTTAAAAGACAAGGAATTTTTGGCGGTCAACATCTTGCAGCTCTTGGTTTCCGGGGTCGTGATCGGCTTTGAATTCTACATCCCGACCTGGCTGCAGGGGATCAACGGGGTCAGTGCTTCAATCGCCGGCTTCGCCATTACGCCAAGCTCCCTTTTGTGGGTCTGCGGGTCCTTTTTAGCCGGTGACCTTATGGGCCGGTGGGGGACGCAGAAGTACTTTGACGCGTCACTTTTGCTCTTAATTGGGGCAGACCTGGCCTTCATCCTGATTCCGACCTACACGCCATTTTGGGTCTTCTGCCTGATCGCCGTCTTCAACGGGATCGGCTTCGGCAGTATTGCCACGGCCAGCCAGGTCCGGGCCCAGATGGTGGTTGACAAGAGCCAGGTAGGGGTGGCAACTTCCTTTAACACTCTGATGAAGTACTTGGGTCAAACTGTCATGATGGTCTTCTACGGGATGACCTTCAACGTGGTCGTGGCCAGTGGGCTCAAAAAGCAGCCTTCCTTGACCAGCGAGATGATGAACAAGATTGTCTCCCCAGTCCAGGCTAAAAGCCTGGATCCGGCCGTTTTGGCCCCTCTGCGGGAGATCCTGCATTCATCCATGCGGGGGATCTACATCGTTTCTCTGATTGCCTTGCTTTTGTCCTTGGCCTTCAACCATATCTACCGGCAAAAGAAGGATTAG
>LACTIS1119B1_04870 S-adenosylmethionine synthetase
ATGGAAAAGCACTTATTTACGTCAGAATCAGTTTCAGAAGGACACCCGGACAAGGTCGCTGACCAGATCTCCGATGCCATTCTGGACGCGGTACTCGCCCAGGATCCGCAAGCCCACGTGGCCTGTGAGACTTCTGTAACCACAGGTTTGGTCTTGCTCTTCGGGGAAATCTCGACTACGGCTAATGTTGACTACCAGCAGGTCGCGCGCAAGACGATCCGCGAGATCGGCTACAATGACCCAGACCTGGGCTTTGACGCCGACAACTGCGCCGTTTTAGTAGCGCTGGACAAGCAGTCGCCTGATATCGCCGGCGGGGTTGATGAAGCCCTGGAAGTCCGGGGAGAAGACGACAGCGATGAACTCGACCAGATCGGGGCTGGTGACCAGGGGCTCATGTTTGGTTTCGCCATCAACGAAACGCCGGAACTGATGCCTTTGCCGATTTCCCTGGCCCACCGCTTGATGCGCAAAGTGGCCCAGCTGAGAAAAGAGGGGACCTTCCCCTGGCTGCAGCCAGATGCCAAGGCCCAGGTCACGGTGGAATACGATGACGCCGGCAAGCCTAAGCGGGTGGACACGGTCGTTATTTCAACCCAAACCAGCCCTGACGTGACTAATGAAGAGATCCGGGTGGCCATGGTCCACGACGTGATCAAGGAAGTCATTCCAGACAAGTTCTTAGATGACGAGACCAAGTACCTGATTAACCCGTCCGGCCGCTTCGTTATCGGGGGGCCGAAGGGTGACGCCGGTCTGACTGGCCGCAAGATCATCGTCGATACTTACGGCGGCTATGCCCGCCACGGCGGCGGTGCCTTCAGCGGCAAGGACGCCACCAAGGTCGACCGAAGCGCCTCATACGCTGCCCGCTACGTGGCTAAGAACATTGTCGCCGCTGGCCTGGCTGACCGCTGTGAAGTCCAGCTGGCTTACGCCATCGGGGTGGCCCACCCGGTTTCCATCATGATTGATACTGCCGGGACCGGCAAGGTGAGCGACCAGCTTTTGACTGAAGCTGTCCGGGCCAATTTTGACTTGCGCCCAGCCGGGATCATCAAGATGCTGGACCTGCGCCGGCCAATCTACAAGCAGACCGCTGCATATGGCCACTTTGGCCGCACTGACGTCGACCTGCCTTGGGAAAAGACCGACAAGGCGGAAGCCCTCCAGGCTTTTGTTAATGGCCGCAAGTAA
>LACTIS1119B1_04880 thioredoxin reductase
GTGATTGGCGCTGGACCAGTCGGCCTCTTCGCGGCCTACTTCGCCCGCCTGCATGGCTTAAAGACGGTTATCCTTGAATCCTTGAACGAGCCTGGCGGACAGCCGGAAATGCTCTACCCCTTCAAGAAGATCCTGGACATCCCTGTCTTCAATGAAATCACCGCGGCTGACTTAACCAAGCGCCTCTTAGCCAACTTAACCGACCAGGACCTGGTCACTGGCCACAAGGTCAGCCAGCTGGAGAAAACTGACGAACTTGTGATCGATGGCGAATACCAGGTCCGCAGCATTATCGTCGCAACTGGCAACGGGGCCTTTAAGGCCAAAAAGTTCCCCCTCAAGGCGACCCCGGAAGCTGAAGACCACATCCACTACTTTTTCAAAAATCCTGACCTCTTTGCTGGTCAGAAGATCGGCATCTTTGGCGGCGGAGACACGGCCTTAGACTGGGCCCAGGAACTTTCCCAAATCGCTGACGTCACCCTCGTTCACCGGCGCGACCAGTTCCGGGGCATGGAAAGCAGCGTGGAAAACTTGAAGGCTGACCAAAAGGTGACCTTGAAGACCCCCTACCTGCCAAAGAGCATGCAGGTCGAAAAGGGCCAGCTAGAAATTTCTTTGAAAAAGGTTGGCGGAGATGAAGTCACTCAAGAAACTTTTGACCAGATCCTGGTCGCCTACGGCTTCCGGGCCGACAACCGCTTCATCAGCAAGTGGGGGGTTGACCTGGACCAGGGCTTGATCACCGTTGACCGGTCCATGCAGACCAGCGTGCCTGGCATCTATGCCATTGGCGACTCCTGCGGCTACCCGGGCCGGGTGCCAGTTATCGGAATTGGGTTTGGGGAAGCCCAGATCGCGGTCAACGCGATTATACAGGACCTATTCCCGGAAAAGAGCCTGACCATCCACTCAACCAGTATCTAG
>LACTIS1119B1_04890 DedA family protein
ATGCCACTGATTGACTTTATCCTGCACATCGATGACCACTTGGTGACCATCGTCAACAACTTTGGGGCAGGAACCTATTGGATCATTTTTGCCATCATCTTTATCGAAACCGGTTTGGTCATCTTCCCCTTCCTGCCAGGTGACTCCTTGATCTTCGCGGCAGCCGCCATGGCCGCCAACCCGAAATACGGTTTAAATGTCTGGCTGCTCTACATCGTTGCTGGCGCTGCCGCCATTATCGGTGACAGCATCAACTATGAAATCGGCAAGTGGTCAGTCACTTCCGGGGCCAAGCACAGCTGGTTCAACAAGCTGATCAATGAAAACAACCGGCTGGCAGCGGAGAAGTTCTTTGAAAGACATGGCTCCATCACCATCGTGATCGGCCGTTTCATCCCCTTCATCCGGACCTTCGTGCCTTTCATTTCCGGGGGCAGCAAGATGCACTACCAGACCTTCGTTATTTACAACATCCTGGGTGGCCTGCTCTGGACGGCCCTCTTTACCAGCATCGGCTACTTCTTCGGCAACTTCCCAGTCGTCAAGGACCACTTCTCCTTGATCGTGATCGGCATCATCCTGGTTTCAGTCGTGCCAATCCTGGTCGTGGCCTTGAAGAAAAAGCTCACCATGCGGCGCGAGCAGGAATTTGGCGAATAA
>LACTIS1119B1_04900 membrane protein
ATGAAAAAATTCCTAAGCAAGCTGGGCCAGCCCCTTTTCCATTTCTTTTTCGCGGTCTCCAGCGCTGTCGTTGGCGCGATCGTAGTCAGCTGGCCCTTGCTTTTGCTTTTTACCTTGCTGGAGAAGACTTACCAAACGGTTAACTTGACCGTGGGCCAGGTCATGAGCAACTATAACCAGCTCCTGCTTTACCTGGTTTGGCCTGGGCAGACCAAGCTGCAGATGAGCAACCTGCCGACTTCGGCTTCAGCGGCTGCTCACTTTGCCGATGCCAAAAATCTTTTTATTCTGGCCGAGCTGGTTTTCCTGCTCTGCCTGGCTCTCAGCAGCTATTTCCGCAATTACAAGAAGCCGCTTAAATTGACCCAGACCCAGGCCTTGCTCTTGATGCTGCTGCCAATTGTGGTCATGCCTTTTGCCTTGACCGACTTTGACAGTTTCTTCCGGGTCTTTCATACTTTCTTTTTCCGCAATGATAACTGGCTCTTTGACCCGGCGACTGACCCGGTCATCAACGTGCTGACGGAAGGCTTCTTTGCCTCCTGCTTTGCGGTTGGCGGAGCGATTTACGAGCTCTACCTGGCCCGCTTTTTGCTGAAAAAGTAA
>LACTIS1119B1_04910 HAD family hydrolase
GTGAAAGATTACCGCTTATTTTTGATTGATTTGGACGGGACCATTTACCGGGGCAAGGAGACCATTGAATCCGGCGTCCGCTTTGTCAAGCGCCTGGATGAGGCAGGTCTTGATTACTTATTTTTGACCAACAACACGACCCGGACGCCCCAGATGGTAGCTGACAAACTGGCCGGGCACGGAGTCAAGACCGACGTTTCCAAGATCTACACGCCCAGCATGGCCACGGCCAGCTATATTTTGGAAAAAGATGCGAAAAGGCCAATTGGCGTCTACATCATTGGCCAAATTGGCCTGTGGAAGGAGATCCTGGACCGGCTGGAATTCTATTATGACGAGGAAAATCCTGACTACGTGATCGTGGGGATGGACACGGACTTGACCTACCACAAGCTCATGGTTGCCACCCGCTGCATTCACCGGGGAGCGGTCTTTATCGGCACCAATTCCGACCAGAACCTGCCGGTGGGCAAGGAGCTGCGGCCAGGCAACGGTTCAATTTGCGCGGCTCTGGAAGTCGCGTCCGGGCAAAAGCCCCTTTTTATTGGCAAGCCGGAAGCCATTATTGTCAACCGCGCCCTGGACTTGGCTGGGGTCAGGGCGGAAGAGGCCTTGATTGTCGGGGACAATTACCCAACTGACATTATGGCCGGAATCAACAGCGGAGTCGACACCCTCTTGACCTTGACCGGGGTGACGCAAAAGGCAGACCTGGCCGGTCTCACTCCGCCGACTTATTTAGTGAACGATTTGGATGAATTTAGCCTATGA
>LACTIS1119B1_04920 transcriptional regulator
TTGAGGAAAGAGCAGAAAGAGCCGAAAAAAGAGCAGAAAACAGAGGCAGCTGAAGCTAAGCCCCTCCACCCCCTGGCAGAGGTGGTGGTTGCCGGTGAAAAGGTCGTGATCAATCAGCGGGAATACCGCCTTTTGGTCAACCAGCGGGATGCTTTAGACCGGGAAGTTTTGAAGCAAAAGTACGATCCATACCTGGACCAGTATGATTATCTGGTCGGGGATGTATCCAGCGACCACCTCCGCCTCAGGGGCTTTTACAATGACTATGTCAAGACATCCATTGACCGAAAAAAGTCGACGATTGTTGACTACTTGACTGAATACTGCAACCCTGGCGCGCCTTACTTTATCTTGGAATCCCTCCAGCCCAGCCGTAAGCCCTGGCCGACCCAGCGCCGGCGGCCAGCCAGAAAGCGGCCGAAGAACAAGGCGGCTTTTAGCGAAAGAAAGGTCAAGGACGGCCGGCCCAAGAAGGGCAGCTATGCTGAAAGCTGCAAGAAGAACCGCCGCCACCAGGCCTTTGTGATTAGAAAGAAGAAGCCGTGA
>LACTIS1119B1_04930 5'-nucleotidase
ATGGAAACTTTGCGGATTCTGCATACCAACGACTTGCACTCGCACTTTGAGCATTTTCCAAAAATCAGACGCTATTTGAAGCAGGTGCAAGAAACGGCGGCTGCCGACCAGGTTTTGACTTTTGACGCCGGCGACTTCATGGACCGGTCCCATCCCTTGTCTGATGCTACAGAGGGCCGGGCCAACATCCGCTTGATGAATGACTTTCACTATGACGCCATCACGATCGGCAACAATGAGGGGATTTCCAACCCGCATGCTGTCTTGGAGCGGCTTTTTGACCATGCCAACTTCCCGGTCCTCTTGTCAAATCTCAGAGAAGAAGACGAAAGCTGGCCGGCCTGGGCTAATGACTACAAGATCATCAAGACCAAAAAGGGCACCCGCCTGGCCTTGGTGGGTCTGACGGCCGCTTATCCAATGACATACGGTCCCAACCACTGGCAGATCAAGATGCTGGGCGAAACTATGGACCGGGTCCTGCCGGAAATTGCCGGCCAGTATGACTGCTTGATTTTGCTGACTCACGTGGGCCTCAGAATGGATCAGTGGCTGGCCAAGCACTACCCGGAAATCGACCTGATCGTGGGCGGACACAGCCACACCCTTTTGGAAAAAGGGGTCAAGGAAGGCCGCACCTGGATCACCCAGACGGGCAAGTGGGGCAATTATGTCGGCGACATTAGCCTGGAAATCGGCGATGACCACAAGATCATTTCGATTAAACCAACTACCGTGCCGGTAGCTGATTTGCCAAGCCAGGCGGGCGATGAAGCAGAAATTGCCGCCTTATATGAAGAGGGGAAGAAGATGCTGCAGAGCCGGCAGGTGGCGGACTTGCCAGAGAAGTTCAAGGATGACAAGCTGGCCGCGATCGACGTCTCCCTGGAAGCGATCGCTGACTTTGCCGGTACTGACCTGGCCATGCTGAGCACCGGCCTCTTTTTGACACCATTTAAGAGCGGCCTCATCAACCAGTTTGACCTTCAGCATGCCCTGCCGCACCCGATGCATGTCGTCCGGACTACCCTTTTAGGCCGGGACTTGTGGCGGCTGGTCATGGAAGTGGAAAAGAACCGGCACTTTTTGGAACATTATCCTCTGGTGGGGATGGGCTTTAGAGGGAAGATTTTTGGCCAGGTCTACTACAGAGGGATCAAGTATGACCCAATGACCAGGAACGTTTTCGTCAACGGGCAATTGCTGGACCCGGCGGAAGAATACCGGATCGCCGTTTTGGACCACTATGTCCTGATCCCGTTTTTCCCGACTTTGGCCATTGTCGGTGAAAATGAATTCCTCTTCCCGCAGTTTTTAAGGGAAGTCGTAGGCGACTACTTAGGCCGCAAGTATCCTGTGAAAAAAGAAGGTGAATTTATTGAGGAAAGAGCAGAAAGAGCCGAAAAAAGAGCAGAAAACAGAGGCAGCTGA
>LACTIS1119B1_04940 hypothetical protein
ATGGATCACTTATACGAGCAATTCGACTTGATCGAAGAGATTACCAGAAACGACGGCAGTCAGTACTATGAAATTTCCAACATCGACCAAAACGGTTTCGCGGAACTGGCGGCCAACAACGGTTTAATCAAGAGCGTGCGGATTCTGGTCATCAACATCCCGCGCACCAAGGCGCTGGAAACTTACGAGCAGTACATTAACAAGACCTACCAGCTGCATACTTTGATGAACGAAGAAGACTGGGAGAACCCGCAATGGGTGGAATGGGACAAGCCTAAAGGCCCGGTCAGGGATGCTTACGAAATGGTTTTGAAAGCCAACAAGATCGGCTAG
>LACTIS1119B1_04950 catabolite control protein A
ATGAATAAGCAAGATGTAACCATTTACGATGTTGCTCGGGAAGCCAAGGTTTCTATGGCCACGGTTTCCCGGGTAGTCAACGGCAACAACAATGTCCGCAAGGAAACCCGTGACCGGGTCATGGAAGTTATCAAGCGTCTGCACTACCAACCAAACGCGGTAGCGCAGGGTCTGGCCTCAAAGCGGACCACAACAGTCGGCTTGATCGTGCCGGACCTGACCAACTTGTACTTTGCCGAATTGTCAAAGGGGATCGACGACATTGCTGTTTTGTACAAGTACAATATCATCATCTCCAGCGTGGAAAACCGTTTGATGAAGGAAGACGCCGTCATTCAAGGCTTGCTCAACAAGCAGGTTGACGGGGTTATTTACATGTCCAACAAGCTGTCTGAAGAAGCATCGGAAGCATTCAAGCGGACCGACACGCCAGTCGTTTTGGCCGGGACTGTTTCCGACAACCTGGAATTCCCTTCAGTCAACATCGACTACAAGAAGGCCGACACGGAAGCTTTGAACCTGCTTTTGAACGACGGCAAGAAGAAGCTGGCCTTGATCGTGGGCGACAAGGAAGCTTCGATCAACCGGAACTACCGGATTCCGGCCTTTGAGAAGTTCGTGGCTGACAATGAACTGGAAGGCTGCGAGATTTTTGACAACATCAAGGACTACTCTGACGGCTACAACCTTTACCCGGAACTGGCCAAGAAGGGGATCAACGGGGCCATCATCACCAAGGACGTTTCCTCAGTCGGCCTCCTCAACTCAGCTCTGGATCGCGGGGCTAAGGTGCCGGAAGATTTCGAAATCATTACGGCCAGCGCGACCCAGATCGCCTCAGTTGTCCGGCCAGCCTTGACCACGATCAAGCAGCCTCTCTACGACTTGGGTGCCGTGGCCATGAGAATGCTGACCAAGCTGATGAACGATGAAAGCCTGGAAGACAAGCACATCGTTTTGCCATATGAACTGATCAAGAAGCAAAGTACCTTGAACAAGTAA
>LACTIS1119B1_04960 proline dipeptidase
ATGAATTTAGACAAATTACAAAACTGGCTGCAGGAAAACGGGATGGACGTAGCCTACGTTTCCAGCCCGACTACCATCAACTATTTCACGGGTTTCGTTACCGATCCTGAAGAAAGAATCTTTAAGCTTTTCGCCTTCAAGGACGCTGAACCCTTCCTCTTCTGCCCGGCCTTGAACTATGAAGAAGCCAAGGCATCAGCTTGGGACGGGGACGTGGTCGGCTACCTGGACAGCGAAGACCCATGGAGCAAGATCGCTGAAGAAATCAAGAAGCGGACCAAGGACTACCAAAACTGGGCTGTCGAAAAGAACGGCTTGACGGTTGCCCACTACCAGGCCCTGCACGCTCAATTCCCAGACTCCGACTTCTCCAAGGACTTGTCTGACTTCATCGCCCACATCCGCCTCTTCAAGACGGAAAGCGAACTGGTCAAGCTGCGCAAGGCCGGGGAAGAAGCTGACTTTGCCTTCCAGATTGGCTTTGAAGCCCTAAGAAACGGGGTTACCGAACGGGCCGTGGTCAGCCAGATTGAATACCAATTGAAGCTGCAAAAGGGCGTGATGCAGACCAGCTTTGACACCATCGTCCAGGCCGGCAAGAACGCGGCCAACCCGCACCAAGGCCCAAGCATGAACACGGTACAGCCAAATGAACTGGTACTTTTTGACTTAGGGACCATGCACGAAGGCTACGCTTCTGACTCCAGCCGGACGGTCGCTTACGGGGAACCGACTGACAAGATGCGGGAAATCTACGAAGTCAACCGGACTGCCCAGCAAGCAGCCATAGACGCGGCTAAGCCAGGTATGACGGCCAGCGAACTTGACGGGGTAGCCCGCAAGATCATCACTGACGCCGGCTATGGTGAATACTTCATCCACCGCCTGGGCCACGGGATCGGGATGGAAGTCCACGAATTCCCATCAATCGCTAACGGTAACGACGTCGTTTTGGAAGAAGGCATGTGCTTCTCCATTGAACCCGGGATCTACATCCCAGGCTTTGCCGGTGTCCGGATCGAAGACTGCGGGGTCCTCACCAAGGATGGCTTCAAGCCATTCACCCACACTAGCAAGGAATTGAAGGTTCTGCCAGTTAAGGAATAA
>LACTIS1119B1_04970 hypothetical protein
ATGTATTTTTCCTTCAGAAAATCAGATAATCCTTTTGTTTTGAAGCTGAGAAAATATCGGGGAATAATCTTGACTATCCTGCCTGCCGCGTTTTTTGCCATTTTTGTCATGAAGGAAGGCTATCATGATTTTCAGAATGTCTTCTTGCTATTGACTTTAATTGGCGTCTACTACTTGATTCGCGACCTGCGCAAGGCATAA
>LACTIS1119B1_04980 hypothetical protein
ATGAGCAAATTTGGTAGCTTTTTATTAGGGGCCGTCTTTGGGGTTGCTGCTGGGGTTGCAGCTGCCAGCCTGATCTCAGACGACAAGCTTAAAGAAGTCAAGGACAAGATCAAGAGCAATCCAAACGTTGAAGACTTGAAGGAAAAGTACGACAACGGGACAGAAATCTTGAAAAACCAACTGGCTTCTTTCCCAAAGAACATTGAAGATGATTCTGAATTGAAGGACTTCGACGACATCGTAATCGACGATTCAGCTAACGGCGCCGGCGAACAAGACGCCAGAGACCTGGACAATGCTGAAAAGAGCGAAGAAGGGGAAGAGAGGCCGGAAGAACCAAGCACGCCGACTAGTCCAGATCAAGAATAG
>LACTIS1119B1_04990 chemotaxis protein
ATGACAATTTCATTTGGCGCTTTAGCCGGTTTGATCGCGGTCATTGCCTTTTTGGTACTGGTCCTGTTCACGATTCCCATGTTGCTTAATGTTTCGAAGACTTTGAAAGAGGCTGAGAAGACAGTCCAATTGACCAATGAATCTATGGCCAAGCTGACTGAAGACATGGATGACTTGATGAAGCAGACCGGCGGACTCTTGGAAAAGACCGACGCGTTTTTGCAAGACGTCAATAGTAAGATGGAAACTTTGCAGCCGGTCGTTCAGGCCGCCGCTGACCTGGGCCAAAGCGTCTCAGACATCAACGAATCATCCAAGAAGATGATCAACAAGGTTTCCAATGCCCACTTTACCCGGACGGGAATGATCACTTCCGTAATTACGTCGGCTTTTGCCAGACATTTCCGGCGGAAGGGTTAG
>LACTIS1119B1_05000 small-conductance mechanosensitive channel
ATGAAAAATCTTGATTTCAAAATTGCCGGCATCTCTGTCGACGTCGACAAGCTTTTTACCAGCGGCGTGACCATCCTCTGGAAGCTGCTGATTTCGACCCTGGTCTTCTACCTGGTCAGCCATTTTGGTCGGAAAATTATCAAGCGCTACCTGGATAAGCACAACGACAAGCTTGTCCTCTCCAAAAGGTCCCAGACCATCTCAGCCTTGGTGAACAGCCTCTTCCACTACACCATGGTCTTCTTCTATGTCTACTCCATCTTAACCATCCTGGGCATCCCCGTCGGCACCTTGATTGCCAGTGCCGGGATCTTCTCTTTGGCCATCGGCCTTGGGGCCCAGGGCTTCATGAGCGACCTGGTCAACGGCTTCTTTATCCTCAGTGAAGGCCAGTACGATGTCGGCGACAATGTCGAGATCGGGACTGAAGCCGGGACCGTGACCCAGCTGGGCCTCAGAACCACCCAGATCGTCACCACTGACGGCACCTTGATCTTCATCCCCAACCGGCAGATTTCCATCGTCAGAAACCTAACCCACGGCGGGATTGGCCTTAACTTGGACCTAAACCTGGATGCAGACACCGACTTAAAGCAGATCTTCATCAGCCTGCTTGACCAGGCTGATGAAGATCTGCTTGCCTGGCATGACAAACTGGTCAGCGGACCAACCCAGATCGGGGTCATCGGCCAGCAGGGGCAGACGATCACCTACCGGGTCCACTTCCAGGTCAAGCCGGGCTTTGAAGGCAAAATCCGCCAGGCCTACTGGCAGACCTACCTGCAATACTTACGGGCCAACCAGGTCAAATTTGGCCAAGAACCGGTTATCATCAACAACAGTAAAAAAGCTTGA
>LACTIS1119B1_05010 nucleoside-triphosphate diphosphatase
ATGACTCAAGTACTATTGTTTGCTACAGATAATCAAAACAAGGTTAAGGAAGTGCAAGAAGCTTTCAAGCAGGCTGGTCTGGACATTGAGCTTAAATCAAATGCAGATTTGGACAACCCGCCATACGTTAACGAAAAGGGGACGACTTTTGAAGCTAATGCTAAGCTGAAGGCACACGCTTTGGCAGACTATAGCAAGCTGCCAACTCTGGCTGACGACTCAGGCTTGCAGGTTGCTAAACTGAACGGCGCTCCTGGCGTATACTCAGCCCGTTACGGCGGTGAGGCCCACAACGATGCCAGAAACAACGCTAAGCTTTTGGCAGCCTTGGGCGGGGTTCCGCAAGACGAGCGCCAAGCCAAGTTTGTCACTACCCTTGTTTTGACCATGCCAGGCCACGAAGACAAGGACTTGGTTGTAACTGGCACCTGCGAAGGCGAAGTTCTGGCAATTCCGCGCGGCAAGGGCGGCTTCGGCTACGACCCGCTCTTCTACGTACCAAGCAAGGGCAAGACTTTCGCCGAAATGACCACTGAAGAAAAGAACGAAGTCTCCCACCGGGGCAAGGCAGTCAAGGCTTTGATCGAAGAACTGCCAGCTTGGCTCGCTCAATTCAACTAA
>LACTIS1119B1_05020 hypothetical protein
ATGTCAGAACACAACGACCACGTATACTTTGTTAATCAACTATACCGCGACTTCTTGTTGCCAACCATTTTAGGCGGAGACACGCCGGCGATTCTCTACTGGGCCGGCAAGCGGATCACCCGCAAATATGCCTTGAGTGAATTTGAAGACTTAAGCGAATTCTTCAAGATGGCTGAATTCGGCAATTTAACCATTGTCAAGGAGCGCCGCTCCTCAGTCATCTTCTCCTTGAGCGGGCAGTCAATCAGCGACCGCCTGGCCGCCGGCAGCCGGGAATTTTCCCTGGAAAGCGGAATGATCGCCGAAGCGGTTGAACAGAACCGGGGCCGGTCAGCTGAAGCCGAAATCGCCATCGACGACAAGAAAGAGACCGTTCAGATCACCGCCTTCTTCTAA
>LACTIS1119B1_05030 thiol-disulfide isomerase / thioredoxin
ATGGTAGATGAAATTACTGACGCAACTTTTGAAGAAGAAACCAAGGATGGCTTAGTTCTGGTTGACTTTTGGGCAACCTGGTGCGGTCCTTGCCGGATGCAGTCACCAGTCATCGAAGCTTTGGCTAAAGAAAGACAAGACGTGCACTTCACTAAGATGGACGTTGACGACAACCCGGAAACGGCCAAGAACTTTGGCATCATGGCCATCCCAACCCTCTTGATCAAGAAGGACGGGCAAGTGGTTGACCGCTTGACTGGCTACACTCCAAAGGAAAAGCTGAACGAAATTCTTGACCAGTACACTGACTAA
>LACTIS1119B1_05040 DNA mismatch repair protein MutS
ATGATGAATCATAAAATTTTAGATATTCTGGAATACCAGGAAATTAGCAGCCGCCTGGCTGAACAAGCGGTAACGGCTCCGGCCAAGAGCAAGGCCTTGAACCTCCAGCCCGCCAGCGACCGGGAGACGGTCAGCCGGGCCTTAAGCGAAACAAAGGCCCTGGTTGACTTGGACCGGATCAAGGGCCAGCTGCCTTTGACCGACTTTCAAGATGTTGCGCCCAGCCTCAAGCGTTTGAAGGTCAAGGCCGACTTGAACGCCCTGGAATTAGGCAATATCCTGCTGATTTTCACCCTGGCCCAGGAAAGCAGCCGCTTTGTAGAAGACGCGGAAGAAAATAAGACCTTGGACCTGGCGGCGATTGAAACTTTGCTGGATGACCTGGAATTGCCGGATGACCTTTACCGGCGCCTGCGGACTTCGCTGACTTATGACGGGGAAGTCCTGGATACCGCTTCAGCTGACCTGGCCCGCCTACGCCACGGCCGCCTGGCCACGGAAGCGGAAATCAAGGAAAAGATGACCGCCTACACCAAGGGCAAGAACGGCCAGTACCTGTCTGAGCAGATCGTGACCATCCGGGACGACCGCTACGTTATCCCGGTCAAGCAGGAATACCGCTACAAGTTCGGCGGGGTGGTCCACGACCAAAGTGCCTCTGGCCAGACCTTGTTTGTTGAACCGGCTGCCATCCTGCCGTTAAACAACCGCCTGCAAAACTTGCTGGCTGAAGAGCGGCAGGAAATCCACCGGGTTCTGCATGAACTGTCTCTGGACGCCAGAGAAGAAATGGAAGCTATCAAGCGGGTGGCCGCGGCTTTAAGCGAATTGGACTTCCTCCAGGCCAAGGCCAAGCTGGCCAAGCAGATGCGGGCCAGCCAGCCGGCTTTGTCTGCTGACCAGTCCTTTAAGCTTCTGGGGGCCCGTCACCCCTTGATTGATCCAGACAAGGTCGTGGCCAATGACATTGCTTTAGGCCAGGACTTTGACACGATTTTGATCACCGGGCCCAACACTGGTGGTAAAACGATCACTTTGAAGACGGCAGGCTTGCTCCAGCTGATGGCCCAGTCCGGTCTCTTTATTCCGGCTAATGAGGGCTCCAGCGTGGCGGTTTTTGACCAGATTTTTGCTGATATTGGGGACGAACAGTCAATCGAGCAGTCGCTGAGTACTTTTTCATCCCATATCAACGATATCGTGGCGATCATGAAGCGGGTCAGCGACCAAAGCCTGGTCCTGATCGACGAAATCGGGGCCGGGACCGACCCGGAAGAAGGGGCCCGCCTGGCCATCTCAATTTTGGACTTCTTCAGAAAGAAGGGGGCCAAGATCATCGTCACGACCCACTACCCGGAACTCAAGCTCTATGGCTATAACAGAGAGCGGACCACCAACGCCTCCATGGAATTTGACATCAAGACCCTGTCGCCGACCTACCGCCTGCAGATGGGGATCCCGGGTCACAGTAATGCCTTTGCCATTGCCCGCCGGCTGGGCATGCGGGAAGACGTGGTGGCCGGGGCTGAGAAGCTGATGAGCAGCGATGATTCTGACATCAACCACATGATCGACGAATTAAACAAGCAGACCAAACTGGTCACGGAAAACAAGCAGAAGCTGCAGACCAGCCTGGACCGGGCCAAGCAGCTGGAAAAGAAGCTGCAGGATGCCCTGGATATCTACAACCAGCGGGTCCAAAAGCAGCTGGACTTTGCCTTGGACCGGGCCAATGAAATCGTGGCCAAGAAGCGCAAGAAGGCCGACAAGATCATCGCCGAGCTGGAGGAAGCCCGCAAGGAAGGGATGCAGGTCAAGACCAACCAGCTGATGGACGCCAAGGGCGAATTCAACCAGCTGGCCAAGCAGGAGGCCAACCTGGCCAAAAACAAGGTCCTGCAAAAGGAAAAGAAACGCCACCACGTCCAGGTGGGTGACAAGGTCAAGGTCCTGTCTTACGGGCAGACCGGGACGGTGACCAAGCAGCTGGGTGAGCATGACTATGAGGTTTCCTTGGGCCGGATCAAGCTCAAGGTGACCGACAGGGACATCGACAAGCTGGCCGCCGGGCAGAAGCAGCAGGCCCAAAGACGGGCCACTTCTGCCTCCCGGTCCAGCCGGGCCCGCAGTTCCCTGGATCTTAGAGGGCAGCGCTATGAAGAGGCCATGGTCAATTTGGACCGGTACTTTGACACCATCCTTTTGTCCGGCCTTAGCACGGTCACGATCATCCACGGGATCGGGACCGGGGCCATCCGGCAGGGGGTCCAGCAGTATCTCAAGCGCAACAAGCACGTCAAGACCTACAGCTACGCGCCAGCCAATGAAGGCGGGACCGGGGCCACGATCGTGACCTTAAAGTAG
>LACTIS1119B1_05050 hypothetical protein
ATGGCTTTTGAAGTTAGCGCCGAAGATCAAGACAGACAATTGACCTTGATCGATGAAGACGGCAACGAAGAATTATTTGAAGTATTGTTTACTTTCCATTCTGACAACAATGACAAGTCCTACATCCTGCTTTACCCGGCAGCTGTAGAAGATGACGACGAAATTGAAGTCCAGGCTTTCAGCTACGACGCCGATGAAGATGGCGACGTAACCAGCAGCGACCTGCACGAAATCACTTCTGACGCTGAATGGGACATGGTTCAAGGGGTGCTCAACACCTTCCTTGAAGATGACCGTTTGAGCGGTGAGGATTCTGCAGAATAA
>LACTIS1119B1_05060 Holliday junction resolvase
ATGCGCCTGCTGGGTTTGGACGTCGGCTCCAAGACCATCGGGGTGGCCGTCAGTGATCCCTTGGGCATCACCGCCCAGGCAGTGATGACGATCCCGATTGATGAAGACCGGCACAATTTCGGCATGCGGTCTTTAAAGAAGCTGGTCCGCGAATATGAAGCGGACGGCTTTGTCCTGGGCCTGCCTAAGAACATGGACGGAACGGCCGGCCGGTCGGTCAGCCGGAGCAAGGCCATGGGCGAGCGCCTGGAACAGAAGTTCGGCTTGCCAGTCTACTATGACGATGAACGCTTGACGACCGTGGCCTCAGAGAGGATTTTGGTTGAAGAGGCGGGAATGCATGATCGCCGGCAGCGCAAGGAGGTCGTTGACCAAATGGCAGCTGTGTTGATTTTGCAGAACTATTTGGATTTACAGCGAAAGGAATAA
>LACTIS1119B1_05070 hypothetical protein
ATGAGTTCGCTTGATAAGACGATGCACTTTGATTTTAATCAGAATAAGGGAAAGAACATCCGCGACACTCTGGAAGACGTATACAAGGCCCTGGAAGAAAAGGGCTACAGCCCGATCAACCAAATCGTGGGTTACCTGCTTTCAGGCGACCCAGCGTACATCCCACGCCACAACGACGCCCGGAACCTGATCTTGAAGCACGAACGCGATGAAATCATCGAAGAACTGGTCAAGAGCTACCTGGACAAGGACAAGTAA
>LACTIS1119B1_05080 alanyl-tRNA synthetase
ATGAAAAAGTTAAACAGTTCAGAATTTCGGCAAATGTTCCTCGACTTTTTTGCTGAACACGGCCACATGGTCATGCAGTCAGCCAGTTTGATTCCAAAGGATGACCCGACTTTGCTCTGGATCAACTCCGGGGTGGCAACCATGAAGAAGTACTTCGACGGCTCAGTTGTGCCAAAGAACCGCCGGATTACCAGCTCACAAAAGTCAATCAGAACCAACGACATTGAAAACGTCGGTAAGACTGCCCGCCACCAAACCTTGTTTGAAATGCTGGGCAACTTCTCAGTTGGTGACTACTTCAAGGAAGAAGCGATTCCTTGGGCCTGGGAATTTTTGACCAGTCCTGACTGGCTGGACCTGGACAAGGACAAGCTTTACGTAACTGTTTACCCTAAGGATACTGAAGCTCACCGGATCTGGCATGAAGTCGTCGGCTTGCCGGAAAGCCACATCGTGCAATTGGAAGACAACTTCTGGGACATCGGTGAAGGCCCATGTGGTCCTGACTCAGAAATCTTCTACGACCGTGGCCAGGAAAACAATGACGTGCCAGAAGACGACCCGGAAAACTACCCAGGCGGGGAAAACGCCCGTTACCTGGAAATCTGGAACATCGTCTTCTCAGAATTCAACCACCTGCCAGACGGCAGCTACGTTGAACAGCCACACAAGAACATCGATACTGGGATGGGTCTGGAACGTGTCCTGTCTATCCTGCAAGATGCCCCGACCAACTTTGAAACCGACCTCTTCCTGCCAATCATCCACGCTACTGAAGAAATGAGCGCGGGCAAGAAGTACGGCGCAAACAAGGCTGACGACACTTCCTTCAAGATTATCGCTGACCACATCCGGGCTATCTCCTTTGCCATCGGTGACGGAGCTCTGCCAGGCAACACTGGCCGCGGCTACGTTTTGCGCCGGCTTTTGCGGCGGGCAGCCTTGAACGGACGCAAGCTGGGCATCGCCGGCGCCTTTCTTTACAAGCTGGTGCCAGTTGTCGGCGACATCATGAAGAGTCACTACCCTGAAGTCAGCGACCAGGCTGAATTCATCAGCAAGGTCATCAAGAACGAAGAAGACCGCTTCGGTGTAACTTTGGAAGCCGGCTTGACTTTGCTGGACGACTTGATCGACAAGGCCGAAAAAAGCGAAGACAAGACCATCTCCGGCAAGGACGCCTTCAAGATGTTCGACACTTACGGCTTCCCATACGAATTGACGGTTGAAGCTGCTGAAGACAAGGGCTTGAAGGTTGACAAGGATGGCTTTGACGCCGAAATGGAAGCGCAGAAGGAACGTGCCCGCAAGGCCCGGGGTAACCTGCAATCCATGGGTTCACAAGACGAAACCTTGATGAAAATCAAGGACAAGAGCGTCTTTGAATACGGGGTCTATGAAGAAGAAAGCCAGCTGGTTGACATCATCGTTGACGACAAGCTGGTGGACAAGGCTGACGGTGAAAAGGCAACCTTGATCTTCGACAAGACGCCATTTTACGCTGAACGGGGCGGCCAGGTGGCTGACCACGGTGACATCTACGACCAGGAAGGCAACTTAGTTGCCCGGGTAGTTGACGTTCAGCACGCGCCTAACGACCAGAACCTGCACTTTGTCGACGTGATCCTGCCACTTGTAAAGGGGCAGACCTACAAGCTGAAGATTGACCGGGCGCGCCGGGAAGGCCTCCGCCACTCCCACTCAGCTACCCACCTCTTGCACGCCGCCTTGCGGCAAGTATTGGGTGAACACACCCACCAGGCCGGGTCAGTTGTTGAACCAGACTACTTGAGATTCGACTTCACTTCCCTTGACCCAATCACGCCAAGAGAATTGAAGAACGTTGAAAAGATCGTCAACGAAAAGATCTGGGAATCAATCCAAGTCAAGACCACGGAAACTGATCCGGAAACCGGTAAGAAGATGGGGGCCTTGGCTCTGTTTGACGGCAAGTACACTGATAAGGTCAGAGTCGTGCAAATGGATGACTTCTCCATCGAATTCTGCGGGGGTACTCACTGTGACAACACCTCCCAAATCGGCGTCTTCAAGATTATTTCTGAACAAGCCATCGGTGCCGGGGTCAGAAGAATTGAAGCCGTAACTTCCAAGCTGGCTTACGAATACTTAGCTGGCCGCTCAGACATCCTGGACCAGATCCAGGCTCAAGTTAAGGCCACTAAGGCTGAAGACATCCAAAGCAAGATTGCCAGCCTGCAAGAAGAACTCAGAAGCGCTGAAAAGCAAAACGCCGCTTACAAAGCACAAATCAACGCTTCCAAGGCCGGCAAGATCTTTGATCAGGTCAAGACGGTTGGTGACTTGACGGTTATCGCTACGATCGCTGACGTCAAGGGGATGAACGACTTGCGGGAAATCGCTGACCAATGGAAGAGCGAAGGCAAGTCTGACGTCTTGATCCTGGGCGCTAAGTCTGAAGACAAGGCCAACATGCTGATCAGCCTGGGCCAAAAGGCCCTGGACAAGGGTCTGAAGGCCGGCGACTTGATCAAGAGCGTGGCTGCTATCTTTGGCGGTGGCGGCGGCGGCCGGCCAAACATGGCCCAAGCCGGCGGCAAGAAGCCAGAAGGCCTGCAGGATGCCATCGATGCTGCAGTCAGCCAGCTGGACTAA
>LACTIS1119B1_05090 DEAD/DEAH box helicase
ATGAATAACATTTTTACTGATACCCGCTTAAGAAGCGAAATCCGCCAGGGCCTGGCCAAGATCGGCTTTGCTAAACCGACTCCGGTGCAGGAAAAAGTCATCCCGGCCATGCTGAAAGGCGAAAGCGTGATCGTCCAGGCGGCTACGGGGAGCGGGAAGACCCACGCCTACTTGATCCCGATTTTAAACGCCATTGATGAAGACGCCCTCTATGTCCAGGCCATCGTCACGGCTCCCAGCCGGGAACTGGCTGACCAGCTCTACCGGGTGGCCCGCCAGCTGCGGGATAATTCCGGCTTAAACATCGCCATTGCCCACCTGGCCGGGGGCAGCGACCGGGACCGGCAGATCGCCAGATTTGAACAGAACAAGCCCCAGTTGGTTATCGCTACGCCGGGCCGGCTTTTGGACTTTGCTGACAAGAAGATCCTGCTTTTGGACCAGGTCAAGAACTTTGTCATCGACGAAGCCGATATGACCCTGGACTTGGGCTTCCTGGCCGATGTGGACAAGATTGCCGCCCGCCTGCCAAAGGACGTGGTCATGTCCGCCTTTTCAGCCACGATTCCGGTCAAGCTGACCAACTTTTTACGCAAGTACATGGCCAAGCCGGAAGAAATCGTGATCGACAATCCGGCAGTTATTGCCCCAACCATCAAAAACGACCTCTTGGACATCGGCAGCAAGGACAGAAAGAAGATCGTCTACAAGCTTTTGACCATGGGCCAGCCTTACCTGGCCCTGGTTTTCGCCAATACCAAGCAGATGGTTGACGAACTGGCTGACTACCTGACTAAGCAAGGGCTTAAGGTGGCCAAGATCCACGGCGGCATTACCGAACGGGAAAGAAAGCGGACCCTGCGGGAAGTCCGGGCCGGCCAGTACCAGTATGTCGTCGCCAGCGACCTGGCTGCCCGGGGGATCGACCTGCCTGGCGTCAGCCTGGTGATCAACTATGAGATTCCCAAGGAGCTGGAATTCATTATCCACCGGATCGGCCGGACTGGCCGGAACGGCCTGCCGGGCCACGCCGTGACTTTGGTCAGGGAAGAAGAGATGAACCGGGTGGGGGCCTTGGAGCACATGGGCGTTCACTTTGACTTCGTTGAAATCAAGGACGGGGCACTCGCTCCGCGGACTCACTACCGCCGCCGGGACAACCGGACGGCTGCAAACCGCCAGCTTGACCCCCACATGAGGGGCGTGGTCAAGAAGGTCAAGTCCAAGCGCAAGCCTGGCTATAAGAAGAAGATCAAGCAGGCGATTCAAGAAGATAACCGCAAGAAGCGGAAGATTGAAGCCCGCCACGAAATGCGCCACCAAAAGCGCCTCCGTAAGCGCAAGCGCGAGCAAAACCGTTGA
>LACTIS1119B1_05100 phosphoesterase
ATGAACACTTTTGACGAAATATTTAGTAAGATTAAGCAATATCCAACCATTATCCTCCACCGGCACACCAATCCCGACCCGGACGCTATCGGCTCCCAGGCCGCTTTAGCCAAGAGCCTGCGCCTGCAGTTCCCGGACAAGAAGATTCTCTGCACCGGGGAAAATGACGTCGGTGACCTGGACTGGATCAACACCATGGACGAAGTCAAGGATGAAGACTACCAAGGCGCCCTGGTGATCACGACTGACACGGCCAACACGCCGCGGATCTCTGACCAGCGCTACCGGCTGGGGGACTACCTGATCAAGATTGACCACCACCCGGACGTTGACCCATATGCTGACATGTCTTACGTTGACTCAAAAGCCGCTGCTACCTGTGAAATCATCGCTGACTTTATCGAAGCAGAAGGCCTGCCCCTTAACCAGGAAATCGCCCTGGCCCTCTACGCCGGTATTATCGGTGACACTGGCCGCTTTATGTATGACGCGACCAGCGCCCACACCTTCGAAGTAGTATCCCGCTTGATGGAGACGGGGATCGACATCTCCCAAATTGCCAGAAACGAAAGTGAAGTTACCTTCCAGCAGGCCAAGCTGCAGAGCCTGGCCCTGGAGAAAATGCAGCTGGACGAAAGCGGCCTGGTCGCTATCGCCGTAATTAGCCAGGCTGACTTAAAGGCCCTGGGCGTTACCCAGCCGCAAGCTTCAGTCACTGTTTCAACCCCGGGCCGGATCAAGGGGATTCTGACCTGGCTGGTCATCGTGGAAAAAGAAGACGGTACTTACCGGGTCCACTACCGGTCAAAGGGTCCGCACATCCACAAGCTGGCTGAAGCCCACGACGGGGGCGGCCATGAATTAGCCTCTGGGGCAACGGCCCATGACCAGGTGGAAATCGACCAGATTTTTCAGGAATTAGTTGAAGTAACCAAGAAATACAAGGAAGACCATGAATAA
>LACTIS1119B1_05110 DNA polymerase IV
ATGGCCGATATTGACCTTTTGCCCAGGAACGATTTTTCCCGCCGGATCATCCACTTGGACATGGACGCTTTCTATGCTTCAGTTGAAATGCGGGACCGGCCGGAATTGGCGAATAAGGCAGTCGTGATTGCCCAGGACCCCCGGAAAACTGGCGGCCATGGCGTGATCGCCACCGCCAACTACCGGGCCAGAAAGTACGGGGTCGGGTCAGCCATGGCGGCCGCCCAAGCCGTCAAGCTGATTCCAGCTGAAGAACTGGTTTTCGTTGAACCCGATTTCGCGAAATACCACCGGGTTTCCGGGCAAGTGCACGGCTTAATGCACGAACTGACCGACCAGATCGAAAGCGTGGCGCTGGACGAAGCATATATGGACGTGACCCGGAGCAAGATCCCCGGCAAAAGCGCCCTGGAGCTGGCCAGATATTTGCAAGAGCAGATCTTCCGTCAGCTGCATTTGACCTCATCTTTTGGGGTCAGCTACAACAAGTTTTTGGCCAAGATGGGGTCAGAATACGCCAAGCCTTTTGGCCGCACTTATCTTGCCCCGGACCGGGCCCAGGACTTTTTAGACAGGCAGGAGATCAAGAGATTCCCCGGCATCGGCAAGAAGACCCAGGAGCGGCTAAAGGAAGCCGGAGTTTTGACCGGCCGCGACATCAGAAATTACGGGCTCAGCCGCCTTTTAAAAGACTATAAGAAGTCCGGCTACTATATGGCCCTGCATGCTTATGGCATTGACTTAAGCCCCGTCCAAGCCTCCAGGCAGCGCAAGTCCCTGGGCAAGGAGCGGACTTTTGAACCGGTAATCTATGACCCGGACCGAGCTGATGCCTACTTAAAGGACTTCAGCCAGACGGTGGCGGCTGAACTAAAGGAGAGAAATCTTTTAGCCCGGGTGGTCGTTTTAAAGGTCCGCGACCGCAATTTTAAAACTATCACCCGCCGGCAGCAGATCCAGCCGACCAGTGACCCGGAAGTCTTTTACCAGCTGGCCAAGGAGCTCCTGGCCCGGGAACCGGAATTCCTGGCTGAAGGCATCCGCCTCTTGGGCCTGTCAGCCGGCGAACTTGAAGAAAAACATTACCAGGAAATCAGTCTTTTTGCAGATGAATAG
>LACTIS1119B1_05120 glucose-6-phosphate 1-dehydrogenase
ATGAACAATATTCCAACAGTAATGATCCTTTTCGGCGGCAGCGGCGACCTGGCCCACCGCAAGATCTATCCGGCCCTCTTCAATCTCTACCGCCGGAATGTCATTCACGACAATTTTGCCGTTATCGGCACTGCCCGGCGGCCATGGTCGCATGAATACCTGCGCGAGCAGGTGGCCCAAGCTGTTCATGAAAGCTGGGAAGAGGTCGACGAAGCGCAGCTGACGGAATTTGCCAGCCACTTTTACTACCAGTCCCACGACGTAACCAACGTTGAACACTACGTAACTTTGAAGCAATTGGCCCAGGAACTGGATGAGCGCTATGAATGCGGCGGCAACCGCATCTTCTACATGGCCATGGCCCCAAGCTTCTTTGGGACGATTGCCGAACACATTGCCGACCAGCATTTGACCGGGACCGGCTTCAACCGCCTGGTGGTTGAGAAGCCATTCGGGACTGACCTGGCCAGTGCGGAAGTCTTGAACCAGCAGATCCGCAATTCTTTTGCTGAAGGCCAGGTCTTCCGGATCGACCACTACCTGGGTAAGGAAATGGTGCAGAATATCCTGCCTCTGCGCTTTGGCAACTCCTTGTTTAAGCGGATTTGGAACGCCGACGCGGTTAAAAATGTCCAGGTTACCCTGGCTGAACGGCTGGGCGTTGAAGCCCGGGGCGGCTACTATAACAACTCCGGTGCCCTGCGGGACATGGTTCAGAACCACATCATGCAGATCATCACCCTTTTGGCCATGCCGGAGCCAAAAGACTTGTCTGACAAGGCCATCCACGCGGCTAAAGAAGACCTTTTGGCATCTTTAGTTATCCCAGATGAAAAAGCCGTCAGCGAAAACATCATCCGCGGCCAGTATCTGGGGACGGAAACCACTTTTGAATATGTCAAAGAGCCGAACGTGGCGGAAGACTCCAAGACGGAAACTTACGTGGCTGGCCGTTTGGAATTTAGCAAGGGGCCTTTGGCTGGCGTGCCGATTTACTTCCGAACTGGCAAGGAAATGCGGGAAAAGAAGACCCGGGTGGACGTGGTCTTTAAGGATGAAGCTGGCCTGTATGGCGATAAGGCTAAGACCAACGTACTGACTATTGAGATTGACCCGGTCAACCAGGTATACTTCCGCTTAAACGGCAAGATCGTTGCTGGCGGTGACCTCCGTCTTGAAAGATTCCGCTACCGCTACAGCGAAGATGAACAAGCTGAGGTGCCAGACGGCTATGAACGTTTGATCCACGACGTCTTTGTCAACGACTCCACCAACTTTACCAAGTGGGAAGAACTGAAGCAGTATTGGAGATTCGTGGACGCGGTTGAAGCTGCCTGGCAAAAGCAAAACGCTGCCGGCGAAAAGCCGGTCAAGTACCGTCCTTACGGCATGGGGCCGGATACCAGCAAGATCTTTGCGGATCCTGAGGATGGCTGGATCTACAAGTAA
>LACTIS1119B1_05130 hypothetical protein
TTGAATACTTTTGCACTAGCTGCAGCCAACAGCGGTGCTGGCAGCAGCATCTTCATGCTGGTTATGCTGGCCGTTTTGTTTGGTTTTACTTACTTTACGATGATCAAGCCGCAAAAGAAGCAGCAACAGCAGCGCCAGGAAATGATGAATCAGCTCAAGAAGGGCGACAGCGTGGAAATGGTCGACGGCCTGCGCGGCAAGATCGACTCAATCAACGATGCTGACAAGACTATCGTCTTGGACGCTGACGGCATTTACCTAACCTTCTCCAGACTGGCAGTCAGAACTGTTTTGAAGCAAGCTGACGCAAGTGAAGCTGAAGCAGCCAAGCCAGCAGAAGAAAAGGCTGAAGCAGCCAAGACTGAAGAAGCAGAAGACAAGGCAGAAGACAAAGACAGTCAAGAATAA
>LACTIS1119B1_05140 Holliday junction DNA helicase RuvB
ATGACGGAAGAACATTTGACCAGCCAGGAAGCCGCCGAAGGCGAGGAAGCGGTGGAACTGTCCTTACGGCCCCAGCTGCTCAGCCAGTATATCGGGCAAGGGCATGTCAAAAAGGACATGGAAGTCTACATCCAGGCCGCCCGCCAGCGTGACGAGGCCCTGGACCATGTCCTTCTTTATGGCCCGCCAGGTTTAGGTAAAACCACCCTGGCCTTTGTTATTGCCAATGAATTGGGGGTCAACTTAAAAAGCACCAGCGGTCCGGCCATCGAGCGGGCCGGGGACCTGGTGGCCCTCTTAACTGACCTTGAGCCGGGGGATGTCTTGTTTATCGACGAAATCCACCGCCTGGCCAAGCCGGTTGAAGAAGTCCTCTATTCAGCCATGGAAGACTTTTACATCGATATCGTGGTTGGGGAAGGGCAGACGACTCATGCAATCCACTTGCCTCTGCCGCCTTTTACCTTGATCGGGGCAACCACCCTGGCCGGGCAGTTGTCGGCGCCTCTGCGCGACCGCTTCGGGATCGTTGAGCACATGCAGTACTACCAGGTCGAAGACTTGGAAAAAATCATCCTCCGCTCAAGCGAGGTCTTCCACACCAAGATTTCCCCGCAAGCTGCCCATGAACTGGCCCGCCGGTCCCGGGGAACGCCCCGGGTGGCCAACCGCCTTTTAAAGCGGGTGCGGGACTTTGCGGAAGTCAAGGGAGAAAAAGAAATCTCCCTGGAAACCACGGCCATGGCCTTAAAGCAGCTGCAAGTCGACAGTGCCGGCTTGGACCAGACTGACCGCAAGCTGCTGAGAACCATGATCTTAAGCTATGGGGGCGGCCCGGTCGGGATCCGGACCCTGGCTTCCAATATCGGGGAAGACCGGGAGACGATCGAGTCCCTGTATGAGCCATATCTTTTGCAAAACGGCTTTATCGTCATGACCCCAAGGGGGCGGGTAGTGACCCAGAAGGCCTACCAGCAGCTGAATTTGCCCCTGCCGGGCGAGGAAGAATAG
>LACTIS1119B1_05150 Holliday junction DNA helicase RuvA
ATGTACGAGTATTTTGAGGGCACCATTACCGTGGTTAATCCGGCCTATGTCGTGATTGAAGTGGCTGGGATCGGCTACCGGATCCTGACCCCGACCCCTTATGCCTATAAAGATGGGGACAAGGCCCGGATCTACGTTGAACAGGTCGTCCGGGAAAACGGGATGACCCTCTATGGCTTCAAGAGCCAGCAAGACAAGGTCCTCTTCAACAAGCTTAATGAAGTTTCCGGGATCGGTCCTAAGTCTGCCCTGGCCATCATGGCCGCTGAAGACAACGGAGCCCTGGCTTCCGCCATTGAGAGCGGCGAAGTTTCCTACTTGACCCGTTTCCCGGGGATCGGTAAGAAAACGGCATCCCAGATCGTCCTGGACTTGCGGGGGAAGATGGGCAACTATGTGGCGGAAAACCTCTTTACCGAAGATGAACCGGTTAAGTCTGTTTTCCCAGCCCTGGAAGACGCTCTCCTAGCCCTTGGGGCTTTGGGCTACAGTCAAAAGGAAGTTGACCGGATCAAGCCGAAACTGAAGAAATTGCCGGAAATGTCCGCTGACGAATACATCAAGCAGGGGCTGGGCCTTTTGCTGAAGAAATAA
>LACTIS1119B1_05160 hypothetical protein
GTGGACTTAAACCAGGTCAGAGAAGATGACCAATATGTCTTAACCAAGAGCTGGGACCAGCATGTCAAGGAACAGACGGCCCTGCCGCCTTTTGCGGGCGGAGAGGAAGCCGCTAGCCCGGTCACGTCAAAGGCTGACCAGCTGCTAAGGCAACACCTGCCGGCCCTGCGCCTTTTGGGCCAGATGGGGGGATATCTCCTGGCTGAACACGGGGGCGACCTTTACCTGCTTGACCAGGTGGCGGCCAGAAGACGGCTGGAGTACGACCAGATTTTAGCCAGCCTGGAAAAAGACGAGAACTACCAGCAAGGCTTGCTTGAGCCTTTGGTCTTTGACTTCAGCGTCTATGACTACCAGAAATTAAAAGACCAGCTGCCCCTTTTGCGCCAGCTGGGCCTGGAGATGGAAGACTTTGGCCAGAACACCCTCTTGATGCACTCTTACCCAACCTGGCTGAAAGGGGAAGTCACCGTGCAGGTCAGGGAGCTCTTAGACCAGCTCTTGTCCAGCCGGGAAAACGATGGAAAAAGTCTCTTGAAGCTGGTGGCGGCTAAGGCGGCGGAAAGCAATGTTTCCCGCCGGGTCAATTTAACCGGCGCTGAAGCCGCCGATCTGCTTCTCCGTTTGCAGACGGCCAGCGACCCTTACCGGGATGCCAGCGGCCAGGTCGCCGTCGTCCGCTTGAGCCAGAATGATTTAAGCAAGCTTTTTAAGAAAGGGAAGTGA
>LACTIS1119B1_05170 DNA mismatch repair protein MutS
ATGCCAAGAAAAGCCACGACTCCAATGATGGAGCAATATTACCAGATTAAAGACCAGTACCCGGATGCCTTTCTCTTCTACCGGGTGGGAGATTTTTACGAACTCTATGAAGACGATGCCATCAAGGGATCACAGATTTTAGAGTTGACCCTGACTCACCGGTCAAATAAGTCGGAAAACCCGATTCCCATGGCCGGGGTGCCCCACATGGCGGTTGATTCTTATGTCAACACTTTAGTGGAAAAAGGCTACAAGGTGGCCATCTGCGAGCAATTGGAAGACCCGAAGAAGGCCAAGGGGATGGTCAAGCGGGGGATCATCCAGCTGGTTACTCCCGGCACCAAGATGGCCCAGGGGCCAGACGACAGCCAAGAAAGCAACTACCTGACCAGCGTGGTTGAAAAGGCCGGCGGCTATGGCCTGGCTTACAGCGACCTGTCGACCGGGGAGATTTTTGCCACCCACGTCAAGCGCTACGCCGAGGTGGTCAACGAGCTCCTGTCTTTGAGAACCCGGGAAGTCGTTTTTGCTGGCAACCTTAGCGCCAGCGACCGGGACAGACTGCAAAAGGCCAACATCACCGTGTCTGAACCGGCAGAACTGGAAGGCGAGTACGCGGAAATTTCTTATGTCCAGCAGAAACTGACTGACTCTATGGAAAAAGCCGCCGTCCGCCAGCTGGTCGTTTACCTTTTGGCCACGCAGAAGCGGAGCCTAGCTCACCTGCAAGTGGCGGAAAGCTTTGAAATCGGCCAGTATTTACAGATGGCCAACACTGTCCAGCGGAATCTGGAACTGACCCAGTCAGCCACGACTGGCAGGAAGCAGGGCTCTTTATTCTGGGTTTTGGACAAGACCACCACGGCTATGGGGGGCCGGCTTTTAAAGCAGTGGCTGAGCCGGCCGCTCTTGTCTTTAGATCGGATTAAGCAGCGCCAGCAGATGGTGCAAGCCCTGTTGGACGACTACTTTACCAGGGAAAATATCGTTGACTCCTTGAAGGGAGTCTATGACCTGGAACGGTTGAGCGGCCGGGTGGCTTTTGGCAATGTCAACCCCCGTGAGCTCTTGCAACTGGCGAAAAGCCTAGAGGCGACCAAGCCGATCATCCAGGCCCTGGCCGAATCGGGCAATCCAGACCTGGAAAAATACGGGCAGGGGATCGACCCGCAAAGTGAACTTGCTGAGAGCATCACTAACTGCTTAGTTGACCAGCCGCCGATTTCGGCTAAAGACGGCGGCATTATCCGGGCCGGGGTCAGCGAGGACCTGGACAAGTACAGAGAAGCCATGAATGGCGGGAAAAAGTGGCTGGCCCAGATGGAAATGGAAGAGCGGCAGAGAACCGGGATCGACAATCTGAAGATCGGCTACAACCGGGTCTTTGGCTACTTCATCCAAGTCAGCAAGGGGAATGTCGCTAAAGTGCCCCAGGACCGCTACACCAGAAAGCAGACCCTGACCAATGCTGAGCGCTACATTACCCCGGAATTAAAGGAACACGAAAACTTGATTCTGGAAGCTGAGAGCCGGTCAACTGACCTGGAATACGAGCTCTTCAGCCAGCTGAGAGAGGCTGTCAAGGCCCATATCCCGGCCTTGCAGGAACTGGGCCGGCAATTGGCGGCCCTGGACGTCTTCGTGGCCTTTGCCCAGGATGCTGAAGAGAAAAATTACTGCCGGCCAAGTTTTTCCAGCAAAAACGAAATCGCCGTTAAGAACGGCCGCCACCCGGTTGTTGAGGCAGTTTTACCAGCTGGCTCCTATATCCCTAACGACCTGGTAATGGATGAAGACACCAGTATCTACCTCATCACGGGGCCAAACATGTCTGGTAAGAGCACCTACATGAGGCAGCTGGCCTTAATCGCCATCATGGCCCAGATCGGCTCCTTCGTCCCGGCAGACAGCGCCAAGCTGCCAGTTTTTGACCAGGTCTTCACCCGGATCGGGGCCGCTGACGACCTCTACTCCGGCAAGTCCACCTTCATGGTGGAAATGAGCGAGGCCAATGAGGCTCTCCAGCACGCTTCCAGCCGGTCTTTGGTCCTGTTTGACGAAATTGGCCGGGGGACGGCCACTTACGACGGGATGGCCTTGGCCGGGGCGATTATCAAGTACCTGCATGACAAGGTTGGCGCCAAGACCCTTTTTGCCACCCACTACCATGAACTGACTGAACTGGACGAAACCTTGCCGCACTTAAAGAACATCCACGTCGGAGCAACGGAAGAAAACGGCCAGCTGATCTTCCTGCACAAGATTTTGCCAGGACCAGCCGACCAGTCTTACGGGATCCACGTGGCCAAATTGGCTGGCCTGCCGCGGGCCGTTTTAAGAGAAGCCTCCAGCATGCTCAAGCGCCTGGAAGCAGAAGGAGCCCGGGAGATCAACCCAAGCCGCCAGCAGCTGGACCTCTTCAGTCCGGTGGAAGTAGTGGAAGAGAACCCGCTCAAGGCAGAGCAGGAGGAACTGTTAGACGAGATCAGCCAGGTCAACTTGAATGAAAAGACGCCGCTGGAAGTCATGCAGCTGGTAGCTGACTGGCAGCAGGCCTTGAAGGAAGAATAA
>LACTIS1119B1_05180 chaperonin GroEL
ATGGCAAAAGACATCAAGTTTTCAGAAGAAGCAAGACGTTCACTTTTAAACGGGGTTAACAAGCTGGCCAACACGGTCAAGACGACCTTGGGGCCTAAGGGCAGAAACGTTGTTTTGGAACAAAGCTACGGCGCCCCAACGATTACCAACGACGGCGTGACTATCGCCAAGGCAATTGAACTGGAAGACCACTACGAAAACATGGGGGCCAAGCTGGTTGCTGAAGCTGCTTCAAAGACCAACGACATCGCTGGTGATGGTACGACCACGGCCACTGTTTTGACCCAAGCCATCGTGCAAGAAGGGATGAAGAACGTGGTTGCCGGGGCTAACCCAGTTGGCATTCGCCGCGGGATTGAAAAGGCCACCCAAGCAGCCGTTGACCAATTGCACAAGAACAGCCACGAAGTTTCCAGCCGGGACCAAATTGCCCAAGTTGCTTCAATCTCAAGTGCTTCAAAGGAAATCGGCGACTTGATCGCTGAAGCCATGGAAAAGGTCGGCAAGGACGGTGTTATCACCATTGAAGACTCCCGCGGGATCGAAACTGAACTGAGCGTGGTTGAAGGGATGCAATTCGACCGCGGCTACCTGTCCCAATACATGGTAACGGACAACGACAAGATGGAAGCTGACTTGGAAAACCCATACATCTTGATCACTGACAAGAAGATTTCCAACATCCAGGACATTTTGCCAATGTTGCAGGAAATCGTGCAACAAGGCCGCTCACTCCTAATCATCGCTGATGACGTGACTGGCGAAGCTTTGCCAACTCTTGTTTTGAACAAGATCCGCGGTACCTTCAACGTTGTTGCTGTTAAGGCTCCTGGCTTTGGTGACCGCCGCAAGGAACAACTGGCTGACATCGCTGCTTTGACTGGCGGTACGGTAATCTCTGAAGACCTGGGCCTGGAACTCAAGGACACCCAGCTCAGCCAATTGGGTCAAGCCCGCCGGGTAACTATCACCAAGGACTCAACTACTATCGTTGACGGCTCTGGCGCTAAGGAAGCCATCCAAGAACGGGTTGACACCATCAGAAAGCAAATCGAAGACACTTCTTCTGACTTCGACAAGAAGAAGCTGCAAGAACGTCTGGCCAAGCTGACTGGCGGCGTAGCCGTAATCCACGTCGGTGCTGCTACTGAAACTGAACTCAAGGAACGCCGCTACCGGGTAGAAGACGCCTTGAACGCTACCCGTGCCGCTGTTGAAGAAGGCTACGTAGCTGGTGGTGGTACTGCTTTGGTTAACGTTGAAGAAGCTGTTAAGGCAATCAAGGGTGACACTGCTGACGAACAAACCGGGATCAACATCGTGGCCCGTGCCTTGACTGCCCCAGTTCGCCAAATCGCTGAAAACGCCGGCCAAGAAGGCTCAGTCGTTGTTGACCACCTGCGCAAGGTTGACCCGGAAGTCGGCTACAACGCTGCTGAAGACAAGTATGTCAACATGATTGACGAAGGGATCATCGACCCAACCAAGGTGACCCGGTCAGCCCTGCAAAATGCCGCTTCAATCGCCGGCCTCTTGCTGACCACTGAAGCAGTTGTGGCAGAAATTCCGGAAGACAAGCCAGAAGCTGCTCCAGCTCAACCAGGCATGATGTAA
>LACTIS1119B1_05190 co-chaperonin GroES
GTGTTACAGCCAATTGGAGATCGCGTGATCGTTGAAGTTAAAGAAGTTGAAGAACAAACTGTTGGTGGTATCGTACTTGCTTCCAACGCTAAGGAAAAGCCAACCCAAGGCAAGGTTGTTGCCGTAGGCGGCGGCCTGTACGCGGAAGATGGTAGCAAGCTTCCTATGACCGTCCAAGAGGGCGATGAAGTTTTATACGATAAGTATTCTGGCACCAAGGTCAAGTACGAAGGCAAGGAATACTTAGTCCTTCATGAAAAAGACATTTTGGCAATTATTAAGTAA
>LACTIS1119B1_05200 redox-sensing transcriptional repressor Rex
ATGAACAACAAATTTAGAATTCCCAAGGCTACTGCCAAAAGATTGCCGCTATATTACCGCTACTTGCTGCTTTTGAATGATGAAGGCAAAGACAAGGTTTCTTCAACTGAACTGGCGGAAGCCGTTCAAGTCGACAGCGCTTCAATCCGCCGGGACTTTTCTTACTTCGGTGCCCTGGGCAAGCGGGGCTACGGCTACGACGTCAAGAACCTGCTCAGCTTCTTTAAGAAGATCCTCAACCAGGACACTTTGACCAATGTTGCCCTGGTCGGGGTCGGCAACCTGGGTCATGCCCTTTTGAACTACAACTTCAAGCGCAGCAACAATATCAGAATTTCCTGCGCCTTCGACATCAACCCGGAAATCACCGGCAAGATCACCCAGGGGGTCCCGGTTTACTCAATGGATGAAATGAAGCAGCAGATCGCTGACCAGCAGATCCGGATCGCTATCTTGACCGTTCCCCAGGCGACGGCCCAGAAGACGGCTGATGAAATGATCGAAGCCGGGATCAAGGGGATCATGAACTTTACCCCGATCCGCCTGTCCGCCCCAAACGGGGTCCGGATCCAAAACGTCGACCTGGCTACCGAATTGCAGACCTTGATCTACTTCCTTGACTCTGACGAAATGATCAAAAAGCAGCTGGAAGAGCGGAAAAAGGCCATGAACAACACGAATAAATAA
>LACTIS1119B1_05210 hypothetical protein
TTGGAGCAACGCTTCGGGGCTGCTCCTATATTCAGCAAGGTAAACTTTTCAATTGAGAACAATGCCCGGATCGGCCTGGTCGGGCCAAATGGGGCCGGGAAAACGACCCTTTTAAAGATCATGGCCGGCCGCCAGGAAGCCAGCCAGGGGGAATTTACCGTCAACAAGGGGATCGAGCTTGGCTACATCGCCCAGGAGCACGACTTTGACGAAGAGAAGTCGATCTGGGAAGAGATGCTGACGGTCTTCCAGCCCTTGATCGACCAGGGCCAGCAGCTGGAGAAGCTGCAGTACGCCATCGCCGACCATCCGGAAGACGAAGAGCTTCTGCGCCGCCTGGACCAGGCCCAGTATAATTTTGAACAAGCCGGCGGCTATACCTACCAGGCCGAAATCAAGAGCATGCTCAACGGCTTCAACTTCCCGGAAGCGACCTGGAACAAGCAGATTGCCAGCCTGTCCGGCGGGGAAAAAGACCCGGCTCAGCTTCGTCAAGCTCCTTTTAAAGAAGCCCCCGCTCCTGCTTTTGGACGAACCGACCAACTACCTGGACCTGGATACTTTGGACTGGCTGGAAGCCTTTCTTAA
>LACTIS1119B1_05220 hypothetical protein
TTGGACGAACCGACCAACTACCTGGACCTGGATACTTTGGACTGGCTGGAAGCCTTTCTTAAGAACTACCCTGGCGCCATCCTGACGGTTTCCCACGACCAGTACTTCTTAGACCACCTGGCTACGCAGATTTTTGAACTCCAGCATGGGGAACTGACTGTCTTTAAGGGCAACTACAGCCAGTACCTGGCGCAAAGAGAACTGCGCGACCAGCAGCAAGAAGCCGCTTATGAAAAGCAGCAGGAAGAGATCAAGCGAGAAGAAGAGTTCATCCAAAAGAACATCGTCCGCGCCTCCACCACCAAGCAGGCCCAAAGCCGGCGCAAGGCCCTGGAGAAGATGGAACTGGTCGACCCGCCAAAGCACAAGTCAAAAGTCCGGATCAAGTTTGACAGCGCCCGGCCGTCAGGCAAGGAAGTCTTGATCTTGAAGGACCTGGCCGTTGGCTATCCAGACAAGACCATGCTTAAGGACATCTCCTTCCAGATCAATAAGGGTGACCGGGTGGCCATCATTGGCCAAAACGGGATCGGCAAGTCCACCCTTTTAAAGACTGTCATGAAACAACTGCCGGTTAAGAGCGGGGCCATCAAGTACGGGGCCAGCCTGGATATCGGCTACTATGACCAGGAACTGCAGGGATTAGACTATTCTAAGACCGTGATCGATACCATCTGGGACCGGCACAAGGACATGAACGAAAAGGACATCCGGTCCATCCTAGCCAGCTTTTTGTTCACGGCCAAGGACATTGACAAGCAGGTCAGCCAGCTGTCCGGGGGGCAAAGAGCCCGCTTGACCCTGACCGTCTTGTCCATGGAACACAACAACTTCCTTTTGATGGACGAACCGACCAACCACTTGGACCTGGACGCCAAGGAAGTTTTGGAAAAAGCTTTGGCCGATTACGACGGCACCCTCCTCTTCGTTTCCCACGACCGCTACTTCATCAACAAACTGGCCAACAAGATCGTCGTCGCTAAAGACGGCCAGGCCAAAATCTATGAAGGCAACTACACTTACTACTTGAACGAAAAGGCCAAGGAAGAAGCCGCTGCTCAAGAAAAAGCCGCGCAGGAAGCGCCAGTCGTCAAGTCAGTCAGCGAAAGCAAGTTCTCCTACCAGGAGCAGAAAAAGCGGGACTCGGAAAAGCGGAAACTGGAGCGGCAGGTCGCCCAGGCAGAAAAGGACCTGGAAGAGCTGGAAGCAAAAGAACAAGAGATCCAGGAAGCAATGGCTGACCCGGCAATCGCCGCCGACTTCAGCAAGCTGGGGCCTCTCCAGGAAGAATTGACCGCTGTCCAGGAAAAGATCAGCCAAGTTAGCCAGGCTTGGGAAGATGCCTCCTTGGCCTTGGAAGAATTTTGA
>LACTIS1119B1_05230 tRNA threonylcarbamoyladenosine modification protein TsaD
GTGAAGGAAAAGAAAGACATTCGCATTTTAGCTTTTGAAAGCTCCTGTGACGAGACTTCGACTGCCGTGGTCAAGAACGGGTCAGAGATCGAAAGCCTGGTCGTGTCTACCCAAATCAAGAGCCATGCCCGCTTTGGCGGGGTTGTGCCGGAAGTGGCCAGCCGCCACCATATCGAAGTGATTACCCAGATTACCCGGGAAGCCCTGGAAGAAGCCAAGGTCAGCTGGGAAGATCTGGATGCCATCGCCGTAACCCATGGACCAGGCCTGGTCGGAGCCCTTTTGATCGGGATCAACGCGGCCAAGGCGGCCTCCATGGCGACCGGCCTGCCTTTGATTGGGGTGGACCATATCATGGGCCACATTTCAGCTGCCCAGCTGGTTGAACCGGTTGAGTATCCGGCCTTGGCCCTGCAGGTTTCCGGCGGCCACACCGAAATTGTTTTGCTGAAAGACCCGACCCACTTTGAAATCGTGGGCGACACCCGCGATGACGCGGCCGGAGAAGCTTACGACAAGATTGGCCGGGTCCTGGGGGTCAACTACCCGGCCGGCAAGACGATCGACCAGTGGGCCCACCAGGGTAAGGATACTTTCGGCTTCCCTAGAGCCATGATCGATGAAGATAATTACGACTTCTCCTTCTCAGGCCTCAAGAGTGCCTTTATCAACACCTGCCATCATGCTGACCAATTGGGGCAGGAATTAGACAAGTATGACCTGGCGGCCAGCTTCCAAGCGGCCGTGGTGGACGTTTTGGCTGAAAAGACCATGCGGGCCATCCGGCAGTACCAGCCCAAGACCTTCATCATGGGGGGCGGGGTTGCCGCCAACCTGGGCTTAAGAGAGCGGATGAACAAGGAGATCGCTGCTTTGGAAAAGGCACCGAAGGTTATCCTGCCGCCGCTTAAGCTTTGCGGGGACAACGCGGCCATGATCGCGGCTGCCGCTTACAACCAGTACCTGGCCGGTAATTTTGCCGACTTGACCTTGGACGCGGACCCGTCAATGGAACTGCCTTACGCTGAGGATTACAAGTAA
>LACTIS1119B1_05240 ribosomal-protein-alanine acetyltransferase
ATGGGACTATTCTTTAAAGCTGACCTGGTGCAGTTTGCCCCCCGGGCAATCAGCATCAGCGGCCATGAATACTGCTTAAAGAAGGCGGAGGCAGGCGAGCTTGCCCGCCTCCTTTTGCTGGAAAAGGAAGTTTATGCCGGCCGCCTGCCCTGGGACGGGGAAGTCTTTGCCGAAGAATTGCGTCGCCGGGATTCCTTATACTTGCTCTTGCTTGAGAGGGATTTTTTGGTCGGAGCCATCGGCTGCCGCTTCAGTCTCTCTAAAGCCCACATCACCTTTTTGGCGGTGATGCCGAAAGAGCAGGGGCAGGGGATCGGGAGCTACCTGGTTCAGACGGTTTTAGACTTGGCCAAGTCGGCTGACCTTAAAGCGGTCACCTTGGAAGTGCGGGTCGAAAACAAGAAGGCCCAAGAGCTCTACCGGCAGCTTGGCTTTGAAGACAATTTTGTCCGCAAGAACTACTACGATAATGATGACCGTCCGGACAGCGACGGTTTGAACATGATCTGCCATCTAAGAAAGAAGAACTGA
>LACTIS1119B1_05250 tRNA threonylcarbamoyladenosine biosynthesis protein TsaB
ATGAAGATTTTAAGCATTTCGACGGCAACGAGCGATTTGAGCGTTGCCTTGAATGAAGCTGACCACTTGGTCAGCGAAAAGATCGAGGAAAACCAGCGCAACCACAGCGTTGACCTTGATCCGGATATTGCCAGCCTGCTGGCAGAAAACGGTCTGTCTTTAAAAGACATCGACCGCTTCGCGGTGGCGATCGGGCCTGGTTCATATACCGGCCTCAGAGTCGGTTTGACCACGGCTAAGATGTTTGCCAGCATTTTGAATAAAGAGCTGGTTGGGGTCTCAACTTTACAGGCCCTGGCCCAGAACTTTGCCGGTGAAGATGCCTTGATCGTGGCGGCATTAGACGCCAGAAACAAGAACTTCTTTGCCGGTGCTTACCGGGGCAAGGAAGCCGTGATTGCAGACGGTCACTACCACTTAAGCGAGCTCTTAGAGCAAGTAGGGGCCCTGCCTGACCAGAAGGTGATTTTTGCAGGCAGCGACTTCAGCAAGTACCAGGAAGAAATCGCGGCAGGGCTGGCTGACAAGGACCTGCGCCTGGCTGAAGGGGAAGAGAACCTTCTGCACGCCGGTGCAATTGGCCGCTTGGCGGTAAGTGCTCCCGTCCTTGATCCGGACCAGGCCGTGCCGAACTATCTGCGCCGGACTCAGGCTGAGTATGACTGGGCAAAGAAGACCGGCCAGGAATTTGCAGCAGACAGTGCATATGTAGAAGAAGTTTAG
>LACTIS1119B1_05260 hypothetical protein
GTGAAAAGTGAATCAAAAGTCAGCAGCAAGCTGGAGCTGCGGGAGTTGGTCTTATTGGCCATGGTTATCGCCATCAAGGTGGTTTTGGGACAGTTTAAGGTCGGGGATGCCACCCTGCAGGTGGGCCTGGGCTTTATCGGCAGCGTCATGCTGGGCTACTTGTTCGGGCCTTGGTGGGGCTTTGCCGGCGGTGCCTTGAGCGACCTGGTTTCATCCGCAATTTTTGGCAACCTGGGCGGCTTCTTTATCGGTTACACCTTGACCGCGGCCTTGGGGCCGATGATCTACGGCTTCTTCTTGTACAAGAAGCCCATCCAGATTTGGCGGGTCATCGCGTCCGTAATCTTCGTCACGGTAATCTGCAACATCGGCTTGAACACCCTTTGGGTCAGCATGATGTACGGGACCAACTTTATGGTCGCCCTGTCCAGCCGGATCCTCAAGGAAATGATCACTCCATGGATTCAGATGGTCGTGGTTTGGTTTATCCTGGAAGGCCTGTCCCGGGTCAAGCTGAGTAGAAAATTTTAG
>LACTIS1119B1_05270 acyl-ACP thioesterase
ATGAGATACTACAAGGATTACCAGCTGGAATACGCTGACTGCGGGGAAAGCGGCCAGCTGAAATTGCCCAGAATGATCGACCTGATGATGGAAAGCTCTGAAAGGCAGCTGGCGCCAACTTTAGGCGGGGCTAGCGCCATGAAAGAGCGAGGCAGGGGCTGGGTAGTCACTCAGTACGAGTTTGAATTTACTAGCCTTCCCCGGGCCGGGCAAAAGGTTAGGGTCTGGACTGAAGCGGTTGGCTACAACCGTTTTTTGTCCTACCGGGACTTCGGCATTGAGGACGAAGCAGGCAAAGACCTGGTAATTGCCCACAGCCAGTGGGTTTTGTTTGATTTAAAGAGCCGGAAGCTTTTGCCCAGCGATGATAAAATCGCTGAGGAATTGGGAGCACCCCTTTTGGCTAAAATGCCCCGCTTTAAGAAATTGCGGCCAAAAGACGATTACAAAGACGAGAAGGTCTACCGGGCCTACTACTATGACCTGGACTCCAACCACCACGTCAACAACGCCCACTACCTGGACTGGATCGTCGACAGCCTTCCCCGGGACTTCATCAACAGCCATGAGCCGAAAGACCTGGCCATCAAGTTTGAGAAGGAAATTAAATACGGCGATGAGGTTGCCTGCCAGGTTATGCAGGAAACGGAAGACAGCGCTGTCAAGACCTGCCACGCCATTACCCGGCAAGGTGAACTTATGGCACTTTGTGAGGTAAACTGGCAAAAAATGTGCTTTAATAGAGACTGA
>LACTIS1119B1_05280 16S rRNA methyltransferase
ATGCTGGACCGGCTGGGCATTCACAACAAGATGGTTGCCTTTCACAAGTTCAACTCTAAAGAAAAGGCGCCGGAACTGGTCAAGTTGATGCAGGAGGGGGCGACAATCGCTGAGATCAGCGATGCTGGCATGCCGGTGATTTCTGATCCCGGCTATATTTTGGTCCAGGAATGCATCAAAAGCAATGTTCCAGTCGTTCCCCTGCCGGGCCCGTCGGCTTTTGCCACGGCCTTGATCGCTTCCGGCTTTGACGGACAGCCCTTTACCTACTACGGCTTTTTGCCCCGCAAGGCCAGCCAGCAGCGGCCTTTTTTAGAAGAAATCAATGCTTCAAGAGCTACCTCGATCTTTTATGAGGCACCCCACCGGCTATTGAAGACTTTAGAGCAAATGTTGGAAGTTTTGCCAGGCGGCCGGCAGGTCGTCTGTGCCAGAGAACTGACCAAGATTCATGAAGAATTCATCCGCGGCAGCCTGGAAGAAGTCATCCAGCACTTTAAAGAAGTCGACCCCCGGGGCGAGTTCGTCGTTTTGGTGTCGCCAAACACGGAAGAAAAGCCCCTGGACTGGGCTGACCTGGTCAAGCTGGTCAAAGAGCAAGTTGCCCAAGGCGTTTCTAAAAAGGATGCCATCAAGCAGGTGGCCAAGAGCCAGGGCGTTTCCAAAAACGAACTCTATGACCGCTACCACCAGGAGGGGGCAAAATGA
>LACTIS1119B1_05290 DNA replication initiation control protein YabA
GTGGACCCATATACTAAATTGCAGCAGCTGCAGCAGCAGATGGAGCGCATGCTCAAAAGCATGGACTCCCTGCAGCAGGAGATGCTGGAGAGCTTGAAGGAAAATACCGAGCTCAAGGTTGAAAACCAGCTTTTGCGCGAGAAGCTGGACAAATTGACGGTTAAAGAACACGAAGGCAAGAGCCAGAGCGGGATGGCCATGCTCAAGCAGATCTACCAGTCTGGCTACCATATTTGCAACATGTACTACGGAACCCACCGGGATCCCAGCGCGGACTGCATGTTTTGCCTGGATATTTTGGATAATTTTGGAAAGAAGGCGGTGCACAAATAA
>LACTIS1119B1_05300 DNA polymerase III subunit delta'
ATGCTGGATTTAAAGCAAATTGGCGCTTCTGAATCCCGGCAGCTCAAGCAAGCCCAGGACCGGGGTCAGCTGTCGCATGCCTACCTGCTCTTGTCAAGTGATGAGGCAGAAGCCTTAAACACGGCCTACTGGCTGATCTGCTACGTGAACTGCACGGGCGAAAAGAAGCCGGACGGGACCTGCCCGGCCTGCCGGCGGATTCTGGCCTGCAACCACCCGGACGTCTTTTTGATCGACACGGAAGAAAACAAGCAGTCGATCGCGATTGACCAGATCCGGCCGCTTAAGCAGGAATTAGCCAAGAGCCCTCTGGAAGGCGACCGGCGCTACTTCGTGATCAACCATGCCCAGAAATTGACCCTGCCGGCTGCAAACGCCATGCTCAACCTGCTGGAAGAGCCAGCGGCGCCGGTAGTCACCTTCTTGATTGCCAATAACGGCGGGCAGATTCTGCCGACGATCAAGTCCAGAACCCAGATCATCAATTTCAGCCAGCAAGCTGCTTCCAGCAAGGACAGGCTCCTTTTGGCCAACGGGATGAGCCAGGAAGAAGTTGACCAGGTGAAAAGCAGCCAGGAAGTCGACCAGGCGGTAAAATATTTTTACCAGGAGCTCCGCGAGCATGACTCTTTGGCTATCGTGTCCGCCCACCAGCTGGCGGACCTGGTTAAAAAGCAAAAGCAGGGGACCAAGGCCTGGGAGAAGTATGTCTGGATTTTGCTCAAGAAGTGGGGAGAAAAGGACCTGGAGAAGGGTGACTACCAGGAAGCGGCCAACTTTTTGGCGGACCTCATGCGGGTTGACCAGATGCGGCAGAGTAATGTCGGCTTTTTGAACAATTTGGACTATTTGGCCTTAAAGTGGCAGCAGTAA
>LACTIS1119B1_05310 hypothetical protein
ATGAAACTGATCATTGCCATTGTCCAGTCTGAAGACGCCAAGCGCCTGCAGGCGGCTTTTGTTGACAACAATGTAGGCGCCACTAAACTGGCGTCAACGGGCGGCTTTTTGCGCGAAGGCAACACCACCTTCTTGATTGGGGTGGAAGATGAAGACGTTGACGGCGTTTTGAAGCTGATCGAAGAGCATTCCCAAACCAGAGAAGAAACAATCAACCCTGGCATTCACCCTGGCATTTCCTTCGAGCAGCCGATTGAACCGGTCAACATCACGGTCGGCGGCGCGACGGTCTTTGTCTTGCCGGTTGACCAGTTCCTACACTTTTAA
>LACTIS1119B1_05320 thymidylate kinase
ATGCAAGGTTACTTTATCACTTTTGAAGGTCCCGACGGCGCCGGCAAAACGACAGTGATCAATGAAGTCGTCAAGGCCATCCAGGGCCAGTGCAAGCGGGAAATTTTAGTAACGCGGGAGCCAGGCGGGTCAAAAATCGCGGAAAAAATCCGCGACATCATCCTGGACCCGGCCAATACGGAAATGAATGCCAAGACCGAGGCCCTGCTCTACGCGGCCAGCCGGTCCCAGCATGTCAGCGAGATCATCAATCCGGCTTTAAAGCGGGGGGACCTGGTCATCTCCGACCGCTTTGTCGACTCTTCTTTGGCCTACCAGGGCCAGGGGCGGGGACTGGGAATTGATGAAGTAGCCCAGATCAACGCTTTCGCTACCGGCCACTTGGAGCCGGACCTGACCATCTTTTTGGATTTAGACCCGGCCCAGGGCCTGGCCAGAATCGCCAAGGTCCGGTCAGGCAGCGAAGACCGGCTGGAACAAGAGAAGCTGGTCTTCCATGAAGAGGTCTATCGGGGCTACCAAAAGGTCAACCAGGCTCATCCGGACCGGGTAAAAGTGGTTGACGCGAGTCAAGATTTGCCGCAAGTTGTGGCCGCAAGTGTTAAACTGGTGAAAAGCACATTTCCAGAATTGTTTTAG
>LACTIS1119B1_05330 hypothetical protein
ATGAGTAAGCACAGCGACAAAATCAAGCAAGCAGAAGATGAGAAGCTGATGGCTTTGGTAGAAAAGCTGCAGCAGGAAATCAGCCTTAGCAATGGTTTAGACAACATGACCCTGGACATGTCCGATGACAATATCGTGGCGGACAAGATTTTAAGAGCTGAGTATGCCTTTTTGTACGATGAGGCCCGCTACCGCCATGCTTCTTACACCGGCGTGACCAACGCCATTTCCCAATAA
>LACTIS1119B1_05340 recombinase RecR
TTGCAATACCCATTGCCAATTGCCCGCTTGATCGATTCCTTCATGAAACTGCCGGGCATCGGTGAAAAGACGGCGACCCGCCTGGCCTTTTACGCCATGGACATGCCTAAAGAAGACGTGGACGAATTCGCCCAGGCTCTGGTCGACGTTAAGGAAAAGCTGCGCCAGTGCTCGGTCTGCGGCAACATTACCGAACAAGACCCTTGCGCCATCTGCAGCAATCCAGCCCGGGACCGGTCAACCATCATGGTGGTTGAGGAAGCCAAGGACGTGATGGCCTTTGAAAATATGGGCGAATATGACGGCCTCTACCATGTCCTGCACGGGGTCTTGTCACCGATGGACGGGATCGGGCCGGAGCAGATCAACATCAAGTCCTTGATCGTCCGCCTGCAGAAAAATGATGCTGCCAAAGAAGTCATCCTGGCCCTTAATTCCACCCCGGAAGGGGAGTCAACGGCCATGTACATTTCCCGCTTGATCAAGCCGGCCGGCCTCAAGGTTACCCGGCTGGCCGCGGGCCTGGCGGTCGGCTCAGACATTGAGTATGCCAACTTGATCACTTTGAAGCGGGCAGTTCAAGGTAGAACGGAGCTATAG
>LACTIS1119B1_05350 DNA-binding protein YbaB
ATGAGCAAGAGACCAGCTTTCCCAGGAATGGGCGGCATGAACATGCAGCAGATGATGAAGCAAGCCAAGAAGCTGCAGGAGCAAATGGCCCAGGAACAGGAAAACATCACGACCCAGGAATTCACCGGCAAGGCAGCTGACGACATGGTAGTGGCTACTTTTACCGGCGACCGGACTTTAAAGAGCTTGTTTATCAAGCCGGAAGCCATTGATCCGGATGACCCGGACATGCTGGAAGACCTGGTTATCGACGCTGTTAACAAGGGCTTGAAGCAGATCGACCAGGCAACCCAGCAGAGCCTGGGCAAGTACACGAAAGGCCTGATGTAA
>LACTIS1119B1_05360 DNA polymerase III subunit gamma/tau
ATGGCTTATCAAGCTTTGTATCGCAAATGGCGCCCGCGCACCTTTGATGATGTGGTCGGGCAGGAAGCCATTACCGATACCCTCAAGAATTCACTTATCCGGGGCAAGGTCTCGCATGCCTTTCTTTTTGCCGGCCCGCGGGGGACGGGGAAGACCTCATGCGCCAAGATTTTTGCCAAGGCCTTGAACTGTTTAAACCTGCAAGAGGGCGAACCTTGCAACGAGTGCAGCAACTGCCTGGACGCCGACCAGGGGGCAATGCCGGACATAGTTGAAATGGACGCGGCCTCAAACAACAGCGTTGACGAAATCCGCGACCTTTTAGACAAGGTCCACTACGCCCCAACTGAAGGCAAGTACAAGGTTTACATCATCGACGAAGTCCACATGCTGTCGATTTCAGCCTTCAATGCCCTTTTAAAGACTTTGGAAGAACCGCCGGCCAGCGTCGTCTTTATTTTGGCGACGACTGAACTGCAGAAGGTGCCGGCCACCATCATTTCCAGAACCCAGCGCTACAACTTCAAGCGCTTCTCAAATGAGGCCATGGTCCAGCGGATGGAATACATCCTGGGCCAGGAAGGGGTCGAATATGAGGACAAGGCCTTAAAGGTCATCGCGCAAGTCGCTGACGGGGGGATGCGGGATGCCTTGAGCATTTTGGACCAGCTCCTTTCTTTTGAAAAAAGCAGTGTCCGCTACGAGGACGCCCTGGAAGTCACCGGCTTCGCCGCCCAGGAGCAAGTGGAAAAGCTCCTTTTGGCCCTCTTAAACGGGGACAGCCAGACGGCCCTGGATTTAGCTAAGTCTGCCATCCAGGACGGGGCCAGCGCTCAAAACATCTTAAATGAAATTATCAGCTTGACCGTCCAGGCCATGCTTTTTACCAAAACAGGACAGGGGGAATTCCTGACGGATGACTTTGCCCAGGAAATTGCCCAGCAAAGCCCGGACCGCTTCAGCCAGATTATTGACCAGGCTAATGACGCCTTGGGCAGTCTCCGCTTTACCAACCAGCAGCAGATTCCCTTGGAAGTCTTTTTAGTCCAGGCCAGCCAGAAGCGGCAAAACAGCCAGGCAGGCCCGCAAGTTGCTTCCGCGGCCAGCAACCCGGCCATAGAGCGGCAGATCAAGGCCTTGAAAGAACAAGTCCACCAGCTGACCCAGCAGGTTCAGCAGCTGAGTCAGCGGCCAAGCCAGGCCTTCAGCCCCCGCCATGTCTTCCAGCTCAACCAGCAGCTGTACACGCAAAAGGGCGGGGCAACCGAAGTGGCCCAGCAGGCGGCGGAAAAGCAGCAGCAAGCCGAAAGCCTGCAGGCTGAAATCACCAGCAGCCAGGAAGAGATCTACGCGGTCTTAAGACAGGCCACCAAGTCCGGCTTAGCTGAGGCCCGCAACCTTTGGGACCGCGACTTGCCAAGCATGCTGGAAGAGCCGGCCAAGACGGTCTTGGGCTTCCTGCAGCCGATCGCGGCCAGCGACCGGGCGGTTCTTTTGTCCAGCCAGTCCCGGGCCTGGCAGCTGGCCACAAATCCTCAGGAATTTTTAGCAACTCTCAAAGCTGACCTGGATCAATTGACCAAGGAGAGCTGGACCATCGCCATCGTTGACGAAAAGGCCTGGCCAAAGATCCGCCAGGAATTCATTAAAGAACATGCCAGTCAGCTCCGGGCCAAGGCCCAGCCAGCAGGAGCCCCGCCGGCAGAAGAAGCAGCTCCTGAGCCGCCTTTGCCGGACCAGGCGCCGCCGGAAGAAGCGGCAGATGATGCGATCGTGACCAAGGCAGAAGAGCTTTTCGGCCCTTTGGCCCAGGTTAAGGACTAA
>LACTIS1119B1_05370 deaminase
ATGTATTCAAGCGAAGAAAAAAAGACCTACATGGAGGCCGCCTTTGCGGAAGCAGAAAAGGCCCGCCGGCAAGACGAGGTTCCCATCGGGGCCGTTGTCGTGGGGCCAGACGGGCAGATTATCGGCCGGGGCTACAACCGGCGGGAGCTGGATGAAGACGGGACAGCCCATGCCGAAATTCTGGCTATTAAAGAAGCCTGCCAAAAGCTAGACTCCTGGCGCCTGATCGACTGCAGCCTGTTTGTCACCCTGGAGCCTTGCGCCATGTGTGCCGGAGCCATTATCAACTCCCGGATCAAGGAAGTCTACTTTGCGGCCATGGACCCCAAAGCTGGCGCCGCCGGCAGCGTGGTCGACCTCTTCAGCGTGGAAAAATTCAACCACCATCCCAAGGTCATCCGGGGTCTTTACAAGGAGCAAGGGGCCCAGCTTTTGAAAGATTTCTTCCGGGAAATCCGCCGCAAGCAAAAATTAGCAAAAAAAGCCCAGGAAAATTGCCAAAAGGATTAG
>LACTIS1119B1_05380 16S rRNA methyltransferase
ATGGCTGAACAATACTTTACTGAAAATCCCACGGTTGACCATGATGAGCACCATGTCAACTACCGCCTTAATGGCATTAACTTAAACCTGACCACGGACGCCGGTGTTTTTTCCAAAAACCGGGTCGACTACGGCAGCGGGCTCTTGATTGAGCAGATGCTGGACCAGGAGCTGCCAGGCGGCAATATTCTGGATGTCGGCTGCGGCTATGGCCCGATCGGTCTTTTCGCCGCTAAAAAGTGGCCCGGCCGCCAGGTCGACATGGTTGACGTTAATGAACGGGCCATGGACCTGGCCAGAAGAAACGCGGCGGCCAACGGGGCAGGCAACGTTAATATTTTTGCCTCAGACCGCTATCAAGAAGTTTCCGGCCAATATGCCATGATCGTGACCAATCCGCCGATCCGGGCCGGCAAAGCCATCTGGTCCAGCATTTTGTCAGAAGCTAAGGACCACTTAATTGATGGCGGGATTTTGCTGGTCGTCATCCAGAAAAAGCAGGGGGCACCGAGCGCGAAGAAGCTGATGGCAGCCAGCCTGGGCAACTGCGAAATCTTGACCCGGGACAAGGGCTACTACATTTTAAAGAGCGTGAAGAAATAA
>LACTIS1119B1_05390 uracil phosphoribosyltransferase
ATGAGCAAACAAATCATGGATGAAGCGGGGATACGCCGGGCTCTGACCAGAATGAGCTACGAAATCGTGGAAAGAAACCAGGGGACGGAAAACCTGGTCTTAATCGGGATCAAGACCCGGGGCTGGTACCTGGCCCAGAGAATCGGTGATCGCCTGGCCAAGATTGAAGACAGCCAGCTGCCAGTCTTGTCTTTAGACATCTCCGCCTATCGGGACGACCTCAGCCAGGAGGAAAAGGCCAAGGCCATTGCCAGCTTTGACACTTCCTTTGACTTGACTGGCAAGACGGTCATCCTGGTTGACGACGTCCTTTACACTGGCCGGACCATCCGGGCAGCTCTTGACGCCATCATGGACCAGGGCCGGCCAGACAAGATCGCTCTGGCGGTCTTGATCGACCGGGGCCACCGGGAACTGCCGATCCGGCCGGACTTTATCGGTAAGAACATCCCAACCGCGGCCAGCGAGGACGTCCAGGTCCAGGTCAGCGAAATCGACGGTACTGACGCCGTAAAGATCAGCGAGGCATAA
>LACTIS1119B1_05400 hypothetical protein
ATGAGCCGACTCAATTCTTATTTCTACGATATCGAATCTTTGACCAACGCCTTTACCTTGTCCTGCTACCGGCCAGACGACCAGCGGGTTGACATCTATTACCTAGTTGATGATCCGGCCTTAAATGACAAAGACAGCCTGGACTTTAAGAAGTCTGCTGCCCGGCGGATCCGGGAGAAGAACCAGAACTTTAAAGGGGAGATCTACTACTACAATCTCTGCTCAAGTGCAGCTTCCGCCCGTCTGGCCCAGACCTTTGGGGTTTCAGATGCCCAATACGTCAATGATCCCCAAGCCCCGTCCTCTTTCCCTGGCCAGTTCCGCCCGGTCTGCGACACTGACGCCGGCTACCAGGAAGAAGAAGCGCCCTACCTGATGGGCTACAATTCCAGCAACTACGACTTGACCATGCTGGCCTACTACTTTACTAGAGCCTGGCAGCCTGGCGAAAGCGGCAAGCGGGACCGCTTTTCAGCCGTGACGGCCAGGGAGATGCGGGACTTTAACGATGAGCTCTTCAGCCGCTATATCGGCAATATGCGCCTGCGCCTTTGGCAGGACAAGACTATGGGTTTAGTTGCCAAAAACTTCCAGATGTCCGGCCGCCATATCGACGTGGCCCAGCTCAATGAGCGGCAAAGACGGGTTGGCCTCAAGCGCCTTTTGGGGATGCTGGGCTGGCAGATTCTGGAAAGTGACAAATTAAAGCCTGGCCAGGACTATTTGACCAGTCCTGAAGAACTGGCAGATCTCATTGCCTACAACGTTTCTGACGTGGTCAATTTAAAGGAGCTTTTCTGCCATCCTTACTACCAGGGCCAGTTTATTTTGAAAAAGGGCCTCTTGGGCCAGTACCCGGACTTGATCTACCAAGAAGACGGGGACAGCTACCAGGCGAAAATCGGCCCGGCCTTTGTCAGAAAAGACCGCTTGACCATCGATTCTTCTTCTGCTAATTTTGCCCGCCGGACCATCTGCCCATACGGCCGCTTAAAAGACGACCGGGCTGTTTCCTTCTTGTACCCGGCGGCCAGCGTGGCGGAAAAAACGGGCGAAAAGCAGAGAGACATCTTGGAAGAAAGTCGGGACTTTTTCTACAAGCTCTTTGAGGACGAAAACTTACGCAAGAAGTTCGACCGGGTTTATGACTACTACAAGCAGTTTGCCGGCAAGAACTTCAATCCTTCAAAAGAATACCGGGAAGATTACGGCGACCAGGCCCTGCCGGTCAGCGACTTAAGTGATGTCGAAAACGAAGATACCAACCTTTTCTACTACCAAAAGGACGGCCAGCCATCGACTTGCTACATTACTTTTTCCGTCGGCGGCCTGCATGGGTCAGAATATAACCGTGACCTTTATTTAAAAGACTATGCCCTTTGGGAGAAAAAGCAGGCTGACCTGGCTTATGTGCAAAAGCTTTACCCAGACCCTTTGGACTTGCGTAAGGCCAGAGAAGTTACCCTGCCAGACGGCCGGGTGGAAAAGTACCAGACTTTTCTGACTGCCAAAGCAACGATCAAGCTGATGGAGCAGACGGATCCAGCCGACCGGGGGCAGTTTTGGCGGGACTTCAGTCAAGATGAACCAACCGTTTTCAAAAAGCAGGGGAGCCGGGTCCGACTGGATGACCGCTATGCCTTTACTTCAAGCGACCTGACCAACCACGAGGACTTTACTTCCTACTATCCAAACATGCTCCGGCGCTTGAATGCTTTTTACAATGACCGCTTAGGTGAAGACCGGTATACGGCGATCTTTGAAAGAAAGCAGGAATTGGACAAAAAGCGGACTGATCCCCAATACAGCGACGAAGAGCGGCGGATGTTCAACATTGAAAGAGAAGGGACCAAGCTGATCTTAAACTCAGCTACCGGGGCTGCTGACCCAAGAGAGGGGCAAGTGCCGTCCTCTATTAGAATGAACAACCGGATCCGGTCCATGCGGATCATCGGACAGCTTTTCACTTATATGATCGGCCAGGCCCAGACCTATGCCGGAGCCCGGATCGTGTCAACCAACACTGATGGCCTTTACTCAGTTTTGGACGCGGACTTAAACCGGAAGATCTTGGCTAAAGAAGCTGCTGAAATCGGTGTGGAAATCGTCCCGGAAGAACTCTACCTGGTTTCAAAAGACTCCAACAACCGCCTGGAAGCCAGCCCGGACTTGACCAAGATCCTGTCTGCCTCAGGCAGCCTGGCCTGCCGGAAGGACACCAGCCCGACCAAGTCCCTGGCCCACCCGGCCATCATCGACTGGGCCCTAAGCCGCTACCTGCTGGAAAAAAGAACAGACCTGGCAGCGCCTTTTGACCGGGATCTGGGCCGGCAGATTCTGGCGGAAGCTGAGGAAGCCTTCCCAGACCCGGCCCACCGGCTCAGAATGTTCCAAAACGTCCTCTCAGCCAACCACAGCAAGGAGCGGGCTAACTGCATTTTCGGCCGGGGGGATGCCGGCCAGCTCTTAATCTTGCAGCGCTACAACCGGGTCTTTATCTATCAAGACGGCCTGCCGAAGACGGTTCACCTTTATTCCGCCGCGGCTAAAAAGCTGACCCCGGCCATGCTGAACAAGCGCAAGAAAAGCGGGGAGGCCGTGATCCAGCATGACCAAGAAGCCCTGTCCGTCCTTAAGGCTAACGGCCTGGGCAACTTGGCAAAAGGCCGGGAGGCTACGGTCCAGAAAATTCCTAATCTGTCACCTGACTGGTTCATGCACGTGGAAAACCGGGCCGTCAACTTACTTCAAGCTGAAGAGCAGGAAGCAATTTTGCATTCGCTTGACTATGACAAGTACCTGGACCTGGTGGCCAGCGCTTATGAAAAGAACTGGCGGAATTTGACTACATCCGGGCCAGTCCTATAA
>LACTIS1119B1_05410 hypothetical protein
ATGACGAAGAGCAAAGCCAGTAAGGCTTACCGGCGCGCCCGCCGCAGCCGTCTGCTGGCTTGTCCCAGCGGCAAGCGGGCCTTTAAGACGAAGTTTGATGCCGACTTGTTCCTTTACCAGGAAGAGGTGACCGTTCACCTGCGTGAAATCAACCATGAGCACTGGCGGCAGATGCCGATTCGGGCTTACCGGTGTCCTTATTGCAAGAATTATCATGTAACCTCAATGTCGCTGGAGCGCTATGAGCAGCTGCACGGCAGGACAAGGGAGCGGACCTGA
>LACTIS1119B1_05420 hypothetical protein
ATGCACAGTTCAGCCGTTTACAGCAAGAACTTGAAGAAGACCACTTATTCTGTGGCTGAAGGCAAGAAGATCCTGACTTTTGGCCGGACGACGATAAAGAATAAGAAGTACTACCAAACTGGCTACAACTCCTTCATCTCTGCTTCCAACGTTGACGGGATGACCCGGACCTTGAAGCAGACTTACGGCAGCGCCGTATCGATCAAGGGCAAGAAGTACTACATTATCGGTGTTGGCAAGTACGTGACCAAGTCTGACTTCAAGCAAAATGCAAACAAGTTGATCGCAGTAAGAAATGCAGGTCCTTTGCGGACCTGCATTTTAGTTTTTCTTTAG
>LACTIS1119B1_05430 beta-N-acetylhexosaminidase
ATGTCTTCACTTAGTCAAAAACTGGCCAGCCTTTTCCTAATCGACAGCACTGGCGATTTTACTGAAAACCTCCGCCTTTTGGAGCAGTACCAGCCAGCCGGCCTCCTCCTCTTTGCCAAAGACCTGGCGGGCCTAAGCGAAAAGGCTGTTAAAGAGCGGCTGGCGATTTACCGGCAGGCCCGACCAGGTTTGCTGCTCGCCATTGACCAGGAAGGCGGCTTAGTCAGCCGCTTGTCCGCCCTTTACCCAAACCGGTCTTACCCCAGCCAGGCTGAACTTTTGAAAAAGGGGGCTGACTTTTTCTTAGCAGAAAGCCAAAAGACGGCCCTGGAATTAAAAGATTTAGGCATCAACTTGAACTTTGCTCCGGTGGCTGATCTTTCGCTTGATCCGGCCAGCTTCATCTACAGCCGGACCCTGCAAGCAGGAGCTGAGGAAACCGGACCGGCAATCGCGGCCTTTATCAAGCTCTACCGGCAGCTGGGAGTCGCCTCCTGCGCCAAGCATTTTCCTGGCTACGGGGATGCCGGCGACACCCACCAGGCTCCGGCTAAAGACCTTAGAAGCCTTAAAGAAGCCCAGCTGGATCTTTTACCTTTTAAAGCTGCGATCGCGGCGAGCGTGCCGACTATCATGGTGGCTCACTTGGAAGTTGCCTGCTATAGCCCTGGCCCTGCTTCCCTCTCCCCGGAAATCTACCGCCTGCTCAAGGAGGACCTTCATTATTTCGGCGTGGCCATCACCGACGACTTAGCTATGGCGGCGGCGCGAGAGAGCAGCTGCCCGGAACTTTTGGCCCTAAAGGCCGGAGCCGACCTCCTTTTAGGCGGCAAATTGGAAAACTTACCAATTTTGGAAGCAGCCGCAGAGAGCGGTGAATTGCCAAAAGAGCGGATCAAAGACGCTCTGGTCCGGGTCCAAACCCTGCAGGACGATTATTCTCTTTAA
>LACTIS1119B1_05440 hypothetical protein
ATGCCAAAAATATTTAAATACACCGAAAACCAAATTAATGAGCTCAAGACAACCTTCGAACACCACGAAAATGCGCGTGCAATTCGTCGCGTTCAGGTGGTCTTGCTTCGCGCCCAAGGACACTCAATCAAACAAGTCACCGCTGTAACTGGTGCCAGCAAAGCTAAAATATCTCCGCCGATTGTAAAATTAAACTGA
>LACTIS1119B1_05450 glycine betaine/carnitine/choline ABC transporter permease protein
ATGGCTAACATGGATACTTGGCAGCAATTCTGGTATTACCTTGCCAACAATGGTTCCTACGTGCTGAGTCAGTTCGCCCGCCATTTTCTGATTTCGATCTATGGGGTGCTCATCGCAGCGGTGATCGGCATTCCGGTTGGGCTGGCAATTGCGCGCCATCGCACCTTGAGTAACACAGTCATCGGCATCGCCAACGTCATTCAGACCATCCCCAGCCTAGCGATGCTTTCGATCATCATGCTGGGACTCGGACTTGGCGTAAACACCGTCATTGTCACGGTCTTCTTATACTCGCTGCTGCCAATCATCAAGAACACTTACACCGGCATGCAAAATGTCGATAAGAACCTGATGGATGCGGCTAAAGGCATGGGCATGACCCGCTGGCAGTCACTGTATATGGTCGAAATCCCCTTAAGCATGTCGGTCATCATGGCCGGGATTCGTAACGCTTTGGTCGTCGCCATCGGGATCACCGCAATCGGCGCCTTCGTCGGAGCTGGCGGCCTGGGCGACATCATCATCCGCGGCACCAACGCCACCAACGGCGGAGCCATCATCCTCGCCGGCGCGTTGCCGACAGCGCTAATGGCCATCATCTCCGACCTCGTCCTCGGCTTCTTGGAACGCCGACTCGAGCCGAAAGGAAAGGCTGCTTCATAA
>LACTIS1119B1_05460 glycine betaine/carnitine/choline ABC transporter substrate-binding protein
ATGAAACAGTTCAAAAAATTATTCCTGTCACTTTTGCTGATTCCGGTTCTCTTGTTGAGCGGCTGCGGCTTTCCTGGCTTAGGCAGCTCCGGTAATGACGGGACGGTGCGGATCGCCTCGCAAACCAGTACCGAGTCGCAGATCATGGCCAATATCATTGCCGAACTAATCAATCATGAGCTAGGTTACAAAACCACGTTGGTCAATAACCTCGGCTCCAGCACCGTGGTGCATCAAGCCATGGTCCGCAACGATGCCGATATTAGTGCTGCGCGTTACACCGGCACCGAGATTACCGGCACATTAGGCATGAACCCGGTCAAGAACTCAGCTAAGGCCACCGCCATCGTCAAGCGCGAGTTCAAAAAGCGCTACGATCAGACCTGGTATCCATCTTACGGCTTTTCTGACACCTATGCCTTTATGGTGACGCAAAAAGAAGCCAAAGAAGACAATCTCAACACCGTTTCCGATTTGAAGAAAGTCGCACCGCAATATAATGCCGGCGTTGACTCCAGCTGGATGAACCGGAAAGGCGATGGCTATAGCGATTTTACTAAAGCATATGGCTTTGACTTTAAGCGGGTTTATCCGATGCAGATTGGTCTGGTTTACGATGCCGTTGAAGCAAACCGAATGCAGACAGTTCTTGGCTATTCCACTGATGGACGGATTCGCAGTTACAATCTGAAAGTACTGAAGGACGACAAAAACTTCTTCCCGCCTTATCAGTGCTCATTGGTCGTTAATAATAGCCTTTTGAAGAAATACCCTAAACTAAAACCGTTACTGCATCGCTTAGACGGCAAGATCAACCTGAAAACCATGCAGGAACTCAACTATCAAGTCGACGACCAGTTACTTGAACCAAATGTGGTCGCGCAAAAGTTTCTTGCCAAACACAACTATTTCAAAGGAAGTGACGACTAA
>LACTIS1119B1_05470 glycine betaine/carnitine/choline ABC transporter permease protein
ATGTTTGCTTTTTTAAACGCACATGGCAGTGAACTGATCACCAAAACCTGGGAACAGCTTTACATCTCGGCAATTGCGTTAGCTCTTGGGGTGATCGTCGCCGTTCCGCTGGGTATTTTGCTGACGCGTTTTCCTAAGACCGCTAAAGTCGTGATCGGTATTGCCAGCATGCTGCAGACGGTGCCATCATTGGCGTTGTTGGCCTTGATGATTCCTTTATTCGGGATCGGAACAGTGCCAGCTATCGTTGCACTGTTCATTTACTCTTTGTTACCGATTCTGCGGAATACGTATATCGGTATGGAAGATGTCGATCCGGTGTTAATAGACGCGGCTAAAGGTATGGGCATGACGGCGATGCAATCGATTCGGCAAGTCGAAGTGCCTTTGGCGATGCCGGTGATCATGGCGGGCATTCGCTTGTCAGCTATTTATGTCATTGCCTGGGCAACCTTGGCTTCGTACATCGGGGCTGGTGGCCTTGGGGATCTGATCTTCAACGGTTTGAATCTCTTCCAGCCGGATCTGATTATCGGCGGCACGATTCCTGTTACCATTTTGGCACTGGTCATTGACTGGTTGCTTGGGCGGTTGGAATACCACCTGACACCTGTCAGTGAACGCACTTAG
>LACTIS1119B1_05480 glycine betaine/carnitine/choline ABC transporter ATP-binding protein
ATGCCAGAAGAACAACCAATGGTCCAGTTCAAGGACGTTGAAAAAGTTTATCGAGGCGAGAATGTCGCGGTCGAACATATCGACCTTGAGATTCATAAGGGCGAATTTGTTTGTCTTATCGGGACGTCGGGTTCCGGAAAGACAACCACGATGCGCATGATTAACCGCATGCTGGAACCCAGCGGCGGCCAAATCCTGTTTAACGGCAAGGACATTCACAAAATCGATGCCGTCAAATTGCGGCGTCAAATCGGCTATGTTATCCAAAACATTGGCCTCATGCCGCATATGACCATTTATGAAAACATCACCATTGTCCCGAAGTTATTGAAGTGGCCGGAAGAAAAGCGACGCAAGAAAGCTAAGGAGCTGGTGGACCTTGTTGAATTACCGGAAGATTATCTGGATCGCTATCCATCCGAGCTTTCCGGTGGCCAGCAACAGCGAATCGGCGTTATCCGGGCGCTTGCTGCGAATCAGGATCTGATTTTAATGGATGAACCTTATGGCGCTTTGGATCCGATTACCCGTGAGGCTTTGCAGGAACTGATTAAGAATCTGCAGGAGAAGCTTGGTAAGACCGTGGTTTTTGTCACGCATGATATGGATGAAGCGCTCAAGCTCGCAACCAAAATTGTGGTGATGGACCACGGGCATATCATTCAAAATGCGACTCCAACCGAACTGTTGACGCATCCAGCGAACAAATTCGTTGAGAACCTGGTCGGCCAGGATCGATTGGTTCGGGCGCGGGCTGATGTGACCACCGTTGAGCAGATCATGCTGAAGAATCCTGCAGCGATCACGCCAGGCAAGTCACTAGCTGAAGCGATTTCCCTAATGCGTAAACGTCGCGTTGATACGCTGTTGGTGACGGATGATGAAAATCATCTGAAAGGCTTCATTGATTTGGAATCGCTGGGAACCCGGTATCAAAGTGCTACTAGCGTTGGCGACATTACCAAGTCGAGTATCTTCTATGTGAATAAGAACGCTTTGCTGCGCGATACCGCTGATCGCATTTTAAAGCGCGGTTTCAAGTATGTGCCGGTGGTTGATAACGATCAGAAATTGGTCGGTATTGTCACCCGTGCTTCATTAGTTGATGTCGTTTACGACACCATCTGGGGCGAAAATGAAGACGATCAAGCCAGCGATAGCGCCAAAGAGTCGGCAACGCCTACCGATCAGGAACCGGCAACCGATTCGGCAGCGGCAGATGACCGAGACGCACCTAAGGAGGTGTGA
>LACTIS1119B1_05490 hypothetical protein
ATGTTCATGTCAGTTGAGAAGCGAGATGATGAAGATGATAGGACAATAGGCGAGATCTTTTATTGCATGGTAGGCGAGCTTGCGGACATCACTTTCAATCACTCCCTACAAATCCTGGTGGAAGCCATGTTCGAGAGTGTGAAAGAGATCTTCCAACCGACAGAAGAGCAGATGGAAAGGTTCACCGACGCTTTCATTTCCCGCCTCCCGAAGTACATGCAAGAGGCTATATCGCCATCACTAGCAGCTTAA
>LACTIS1119B1_05500 DNA-binding protein HU
ATGAACAAGACTGAACTTGTCTCAGTTGTAAGTGAAAAGACTGAATTCAGCAAGAAAGAATCTGCTCAAATCGTTGACGCTTTGTTTGCATCAATCGAAGAAGCACTTGCTAAGGGCGAAAAGGTACAATTGATCGGCTTTGGGACTTTTGAAGTTCGTGAACGCGCTGCTCGGAAGGGCCGCAACCCGCAAACTGGCGCTGAAATCGAAATCCCTGCAAGCAAGGTTCCAGCCTTCAAGCCAGGCAAGGCCCTGAAGGATGCCGTTAAGTAA
>LACTIS1119B1_05510 hypothetical protein
ATGAAGTCGTTGACTTCGGGGCCGGCAATGAAGAGCGACCTGTCAGACTTTGTCTACCCAGCCAGTCTGGCTGTGGCCAAGGGCGAATGTGACCGGGGCATTTTCGTTGACGGGGTTGGTTACAGCAGCGCGTTGATCGCCAACAAGATTAACGGCATTTACGCCGCGGTCTGCCAAGATCCTTTCTGTGCCAAGCTTGCCCGCCAGCACACCGACTCCAACGTCTTTTGCTTAGGCGCCAAGATTATCGGGGACATGATGGCCGGCGAAATCGTCAAGACCTGGCTGAACACGGATCCTTTTATGTAA
>LACTIS1119B1_05520 50S ribosomal protein L7/L12
ATGGCTTTGGATACTGCTAACATCATTGAACAATTGAAGGGTGCTTCAATTCTTGAATTGAACGACCTTGTACACGCTATCGAAGAAGAATTCGGCGTTACTGCTGCTGCTCCTGTAGCTGCTGCTGGTGCCGCTGGTGGTGCTGAAGAAGCTAAGTCAAGCTTCGACGTTGAATTGACTTCAGCAGGTACTGAAAAGGTTAAGGTTATCAAGATCGTTAAGGAAGTTACTGGCGCAAGCTTGCTGGACGCTAAGAAGACTGTTGACGGTGCTCCAGTTGTTCTTAAGGAAGGCTTGTCAGAAGACGAAGCTAACGAACTTAAGGCTAAGCTTGAAGAAGTTGGCGCAACTGTTACCCTTAAATAA
>LACTIS1119B1_05530 50S ribosomal protein L10
TTGAGTCAAGCTACTATCGCTGCTAAGGCTAAGTTCGTTGAAGAATTTGCAGAAGAACTTAAGTCAGCTAAGTCCATCGTAGTTATCAACTACCTTGGTTTGACTGTTGACCAAGTTACTGCGTTCCGTGCCGAATTGCGTGAAAGCAACGCCAAGATGAAGGTTGTCAAGAACACTTACCTTCGCCGCGCTGCTGCTCAAGCCGGCTTGGAAGATTTGGCACCAGTATTCGTTGGTCCATCAGCTGTGATCTACACTGATGATGAAGACAATGTTACTGCACCTGCCCGGATCGCTGCTGACTACGCTAAGAAGTTCGACGTTGTTGAAATTAAGGGTGGTGCACTTGAAGGTCAAGTTGCTACCAAGGAACAAGTCGAAGAACTGGCTGCAATTCCAGGTCGCGAAGGTCTGCTTTCAATGCTTCTTTCTGTATTGCAAGCACCTGTACGCAACTTTGCATACGTTGTTAAGGCTGTCGCTGAATCAAAGGAAGAATCAGCTGAATAG
>LACTIS1119B1_05540 hypothetical protein
TTGAAGAGTAAACTGATCGACATTTTCTACTTCTTCTTAGCCGGCATTTCCGGCACCCTGGCCGTCTTCAGCATATTCAAGGACCATTCCGCCGCTAGCATCGCCATGGACGTCTTATTCCTCATCATCAGCGCCTACTTCATTGTCCGCGGCTTCCTGGACATCGAATCTGAAAACAAGAAGCTGAGCAAGAACTGGCAGATCCTCTCCTGGATCGCCTGGTGCCTGCTCCTCTTGGGCGTCATCTTGACCTTGACCGGCTACAAGCTGGGCATCAACGGTCTGGGCTGGGGCGGCTTCGTCCTCTTCCTGCTCTGCTCTTTCATCGTGCCTGAACAAGCAAACGACAAGAACTTCCACGTCAACCGCCGGGACGAGACCGGTTTTGATGACAAAAATTAA
>LACTIS1119B1_05550 ammonium transporter
ATGAACACAGCCAACACCGTCTTCTTAATTATCGCCGCCGTCCTGGTCTTGATGATGACCCCGGGCCTGGCCTTTTTCTACGGGGGTTTGGTCTCGAAGAAAAACGTGGTCAACACCATGATCTCGGTTTTTATCATCTGCTCTTTAGCCATCGTCTTATTCGTGGCCTTTGGCTATGAACTTTGCTTCAACGGCAATGTAGCTGGAATTTTTGGCAGAGTCCAGCACATCTTCCTCTCCGGCAGTGACTTGACTAAGGTCGTTTTAAAAGAGCAGGGAATTACCGCCGCCAGCTACCTGCTTTTTGAAATGATGTTTGCCATCATCACCCCGGCCCTCTTCGTCGGGGCCACGGTGGGCCGGATGCGGTTCAACTTTCTATTGGTCTTCGTCTTCTTCTGGTCAGTGTTGGTCTACTACCCCCTGGTCCACATGGTCTGGGGGAGTGGCGGACTCTTAGCCGGCTGGGGGATCCTGGACTTTGCCGGCGGCACGGTCGTTCACATCAACGCCGGGATCACCGCCCTGGTCTTATCCATCTTCTTAGGGCCCCGCTACCAAAAGCAGACCCGGCCCTACAGCCTGCCCTGGGTCCTCTTGGGGACAGCCATCCTCTGGCTAGGTTGGTACGGCTTTAACGCCGGCAGTGCCTTCGGCATGAACCAAACGGCCTTGACGGCCTGCTTGACCAGTACGGTTGCGGCAGCGGCCTCTATGATGACCTGGCTTTTGCTGGAAGAAGCCTTTAGCGGCAAAACCAGCCTAGACGGGATCTGCACCGGTACCCTCTGCGGCTTAGTCGGCATCACGCCAGGGGCTGGCTATGAAACCTGCGCTGGAGCCCTCTTCACCGGTATCCTCTGCAGTCTGGCCAGCTACTTCTTTATCAGCCATGTTAAAGGACGGCTTAGCTTTGACGACCCCCTGGATGCCTTTGGCTGCCATGGCATTTCCGGTATCGTTGGCTCTTTAACCGTCGGCCTCTTTGCCAGTCAAAAAGTTGACCCGGGGATTTCCACTAGCGGCCTTTTCTACGGAGGCAGCTGGGAACTCTTAGGCAAGCAGGCAGCCGGCACCCTCTTCACCATCGTCTTTACTCTCTTGATGGTCAGCTTAATTACAGCCGTCTTGAAGCGCTTCGTCAACATGCGGGTTTCCGCCCGTGATGAAGAAGTCGACCTGGACCTCAGCGAGCACGGCGAATTCGCCGACTGCCAGATCAGCGCAAGCCAGGCCATCTTCGGCAAGTAG
>LACTIS1119B1_05560 glycosyl transferase
GTGGAAAAAATACTAACTCTCATCGTTCCCTGCTATAACTCAGCTGAATACTTGAACCGCTGCGTCGACTCCCTTTTGCCCGGCGGTGACCGGGTGCAAATCATCTTGGTTGACGACGGGTCAACTGATGAAACCGCCCGGATGCTGGATGACTACCAAGCTAAGAATTTAAACTTGGACCTGGAAGTTGTCCACCAGGAAAATGCCGGCCACGGCGGGGCCATCAACAATGGCCTGAGACTGGCCAAGGGCAAGTACGTCAAGATCGTCGACAGCGACGACTGGCTGGACCAGGAGGCCTACAAAGAGGTGCTGGATTACCTGGAAAGTAATCCAGAGGTCGACCTCTTTTTGGCCAACTATGTTTATGACAAGCCAGCTGCCGGCCGCCAGCGGGTGATCAAGTTCCCGCATCTGCCGGTCGGGCGGACCTTCTCCTGGGATGAGGTCAAGCTGCGGATGGGCCAGTACTTCATGCTCCACTCCGTCATCTATAACCGGAAAGTCCTGGACCGGGCCAAGGTAACCCTGCCAACCAAGGTGTCTTATGACGACAATATCCTTGTCTTTGAGCCGATGGTGCAGGTGCAGACCATGCGCTACCTGCCGGTCAACCTCTACCACTACTTTATCGGCAGAGATGACCAGTCAGTCAACGAAAAGGTGATGCTGAAAAAGATCGACCAGCAAATCTTGATCAATAAGCAGCTGATCGTCTTCTACGCCTCCCAGGTCAACAAGCGGGCGCCTTACGCCAAATACATGAAATACTTCTTAGAGGCCGTCACAGGCGTGACTAGCGTCATCTTGATCCGGGGCAAGAAGAAGGAGTATATTGCCAAAAAGGACGAGCTCTGGCAGTTCCTGAAGACTTATGACCTGGAGACCTACAAGTCCTTTAAACGCCGCCTGGTGGGCCATTTTGTCTCCCGGGACGTCCTGCCTATGCGGCAGATGGTCAGCGGGGCCTACTTGATCCTGCAGCGGTTGTATTCGTTTAATTAG
>LACTIS1119B1_05570 50S ribosomal protein L1
ATGCCAAAGCATGGTAAGAAATACGTAGAAGCTGCCAAGAAGGTTGACAGCAACAAGTTGTACTCAGTAGAAGACGCTATCAAGCTGGTTAAGGAAACTTCATACGCTAACTTTGACGCTTCCGTAGAAGTATCTTACAACTTGAGCGTTGACCCTAAGCAAGCTGACCAACAAATCCGTGGCTCAATCGTTTTGCCAAACGGTACTGGTAAGTCTGTTAAGGTTATCGTATTTGCTGAAGGCCCACAAGCTGAAGCAGCCAAGGCTGCCGGTGCTGACGAAGTCGGCGCAGACGACCTGGTAGAAAAGGTTCAAAACGGTTACCTGGACTTCGACGTTGTCATCGCTACTCCAATGATGATGGCTAAGGTTGGTCGTTTGGGTCGTGTGCTTGGGCCTAAGGGCTTGATGCCAAACCCTAAGACTGGTACTGTTACTATGGACACTGCCAAGGCTGTTCAAAATGTTAAGGCTGGTCAAGTAGAATACCGTGTCGACCGTCAAGCTTCAATCCACGCTGCTATCGGCAAGGTTTCATTCACTGAAGAACAATTGATTGAAAACTTCCGCGCTTTGCAAAACGCTATCCTGCGTGCAAAGCCAGCTTCAGCTAAGGGTCAATACATCAAGAGCTGCGCAGTTGCCGCAACCTTTGGCCCTGGGATCAAGTTGGACCCAATCGCTTTGATGGCCTAA
>LACTIS1119B1_05580 50S ribosomal protein L11
GTGGCAAAGAAAGTTATTAACGTTGTTAAGTTACAAATTCCAGCTGGCGCTGCAACCCCTGCACCTCCAGTAGGTCCTGCTTTGGGTCAAGCAGGTATCAACATTGTTGGCTTTACTAAGGACTTCAATGCTCGTACTGCTGACCAAAAGGGCATGATCATCCCTGTAGTCATCACTGTTTACGAAGACCGTTCATTCGACTTCGTAACTAAGACTCCTCCAGCACCAGTCTTGTTGAAGCAAGCTGCTGGCATTCAAAAGGCTTCAGGCGAACCTAACAAGAACAAGGTTGGTTCAGTAACCACTGCTCAAGTTAAGGAAATCGCTGAAACTAAGATGAAGGACCTTAACGCTGCCTCAATCGAAGCTGCTATGCGCATGGTTGAAGGTACTGCTAGAAGTATGGGTATCGAAGTGAAGGACTAA
>LACTIS1119B1_05590 transcriptional antiterminator NusG
ATGGTAGAATCCGCCAAGAAGCAATGGTACGTCTTGCACACTTACTCTGGTTTTGAGGACAAGGTTAGATCCGACTTGCTGTCCCGGGCCCAGTCACTGGGGATGCAGGACTATATCTTCCGGGTTGTCGTTCCGCAAGAACCAAAGATCGAAGACGTGCGCGGCAAGAAGGAAGAAGTTAACGAAAAGGTCTTCCCTGGTTACGTTTTGGTTGAAATGGTCATGACTGACGAAAGCTGGTTTGTTGTCCGGAACACTCCTAACGTTACTGGTTTCGTTGGCAGCCACGGCGGTGGTTCCAAGCCTTCCCCGCTTTACGAGGAAGAAGTCAGAGCCATCCTGCAGATGCAAGAAGGCGAAGCAACTGAAAAGGTTGACTACGACTACGAAGTTGGCGAAAGCGTCATGATCACTGCAGGTGCCTTCAACGGCATGGTTGGCAAGATCGCTGAAATCCAGGACGACAAGCAAAAGCTCTTCTTGACCATCGACATGTTTGGCCACGCTATCACGGCTGAACTGGGCTTTGACCAAGTCAAGAAAATGGAAGACTAA
>LACTIS1119B1_05600 preprotein translocase subunit SecE
ATGATTAAGTTTTTTAAGAGCGTTGGTCAGGAAATGAAACTGGTTCATTGGCCAAGTGCTAAGGAAAACCGGCGCGACACGGCAAACGTGGTCGTAACTTCTCTGCTTTACGCGATTTTCTTGGGTGCTTTGGATTGGGCCTTTGCAAAATTGATTCAATTAGTTCTGTAA
>LACTIS1119B1_05610 50S ribosomal protein L33
ATGGCAGTAAAGAAAGCAGCTTTGGCCTGCAGCGTTTGCGGGTCACGGAACTACTCAATCACTGCAAACAGCAACCGCACCAAGCGCTTGGAACTGAACAAGTTCTGCAAGCACTGCGGCAAGAAGACTTTGCACAAGGAGACGAGGTAG
>LACTIS1119B1_05620 1-deoxy-D-xylulose-5-phosphate synthase
ATGAATCAACACCCTGAATACCTGCTCAACAAGATCAAGTCACCAGCTGACCTTAAGGTTCTGGATCTGGAAGAAATGAAGCAGCTGGCTTCAGAAATCCGCCACTTGATCATCAAGAAAGACGCGGCGGTTGGCGGCCACCTGGGTCCTGACCTGGGGATCGTGGAACTGACCATCGCCTACCACTACGTCTTTGACGCCCCCGGCGACAAAATCATCTGGGACGTCTCCCACCAGACCTACTCCCACAAGATGCTGACGGGCCGGGCTTATGCCTGGCTGGACCCGGAAGCCTACGGCAAGGTGACTCCTTACACTAATCCCGATGAAAGTCCCTATGACTACTACGCGGTTGGCCACACTTCTACCTCTATCTCTTTAGCCACCGGCATGGCCAAGGCCCGGGACCTCTTAGGCGGCAGCGAGCGGATCATGGCCGTCATCGGCGACGGCTCCTTAACCGGCGGGATGGCCTATGAAGGCTTAAATAACGCCGCGCTGGAAAAGGGCAACCTGGTCATCGTCATCAATGACAACCAGTGGTCCATTGACCAAAATGTCGGCGGCTTGACCACGGCCCTGAAGAAGCTGAGAGACAGCCAGGGGCAGGATCCGGAAAATCCTTTTAAGGCCTTTGGCTTTGATTACCGCTATGTCGCTGATGGCAATGACCTGGAAAGCATGATTAATGCCTTCAGCGAAATCCGCGATGTCGACCACCCCCTGGTTTTACACGTCAACACCTTAAAGGGCAAGGGTTATCAGCCAGCTATTGAGGATGAAGAAAAGCACCACTGGGTCCGCCCCTTCAACTTAAGCGATGATTCGCCAAAGAACATTACTGCTGGCCCAACCCCAGCGGAAATTGCCGTTAAGACCGTGGCCAGCGCCATTGACGGGGGCCAGGAAAACATCATGGCGATCACTGCCGCTATCCCTGGCGTCTTTGGCCTTGACTCCTTTAAAGAGTCTTACCCGGACCACTACGTCGACGTCGGCATCGCCGAGCAGGATTCCGTGGCCTTCGCGGCGGGCTTTGCCAAGGCGGGCGGCCAGCCAGTCCTTTTTGAAAACTCCACCTTCCTGCAGCGGGCCTTCGACCAGCTCAGCCATGACGTGGCGGCTAACAATTTGCCAGTCGTCATGATCGTGGCTGGCGGCGGGATCCAGGCCAACTCCAAGACCCACGTGGGCGTCTTTGACCAGGTCATGGTCAGCAATCTGCCTAACTGGAAGTACCTGGCCCCGACCAGCTTGACTGAAGAAGCGGCCATGATCAACTGGGCCTTGAAGCAAAAAGACGGCCCTGTAGCTATCAAGCTGCCAGTCCGGCCAGTTCCAGCCGGCGGGGCTGTGCTTGAAGGCTACCGGCACATCCACTACCAAAAGCGGCGGGCCGGCAAGAAGATCGCCATCCTGGCTTTAGGAGACATGCAGGAATTAGGCAGCCAAGTGGCAGAAGAACTTAATGCTGCCCTTTACAATCCTTTGTCAGCTAACATCCTGGATACTGACTGCCTGGACCACTTAGCCCGGCACTACCAGGCTGTAATTACTTTGGAAAACAATATTCTGGACGGGGGCTTCGGGCAAAAGGTGGCCGGCTACCTGGCTGACCGGCCGGTTTTGGTCAAGACTTTTGGCGAAAAGCGGGAATACACCGACGTTGACCAAAGCTATGACCAGATCCTGGTCCGCAACCAATTGACGGCTGAGCAAATCGTTGCAAGCGTCAAGCAATTATTTAACTAA
>LACTIS1119B1_05630 hypothetical protein
ATGAAGAGCAGTCGGACAGTCAAGGTCAAGCAGACAGCTGAGGGCTACCTGTTTGATGGGCCTGCAAAGAAAAATGCCATTATTTTTTACCCGGGAGCGAAAGTTGAAACTACCGCCTACGCGCCTCTCTTAAAGCAGATCGCCAGCCAGGAGGCAGATGTTTTCTTAGTCGCCATGCCCCTGCACATGGCCTTCTTCGGCCTCAACAAGGCAGACAAGATTCGGGCCAGCTACCACTACCAAAACTGGTACATGTCGGGCCACTCGCTGGGGGCGGCCATGGCGGCTATGTATAGCGCGGACCACTTGAAAGACTACCGGGGCTTGATCATGCTGGCCGGCTACCCAACCAAGGACCTGCACGCGGCTAATTTTTCCGTGCTCAGCATCTATGGGTCAAAAGACGGGAACGCAAAGATGCTGCAAAAGAATCCCCAGTACCTGCCAAATGACTACACTAAGCAAGTCATCAAGGGCGGCAACCATGCCCAGTTTGGCAATTACGGCCTGCAAAAAGGGGACGGGCAGGCCACTATTTCCAGAAAGGCCCAGCAGCAGGCAACCGCCCAGGCGGTTCGGCAATATTTACTTGCTCATGACAAGTAA
>LACTIS1119B1_05640 hypothetical protein
ATGTCAGAAATTGTTAAGACAGCTTTGCTGGATCGGTCAATGAAAGAAGTTTTTGAGTGGAGTGACTCAGACACCCCTGTAAGAGATGCCCTTTGGGACTACTTCATGGAGTCAAACGGCCACAACACCGACAAGACTGAGGAAGCCATGCTTCCATTCATGAGCTACTCTGACGACAAGATCATCGCATTTGTCAACGAAAACCTTAAGAAATAA
>LACTIS1119B1_05650 DNA-directed RNA polymerase specialized sigma subunit
ATGGGATTGACAAAGGAAAGAGAGCGCCTGCTGATCAGCCGGATTCAAAAAGATGATGATGAGCAGGCCCTTAAAGAACTGTATTACAGCTGCCTGCCTGTGATCGGCGGCACCATCAAGCAGTATTTTGTGGAGCTATATGACAGCCAGGACTGGGAGCAGGAGGCCTTGATTCTCTGCTATAAGACGGCCAAGCGCTTTGACTTAAAGCAGGGAAAGCCCTTTGTCGGCTTCTATAAGGTCAGTCTGCACAACCGGGCCATCAACTTGATCAGACGGGGCAAGCGGAAAAAGCGCCTGGCCGCTAGTGACCAGGTCTATTGGGAAGATGTGACTCCCGAACTTGAGCAAGCTTCCTGCTTGATCGCGAGTCCGCCGGTGCCTGTTTTGGACTGGCAGGATTTGGTTGAGTCCTTGAGCATGCTGGAATTGGAAGAATTGCTTTTGGAATTGGGCTACAAGCAGGCCGGGGAGATCATGCGCCAGTACCAGGTCAATGAGATGGGGCTCAGACGGGCCAAATACCGGGTGAAGGAAAAAATCAAGCTAAAATTACGGATAGGTGCGTAA
>LACTIS1119B1_05660 rRNA methyltransferase
ATGTCTTCAACTAACAATGATTTTGTCTTCGGCCGTCATGCCGGAATCGACTTTTTGAAAAACCAGGACAGCGAAAAGATCAACAAGGTCTTCCTGGCTGAAGGGGTTCAGGAGGACTTTGCCAGAGAAGTCTACCGCTATGCCAAAAAGAAGCATTTGATCATCCAGCGGGTGCCGAAAAACAAGCTGGACAAGCTGACTGGCGGGGAAAACCACCAGGGCCTGGTTTTGGCTGTCGCTTCTTTTGAATACGCCGACTTTGACCAGCTCTTGGACAAACTGGACCAAGAAGAGGCCCCCTTTTTGCTCATGCTGGACAATATTGAAGACCCCCACAACCTGGGCTCCATCCTCCGCAGCGCCGACGCGACCGGGGTCAGCGGGGTGATCATCCCTAAGCGCCGGGCCAGCGGCCTGACCAGCGTGGTGGCGAAGACCTCAACCGGGGCCATCGACCACGTGCCAGTTGCCCGGGTGAACAACCTGGTTCAAACCTGCCAGGCCTTGAAGGATCGGGGTTACTGGATCTTCGGGACGGCCATGGAAGGCGATGACTACCGGAAGTGGAATGCCAATGGCAAGACCGTTTTAGTTATCGGTAATGAAGGCAAGGGGATTTCCCCGCTTCTTCTTAAGCAAATGGACCAGACTTTGACCATCCCGATGATTGGCCACGTCCAATCCCTAAATGCTTCAGTAGCAACCGGGGTCTTGCTCTACCAGGCCTTTAACAGCCGCCACCCTTTGTAA
>LACTIS1119B1_05670 mini-ribonuclease 3
GTGAATAAAGCACAGAAGTTAACTGAAAAAAAGATTGATCCCAACACCTTGAGCGGGCAGACTCTGGCCTACTTGGGCGATGGGATCTATGAAGCCGCCATCCGCCGGCACTTGATCAAGGGCGGGATGCTGAAGCCGCAGAACTTGCAAAGAGCAGCAACCCACTATGTCTCAGCCAAGGCCCAGGCGGGCCTGATTGCTAAAATGCTGGACACCGGCTTTTTGACTAAAGAAGAAGAAACAGCCTACCGGCGGGGTAGAAATGCCAAGACCCATACCAAGGCCAAGAACACCAGCCTGGCCACGTATGAAATGTCAACTGGCTTTGAAGCAGTCTTTGGCTACCTGGACCTAGCCGGTGAAGAAGGCAGGGTCAAGGAATTGATTGCCTGGTGCATTGATGAGGTGGAAAGTGAAGGGACAAGGGAATATGTCTTCAACTAA
>LACTIS1119B1_05680 cysteinyl-tRNA synthetase
GTGAAGCTTTTCAACACTTTAACTAGGCAGAAAGAAGAATTCAAACCCCTGGTTCCCGGCCAGGTCAGCATGTACGTCTGCGGGCCGACGGTCTACAACTACATCCACATCGGCAACGCCAGAAGCGCCATCGCTTTTGACACCATCCGCCGCTACTTTGAATACAAGGGCTACAAGGTCAACTACGTTTCCAACTTTACTGACGTCGATGATAAGATGATCAACGAAGCTAGAGCCGAAGGCACGACCGTGCCGGAATTAGCCGAACGCTATATCCAGGCCTTCTTGGAAGACACCCGGGCCTTAAACATCGAAGAAGCGACTCTGCACCCGCGGGCAACCCACGAAATCCCGGCCATCATCGACTTCATCCAAACCTTGATCGACAAGGGCTACGCTTATGAAGCCGACGGGGACGTCTACTACCGGGCTAAAAAGTTCGCTGACTACGGGCACTTGAGCGACCAAAACATCGACCAGCTGGAAGAAGGGGCCTCCCAGCACGTAAACGATGAAGAACAAGGCCGCAAGGAAGACCCAATCGACTTTGCCCTCTGGAAGGGGCAGAAGGCTGCAGACGAAATCGCCTGGGACTCCCCATGGGGCAAGGGCCGGCCGGGCTGGCACATTGAATGCTCAGTCATGTCCACCAAGTACTTAGGTGACACCCTGGACATCCATGGGGGCGGGCAGGACCTGGAATTCCCCCACCACGAAAACGAAATCGCCCAAAGTGAAGCCAAGACGGGCAAGAAGTTCGTCAACTACTGGCTGCACAACGGCTTCGTGACCGTGGGCAAGGATGAGGAAAAAATGTCCAAGTCCCTGCACAATTTCGTGACCGTCCACGATATCTTAAAGAACGTTGATCCCCAGGTTCTCCGCTTCTTCATGGCCAGCGTCCAGTACAGAAGCCAGATCAACTACTCGAAAGAAAACCTGGAGCAGGCCGCTAACATTCTGGGCCGCTTCAAGAACACCCTGGAAGGGATCAACTACCGCCTGGCTGACGAAACTGAAGGCTTGCCGGACCCGGACCTGGCCAAGCTGGTCACTGAAACCACGGCCAAGTTTGAAGCCGCCATGGACGATGACTTCAACGTGCAAAATGCCTTGACCGCCATCTACGAAGCCCTGCCAGCCGTCAACTCCAACGCCAACGCTGAAAAAGCCGACAAGGAAAGTCTGCGGCTTTTTGCTAAAAAATTAGCTGCCTGGCTCAGCGTCTTTGGTCTGGATGTTGACAAGCTCCTGGCTAAGGAAGCCGGCAATGATGACGCTGTAATCGAAGAATTGGTTGCCCAGCGGACGGAAGCCAGAAAGAACAAGGACTGGGCCAAGAGTGACGAACTCCGCGACCAGCTTAAGGAAATGGGGGTAGTCCTCAAGGATACCCCGCAAGGAACCAGGTGGAGCCGTGAATAA
>LACTIS1119B1_05690 NUDIX family hydrolase
ATGACTTTACTGACTGATTTAAAAAATTACCAACCCTTTAACGAGCAAGAAGCAGCCGACGTCAAAGAGATGATCTACCGGCTGGAGACCGGGGAAGAACTGTTCTTGCGGTCCAATTTGGCCGAGCACTTTACAGCTTCAGCCTGGGTAGTCAATCCGGCCCGGGACAAAGCCCTGATGGCCTACCACCGGATCTACGACTCCTGGGCCTGGCTGGGCGGGCACGCGGACGGCGACCAGGACCTTTTGCATGTGGCCTTAAAAGAAGTCGCGGAAGAAAGCGGGGTTAAAGCAACTCCAGTCACGGACCAGATCTATTCTGTTGAGATTTTAACCGTGGACGGGCATGAGAAAAAAGGCAAATACGTCCCGTCGCACCTGCACTTAAACGTGACCTACCTCTTGGAAGCAGACGACAGCTTGCCCATCCGGCCTAAAGAAGACGAAAACAAGGCTGTTGCCTGGTTTGGCTTGGATGAAGCCCTGGAAAAGTCAACCAAGTCCTGGTTTGTCGACCGGATCTACTCCAAGCTGAACGCCAAACTCAAGGATTATCCGGCTAGGTAA
>LACTIS1119B1_05700 hypothetical protein
ATGGACCCAGCTTTGAACAATGACGTCTACGGCGGCGAGCAGCTGGACGCCACAATGGAAGGCCTGGTCCGCCTGGGCAACAATTCCAAGATCCTGCCCGGCATCGCCAAGTCCTGGAAGGAAAGCAAGGACGGAATGACCTGGACCTTTAACCTTAGAAAAAATGCCAAGTGGTCCAACGGGGAAGCCTTGACGGCCAGGCCAGCAACATGA
>LACTIS1119B1_05710 LysR family transcriptional regulator
ATGCTGGATTTTCGCGTCAAAACATTTTTAACGGTCTGTGAGACCATGAACTTCACCCGGGCGGCTGACCGCCTGCATGTGACCCAGCCGGCGGTGTCCCAGCACATCCGCTATTTGGAGAAGGAGTACCAGGTCAAGCTTTTCAGCTACCAGGGCAAGAAACTGACCTTGACCGCGGCGGGAGAGAAACTCCGCCAGGCCATGCGGCAGATGCAGAGCGATGAGCGCCTGCTTAAAGCGGAAATCAAGCAGGCTGACCTGCCGCCGGTCCGCTTTGGGGTAACCATGACCATTGGGGAATACGCCTTAGCCAGGCCCCTCAGCCGCTTTTTAAAAGACCATCCCCAAACCAATGTGGAAGTAGTCTACGGCAACACCCAGTTTTTGACCAAGAAATTGGATGAGGGGGACCTGGACTTTGCCCTGATAGAAGGGGACCCGGCCAGGGGTTATGCCAGCCTGCGCTACCAAAGCGAGGACTTCATCGCCGTCTGCTCGCCAGATTTGTCTTTTGCCAAGGAGCCGGACCAGATCGCTGACCTTTTTGACCAGCGCCTTTTGGTCAGGGAACCTGGCTCAGGGACTAGGAAGATCCTGGAGGACAGCTTAGGCGCCCAGGGGCAGGAACTGAGCGACTTCAAGCAGTATGTCCAGGTCGGCAACATGCAGATGATCACCCAGCTGCTTTTGGCCAATTGCGGGGTCTCTTTCTTGTACCAGACTGCCGTTAGTGACCTTTTAAAGGCAGGAAAGCTGCGGAAGTTGAGTTTGCGGGACTTCCAGATCCGCCATGACTTCACCTTTATCTGGGAGAAGAACAGCCTCTACGCGGACCGCCACCAGCAGATCTGCGCGGAACTGAAGGCAAGCAGATAA
>LACTIS1119B1_05720 membrane protein
ATGGTCATCACCCTCTTTTGGGAAGAGAAGAAAGGCGCGGCCAGCGGGATCAAGTGGACGTCCAAGTATATCCTGCAAATGGCCGTCGTTCTCCTGGGCTTTGGGATGGACCTGCAGGTGGTCGTCAAGACCGGCCGCCAGTCCCTGCCGATTATCATCTGCACCATCTCGACCTCGCTCTTGCTCGCCTGGCTTTTGCACAAGTCTTTAAACATCCCCGGCAAGATCTCAACCTTGATCTGGGTCAGCTCATCCATCTGCGGGGGCAGCGCCATCGCCGCTACCGCCCCGGTTATCGACGCTGACGACGACGAAGTAGCCCAGGCCATCTCTGTTATCTTCTTTTTCAACGTCCTGGCCGCCATCCTCTTCCCAATCTTTGGCAAGCTCCTGGGCTTTGACCAGACTTCGGGGACTTCTTTCGGCATCTTTGCCGGGACAGCCATCAACGACACTTCTTCCGTCACTGCCGCGGCGGCAACCTGGGACAGCATGTTCCATTTGGGCAGCCAGACCCTGGACAAGGCCGTGACCGTCAAATTAACCAGAACCCTGGCCATCATCCCTATCACCCTGGCCTTAGGCTATTTCACCGCCAAAAAGGAGCAAAGGGACAACAGCTTCAGCTTGAAGCGGACCTTTCCTGCCTTCATCCTCTACTTTGTCCTGGCTTCCTTAATCACAACCTTTGCCCTGGCTAATGGAGTAAATGCCAATGTCTTCCTGCCTTTAAAGGAGCTGAGCAAGTTCATGATCATCATGGCCATGGCCGCGATTGGTCTTAACTCCAACATCGTCAAGCTGGTCAAGTCCGGGGCCAAGCCCCTCTTGCTCGGGGCTTCCTGCTGGGCCGGGATCACAGCCGTCAGCCTGCTTTTACAGCGGCTAATGGGGCTCTGGTAA
>LACTIS1119B1_05730 glutamyl-tRNA synthetase
TTGGCTAATAAGAAAATCCGCGTGAGATACGCTCCGTCACCAACTGGCCACTTGCACATTGGTAACGCGCGTACTGCTCTGTTTAACTATCTGTTTGCACGTCACAACAAGGGGACTTTGGTTCTGAGAATCGAAGACACTGACACCGCCAGAAACGTTGAAGGCGGGGCTGAATCTCAAATCGAAAACCTGCACTGGCTGGGGATCGACTGGGATGAAGGTCCGGACATCGGCGGGGACTACGGCCCTTACAAGCAGTCCGAAAGAAAGGACATCTACCAAAAGTACATCGACCAGCTGCTTGAAGAAGGCAAGGCTTACTACTCCTTTAAAACTGAAGAAGAACTGGAAGCCCAGCGTGAAGAACAGCGGGCCATGGGGATTGCTCCTCACTATGCCTACGAATACGAAGGCATGACTACTGACGAAATCAAGCAGGCACAAGACGAAGCCCGGGCCAAGGGCTTGAAGCCAGTTGTCCGCATTCACATTCCAGAAGGCGTGACTTACGAATGGGACGACATCGTTAAGGGCCACTTGAGCTTTGAATCCGACACTATCGGCGGTGACTTCGTCATCCAAAAGCGCGACGGGATGCCAACTTACAACTTTGCCGTCGTTGTCGACGACCACTTGATGGAAATCAGCCACGTGCTCCGGGGCGATGACCACATCTCTAACACGCCAAAGCAGCTTTGCGTTTACGAAGCTTTGGGCTGGGAAGCTCCAGTTTTCGGCCACATGACTTTGATCATCAACTCTGCTACTGGCAAGAAGCTGTCCAAGCGTGACGAATCAGTCCTGCAGTTCATCGAACAATACAGAGAACTTGGTTTCCTGCCAGAAGCCATGTTCAACTTCATCACTTTGCTGGGCTGGTCACCAGTTGGCGAAAGCGAAATCTTCTCCAAGCGCGAATTCATCAAGCAATTTGACCCGGCCCGTCTGTCCAAGTCCCCAGCTGCCTTTGACCAAAAGAAGCTGGACTGGGTCAACAACCAGTACATGAAGACGGCTGACAGAGATGAACTTTTGGACCTGGCCCTGCACAACCTGCAAGAAGCTGGCCTGGTTGAAGCTAACCCGGCTCCAGGCAAGATAGAATGGGTAAGACAATTGGTGAACATGTATGCCAACCAAATGTCCTACACCAAGCAAATCGTTGACTTGAGCAAGATCTTCTTCACTGAAGCAGAATACCTGACTGACGAAGAAGTGGAAGAAATCAAGAAGGACGAAGCTCGTCCGGCGATTGAAGAATTCAAGAAGCAACTGGACAAGCTTGACAACTTCACGGCCAAGAAGATCATGGACGCCATCATGGCTACCCGGAGGGAAACTGGCATCAAGGGCCGCAAGCTCTTCATGCCAATCCGGATCGCTACTACCCGGTCAATGGTCGGCCCTGGCATCGGCGAAGCTATGGAATTGATGGGCAAGGACACGGTCATGAAGCACCTGGACTTGACCTTGAAGCAGCTTAGCGAAGCTGGCATCGAATAA
>LACTIS1119B1_05740 ABC transporter permease protein
ATGATCGGTTTTAAGCAGGCTTTCACGGCCATGTTCAAGGAAAAGAGCCGGACGACCTGGCTCAGCCTGGGCATCGAGGCAATTTTTATCCTCTTGATCAGCTTGTACTTTGGTATCAGATACGGCTTTGGCAGCGACTCAGCTGGTATTGGCATCGGGATTGCCGCGACGGTGATCTTCTGGGTGGGCATCTGGTACCAAATTGACGTGATTATGACGGCCTACCGGATCAACCGGTCCCAGACCTGGCGGCAAGTGCCGGTAACAGCGGGCAACTTCCTGACGGCTAATGTGCTGACCGGGCTTGTGACCGCGGTTATCTTTGCCTTAGCTAACCTCTTGATCTTCGTAATTACCTTGCTGCCATTTATTTTTGGCGGGGAGATGCAGATCGATTCGCAAGCAGTGGCGACTTTCCAGCCTTACGTCTCCAGCATCAGCAACTGGCTGCTCTACATGACCTTGTTTGCCCTGGTCAGCTTTGCCGGCGGCATCTGCTTCTGGCTGCTCATCACTGAATCAGCCAGCGTTTTGGGGGACTTCCTGCCTTTGAAGGGGAGAACGAGCAAGTTTGCCAAGGCAGTTATCCTGCTGGCCCTGCTGGCTCTTTTGTCCTGGGGCAGCAGCAGCATCTTGGGCGCGGTCATCCGCATGGTTTCAAATTCCGGCTTTGACTTCAACTTTGTCATTGACAATACTGGCCTGCACACGTCCCAGACCGACCTGGGCTTGCCGGTCATCAGCTGGCTCTACATGCTGGCTGAGCTGGTCTACGTGGCCATCTTGTGGGCAGCGGAATACTTCGTCTTCAAGAAGGGCGTTGAAGCCAAGAAATAA
>LACTIS1119B1_05750 ABC transporter ATP-binding protein
ATGAAGACTTTGGAGATTAAGGATTTAAGCTACCACAAGAATTCAAAGACGATTTTGGAGAGAGTCAACTTGACTTTGGAGGCCGGCAAGATCGTGGCCTTAGTCGGGGCCAACGGGGCCGGCAAGACCAGCTTGATGCGGGTGATCACGGGCCTGGCCAAGCAGTACAAGGGCAGCGTGGAGGTATGCGGGGAAGCAGATGAAGACCGCCGCAAGCAGTACATCGCCATGACCGACAGCCTGTCCGCCTTCCGCGACTCCAGAAAGATCAAGGATGTCGCTGACTTTTACCGCCTGGTCTACCCGGACTTTGACGACAAGCAGTTTGCTGATATTCTGGAATTCATGAACTTGAATGAAGATGAAAGACTGGGCAGCCTGTCCAAGGGGATGAAGGATAAATTAATCATCGCCCTGGTCTTCTCTCGCAAGGCCAAGCTCTACCTGCTGGATGAACCTTTCAGCGGGGTTGATGCCATGAGCCGGAAGAAGATTATCAAGTCCATGCTGCTTTGGAAGCCGGAAGAGGCGACCCTGGTCATCAGCGATCATGTCTTAGATGAAATCGCTCCGGTGATCGATGAGGTCGTTTTGATCAAGAAGCACTCAGTTTTAGAGCAGCGCAGTGCTGAAGAAATCCGGGCTGAACAAGAAAGCATCGAAGAGTGGTATGAAGGATTTTACGAGGGGGAAGAGTAA
>LACTIS1119B1_05760 GntR family transcriptional regulator
ATGAAATTCAAAGACAACCTGCCGATCTACTTGCAGATTGAAGACTATATCTACTTGCAGATCGCCCAGGGCAAGCTCCAGGCCGGCGAGAAGCTGCCTTCAGTCAGAGCCCTGGCACTTGAATTGACGGTCAACGCCAATACAGTCCAGCGGGCACTTAGAGAAATGACGGCCAAGGGCTATATTTTTACCAAACGCGGCGAAGGCAACTTCGTTACGACCGATGAAGGCCGCCTGGAGGAAATGAAGAGCAAATTGCTGAAGCAGGAGCTGGCGGCTTTCGTCAGCCGGATGGAGAAACTCGGAGTCGAAAGGGAAAACCTGACTGGACTATTGGCCAGCTACTTAGATGACACAAGGGAGGAATAG
>LACTIS1119B1_05770 oligopeptide ABC transporter substrate-binding protein
ATGAAAAAGACTAAGACTTTTTTGGCTGCCGGCAGCATCTTGACGGCTGCATTAGCCTTGACGGCCTGCGGCGGCAACTCTTCATCTTCTTCATCTAACAAAAAAGAACTGAACTGGGAAGAATCAGCTGAAATTCCGACTATGGACCTGTCCAAGGCCACTGACTCTGCCAGCTTTACCCAATTGATCAACACCATGGAAGGTTTGTACCGGGCAAAGTCTGACGGCAGCCAGGAAAAGGCCATGGCAACCAGCGAAAAGGTATCCAAGGACGGGAAGACCTACACCTTTACTCTCCGTAAGGACAACAAGTGGTCAAACGGTGACCCGGTAACCGCGCAAGACTTCGTCTACTCATGGCGCAGAACTGTTGACCCAAAGACTGCTTCTCAATACGCTTACCTGTTTGAAGGCATCAAGAACGCCACCGACATCCAAAACGGCAAGAAGAAGCCGGAAACTTTGGGGATTAAGGCCGTTGGCAAGTACAAGCTGGTCGTAACCCTGGACCGGCGGATTCCTTACTTCAACAACCTGATGGCCTTCGGGAGCTTCTTCCCACAAAACGAAAAGGCAGTCAAGAAGTACGGCTCCAAGTACGGTACTGCCTCCAAGTACATGGTCTACAACGGGCCATACATTATGAGCGGCTGGAGCGGGTCAAACCTGTCCTGGAAGCTCAAGAAGAACCCATACTACTGGGACAAGAAGAATGTCAAGCTGGACGCGGTCAACTACAGCGTGCAAAAGACCCCGTCAACTGCTTACAACCTCTACCAGTCAAACAAGCTTGACGCTGTAGCCCTGGACGCTGAACAAAGCAAGCAGCTTAAGAGCGTAAATGGTTATGCTCTCTACCCACGTGGGACTACCTTCTACATCCAATTCAACCAGGCTAAGAATAAGTACCTGCAAAACGCCAACATCCGTAAGGCTCTTTCCATGGCTATTAACCGGGAAAGCCTGACCAAGGTCCTGGGCGGCAGCAACACTGTAGCTCACACCTTCACTCCAGCCAAGCTGACCACGGTTAACGGCAAGGACTACACCAGCCTGATTTCCAAGAGTGACGAAGCTTACACTTACTACAACAAGAAGGAAGCCCAAAAGTACCTTAAGCAAGGTATGAAGGAACTTGGCGTTTCCAAGCTGAGCTTCAAGCTTTTGTCAGACGACACCGATGGTGCCAAGAAGTCTACTGAAGCAATGCAATCAAACATTCAGGAAACTCTGCCGCAAGTCTCCATCACCACCCAGAACCTGCCATTCAAGACCCGTCTGGCTAGAACTAACGCGCTTAACTTCGACATGGTTGTTTCTGCCTGGGGTGCCGACTTCAACGACCCGATCTCCTTCCTGGACTTGCTTACTTCCACCAACGCCCAAAACGGCGGCAAGTGGTCCAACAAGGAATACGACAAGCTGATCGCGGCTTCAAAGACTACTGGCTCAGACTCTGAACGCTGGAGCAACCTGTCCAAGGCTGAAGGCATTCTGCTGAAGGACGTTGGTATTTCACCACTTTACTCAAGCACCAGTGCCTGGATTGTCCGTCCAGAAATCAAGGGCTTGGTAAACCTGCGCGACCACTGGGACTTCAAGTACGCTCACGTTAACTAG
>LACTIS1119B1_05780 NUDIX family hydrolase
ATGTACAAAGTAGTCAAGAAAGAAACTATCAAGGCGGGCCGCTTCACGGTCATTCAAGAGAAGGTGGCCAAGGACGGGCAAATCGCCCCATATTCCTACGTTACGATCGGCTTCGGGATTTCCATCATCCCCTTCGTTGATGATGACCACGTCTTGCTCTTGAAGGAATACCGGCACCCCGTTGGCAGCTGGCAATATGAATTCCCCAGCGGCGGCATTGATGAGGGAGAAGAGCCCAGTCAGGCAGCCAGAAGAGAGCTGCTGGAAGAAACGGGCTATGAGGCCAGCGAGTTGACAGAACTCGGTTTCACCTACCCTTCTTTTGGCTCAACCAATGAGAAGATCACCCTTTTTGCCTGCCGGGCCACAAAAATGGCTCAGCCAAAAAGAGAGATTCTGGAAGAAATCAAGATGGAGATCGTCTCTGTCGACCAGCTGGAAGATTTGATCGTCAAGGGTGAATTTGCCCACGGGGCTGGCCAAGCAGCCTGGCTCAAGTGGCGGCTGCTTAATGAGAGAAGATAA
>LACTIS1119B1_05790 acetyl-CoA carboxylase, biotin carboxylase subunit
ATGAAAAAGATTGTAATTTTGGCCCCTATCAGCAACAACTATATTAACTATTTCGATGCTATTAGCGGGGATAAGGATAACCGCTATCTGATTTTTGCCATGGAACGGCACCGTGACAATTATCCAGAAACTTTGCCAGAAAACATCAAATTCGTTTTCTTGAAGATCTGGAATGAAGAATATATTGACTACGTGATCAGTCAAACTTTTGGCCAGCAGATCGACTACGTTTATGCTTATTCTGAAGAAGAGATCATCTTTGCGGCAAAATTACGGAAAAAATACCAAGTTACCTTGGGGCAAAGCTTGACGAGCGCGGAAGAATTCCGGAATAAATTAACTATGGTCAAGGCAGCTGAGCAAGCTCACGTAGCCGTTCCCCGTTACTGGCCGGTCGATAACGTGTTTGATCTGATCGAGGCAGAAAAGAAGCTGGGCTTCCCCTTCGTGTTAAAGCCAATTGCCGGCATGGGGTCGATGGATACCTTTGTAGTTCATGATCATGTTGAGTTAGAAAGGCTGGCCGCTGATAAAATTCTTCGTGGCTATTTGGCAGAAGAATTTATCCCCTGGCCCCTGTACCACGTGGATGGTTTTGTAAAGCAAGGCCATTTTGTCTACTTGATCAGTTCTAAGTATTTTGCCAATACACTAGAAGTGAAAAACGGTAAATCAGTTGGAAGCGTGCAGATAAGCCCGACCGCGGCAGAACAGAAGTTGATCCGCTCTTACGTGACAGACCTACTCAAAGGAATGGATACGCCGGAAAACTATCTCTTTCATCTTGAAGTCTTTTGCGACGGCCGTGAGGTAAAATTGTGCGAGATCGGGTCAAGATTGGGGGGAGGACGGATTCTGCAAGAGCTTGAGCAAGGGCTGGGCTTTAGTCCTATTCAAGAATTGCTGAGGCTGGATCTGGGCCTGCCGAATAAGGTGGACCTTGACAAGGAGTATAAGTCAGCTGAGATTCGCGGTTTTGTGATGGTTGAACCTGGCCGGGGAATTTTGCAAAAATTGCCGGCCGCAGATGCCGTGCTGGCAGCCAATCCGGAAGTCTATGACTACTATCAATATGCTAAGCTTGGCCGGACCTATAATGGCGCGGCCAGCAGCGTAGAGGCCCTTGCGGCAATTTCCGTTTGCGGAAAAGACAGCAGGACCGTTGAAGAAAAACTAAAAGAGCTGGATGCCTGGCTGAAAAAAGCAGCAGTATACAGCTAA
>LACTIS1119B1_05800 hypothetical protein
TTGAATGTTGAAAGGGACATTACTCCTTTTCACTTTGAATGGTTTTATTCTGACAAAGACCAGAGCTTTGTCTTTACCGAGGTTGGCAAGCGTTTTGGCGGAGCGAAGATTCCAAAATTGGTTAAGCAGTCCTTTGGCGTCGATCTTCTGGAAGAATATTGGAAAATGCAAGAAAGGCGTGCAGAAGAGATTGATTGGGAGCAGCCTCTTTCACCGCGGGTCTGCTCAAGCTCTTATGTTCAGCTGACCAATGGAAAGACGATGATGGAAAGTTTAGAGGAAAAAATCCCAGACCTTTTCACTTACGAGCAAAACCATCCTGTAGGCGTGCAGTCGCAAGCAGCTGAATCTATTGGGGATGCCTTCTTTTTGGCCCAGTATACTAGCAAGGATGCAGCAGCTTCAGATATGGTCAGCGCCAAAATCAACAAGGCTTTTAATGAGGTTTGCCGATGA
>LACTIS1119B1_05810 hypothetical protein
ATGAAATACTTTATTTGGGCCTACAATCCCAAGGTAGTCGGCATTCGTCCTAGTCAGGGAATTTCCTTCGTTGTTCCAGAAACTAAAACAGAAGCCTATTTAGAATTGGAAATCAATCAGATTATTCCTGTCAAAGGGATCGATTTTCAGACCGTCTATCCAATTTTTAAACAAAAGCAGGCTGAAGGAGAAAAAATTGAGGATATCTTTACCCTTCAAGAAGAAATCATGGACTGGGTGGGAGTGCTAAAGGCAATCTTTGTTCCTGGAAAAACAGGCGTGAGCGATGTCTTGTTCAAGGATAAGTACTATATGCGGTCGGTTTTAAAGCAGGAAGTAACCGAGCCGGATTTTTATGAATTAACGGAAAATTCTACTGTTGAAAGCATTCACGAAGGAATGGTCAAGCCAAGACGCGCGGACTCAACCAAAGGTATCAGTTATTTTAAAGCGCCTCTGCCGTTGTCTTCTTTAAAGAATCAAAGTGGTTATCTGAGCGATAAAGATTTATTGGTAGAAAGTTTCGTTCATTATGACCGGATGTTTACTGTTGACGGCTACACTGATTTTCAGGGTCATTCCCGTTTCTTTAGCCATGAGTACAATAATAAGCTGAGCGATTTAAAAAGACTGGTTATTTTACCCTCCATACCAGTTCACTTTACTATCAAGATCAGCAGCTGCTACAAAAGTTGTTTGCCTTAA
>LACTIS1119B1_05820 hypothetical protein
ATGTTTTACTACGTCTATTATGTCAACAATGACGTTGATGAGCTAGTATCAGTAGTTGAGCAGATCGGAAAAGCTGAAAAATATTCTGCTGATATTTTGGCGATTTTTACTGATAATCTGCGGGCAACACAAAAAAATTACCGGACAGCAGTAAAAACTGTTGAGAAAAAGAACTTAACTAGAGAAGTAGCACAGAGCTCCTTAGGATTGCCAGATGAGTATTATGGTGACTTTTTACAAAACTGGCACAGCGAATACGATTTTTAG
>LACTIS1119B1_05830 major facilitator superfamily transporter
ATGAAATTAAATGAAAGAGAGCTAGCTAATACCGTCAAGCTTGTAACAAGCAATAGTATTTCCAAGCTTGGAGACATCTTGTTCGATTATGTTAATTCTGTCTGGCTATCGAAGCTGGGGAACGGCAGTTTTTGGATGGCAGTGTATCAGAGCAGTGAAACGATCGTCAGTGTTTTCGTCAACTTTATAGGCGGAAACTTGTCTGATACGAAGCAGCGGAAGAGCATTATCTGGATTTGCGATATTATTGCCGGTCTCTTGTGTATTGTGCTAGCAGTGTTTGTTCCTTCTATTTGGTTGTTATACGCAATTATTGCGGTCAATATTGCTTTATCGGTTCTGTCTTCGATCAGAGATCCAGCCTATAAGGCGGTCTTTGGTGAAATTGTCCGCAAAGAACAGATTGGCCGGGTCAATTCTTTGCTTGAAAGCTGCAAGCAAACTATCAAGGTTGCTGGCCCAGTGCTTGCCATGGTGATCGCTAAATTTGTTGGCAGTAAGATGGCTTTGCTGCTGGACGGACTTACTTTTATTATTTCTGGTTTGTTGATCAGACAGCTGGATATTTTGTTTGAAACAGAGCCGCCGGTAGCTAAGCAAAGCAATTTTAGCAAGATCAAGGATGCATTTAAGTATCTGCTGGCCGAAAAAAATATTTTGATCGTAATTGTTTTTGCCAGCGTAATCAACTTTATTTTGGCAGGTTACGAATTGATTCTTCCTTTTGCCAGTTTTGCTTTTAGCAAGAATGCTTATGCTTTCTTTTTAACGGCTGAATCAGTTGGTGGCTTGCTGGGAGCAGTGGCTTCAAATTTGATTCGGAAGGAATTATCCAGCAAGTATCTGTTCTGGATTATTGCTGTGGCTGGACTGCCGCTGGCGGTGATGAGTTTGCTGTATCAAGTTAGTCATTGGCTTTTTGGGCCGATAATCTGTATTACCCTGTTTAATTTCTGCGTTTCGGTTTTTAACATTCAGTTTATGACTTACATTCAGACCAACGCGGATATGACTTACATTGGCCGGGTATTCAGTATTGTCTTTACGGCGGCAATCATTTTCGTGCCGCTCGGTTCCTTTTTCTTCCAATTTGTCATGGACGTAAAGGACAGCGTGGATTATTTGTGGCTGGGGGGATTGCTGACGTTTGTAGTAGGCCTTGCCAGTGTAATTTACTCGCTGAATCAGCGGCGGGCAGAATAG
>LACTIS1119B1_05840 proline dipeptidase
ATGAAAGAAGAAAGAAAATTAACCTGGGAAGAGCATTTGGCAGCCTTAACGTCCTACTTGGATGAAAAAGGCATTGACCTGGCCTATGTGGCAGAGCCAGTGGACATTGCCTACCTGACGGGCTACAGCAGCTGGACGGAGGAACGGGTCTTCGCCCTGCTGGTATCCAGAACAGGCCAGGCCCTCTTGCTGGCTCCGGCGATCAATGAAGGAGAAGTCAAGCAGACTTCTTGGGCGGACCGGGCCTGCTTTTACCAAGACGGGGAGAATCCTTGGGAGAAGGCAAAAAAGAGAATGACCGCCTGGCCAAAAGGATTTTGGGCCCTGGAAGCGCGGGCAGTGACCCTCAGCCACTACCGGGCGATTAAGGAAGTTTTCCCGGAAGCAAATTTGGCAGCAGACATTTCTACCTGGCTGGCCAGACAACGGATGATCAAGTCGCCGGCGGAAATTGAAAAGCTGCAGGCGGCTGGCAGGCTGGCTGACCAGGCCCTGGACTTGGCTTTTGCCCTTTTAAAAGCGGGGCAGGGGATGAGTGAAAGCGGGCTGGCCCTTGAACTGGACTACCAGCTGAAGAAAAAGGGGATGGGGGACTTGAGCTTTCCATTGATTGTCCAGGCCGGGGAAAGCGCGGCCAGTATCAGCGGCCTGCCCAGCCAAAAGGGGGTTCAAGCCGGGGACATAGTGATTTTTGACTTGGGGATCATGAAGGACGGCTATGCTTCAGATGTCAGCAGGACGGTGGCCCTGGGCGAAATCAGCCCGGCAAAGTGGGAAATATATGAGACGGTCCGGCTAGCCCAGGAAACGGCCGCTAGGGCGGCCAGACCAGGGATGACGGCAGGTGAGCTGGACCAGGTGGCCCGTGGGGTTATCGAAGAAGCGGGCTACGGGCAGTACTTTACCCACTGCTTGGGTCACGGGATTGGGATGCAGGTCCATGAGCCGGTGAATCTGGAGCCGAGAAGCAAGCAGAAGCTGGAAGCAGGGATGTGCTTTTCCATTGAACCGGGGATCTATTTGCCGGGTGTTGGCGGCGTCAGAATCGAGGACTGCGGCTGGCTGGGTGAAGACGGCTTCTACCCCTTTACCAAGACCAGGAAAGATTTGTTGCTTTTGTGA
>LACTIS1119B1_05850 hypothetical protein
ATGGCAGAAGCCCTTTACCAATTTACCGATCAAGAACGCGCCCTATATGAGAAAACACCCCTGCCGCTTTTAGTTATGCAGGTCATCGACGGGGAGTACCATGCCTTGCTGGCTTCTGACGAATACTGCAAGATGGTTGGCTCTGACCGGGAGTCCATGCTGGAATACCTCAACCACCGCAGCTTTGGCCGGGTCTACCCGGCTGACGTTGTCCGCCTGGCAACTTTTTCAGCTTCAGCTGTCAAATATCCCCAATGCCACTTGACCTACCGCCTGTCCATCAAGGGCGAATACCACACCCTTTTTGCCCACTCAAAGCGGATCAAGACTGAGGACGGCACAATCCTTTTGCTGGTTACCTACTTTGACCTGGGCAAGACCAGAGCCAGCAGACCAAGAAGCAAAGTGAATCCCCCAACATGGACCTGCTGA
>LACTIS1119B1_05860 hypothetical protein
ATGGACCTGCTGACGGGCATGCCCAATGTCAGCTACTTTAGCAAGTTCGGGGATGACTTTTTAAGAAAGCTCTTAAAGCGGGCCGGGCAAGTTGACGTTATCTACTTCGACATCTCCTCCCTGCACTCTTACAACGACCACTTTGGCTTCTTGCAGGGGAACCAGCTTATCAAGAAGTGCGGGGAAATCATCCGGGCCAGTTTCCAGGAAGGGCTGACCCTGCGCTATGTCGACAACTCCATCTTGACCATCACTGCTCCCAGCCAGCTCAAGAAGCTGCTGCCGGAGATCCAGAAGAAAGTCGCGGTTTTTTCCGCTGACAAGGTCACGACCGTCAGAGCCGGCGTCTACCAGGTCAAGGAAATGGAACCAGCCACCAGCGCCGTCGACAAGGCTTACCAGGTCTACAACACATCCGTCAAGAAGCCCTTTGAGATGCAGGACTACTTGATGGGCCACTTTGAAGAAGCCCTCAGCCAGAACTGGCTCAAGGTCTACTACCAGCCGATTTTCAACCTCTATTCTAAGAAAATCTGCAACTTTGAAGCCGTCTCCCGCTGGCAGGAACCAGGCGAGCCGGCTTTAAAGGCCAGCCGCTTTATCCCAGTTCTGGAAAGAAGCGGCCTGGTCTACCAGCTGGACCTCCATGTCTTAGACCATGTCTGCCAGCTGCTGAACCAAAGACGGGCCGACAACCTGCCAACCATTCCGGTATCCATCAACCTCTCGCCTAGCAACTTCAACATCGACAGTTTCATCGACCAAGTTCTCGGGATCACCCAGAAATACCAGATCCCCCACAACATGATCCAGTTTGACCTGCTGGCCCAACCAGTCGCGGTTGACCAGCAGCGGCTGAAGGACGCGGCGGCCAACTTGCGGAAACAAGGATTCAGGATCTGCCTGGACCGCTATGGCGGGGAAAACAACGACTTGTCAACGGAAACCCTGCTGGAATACAATTTCGACTATCTTAAAGTCGACGTCCGCAGCTTCAATACCAACCGGCAAAGGGCCAAGATCATCCTGGGTTCCGTCATCAACATGTCCCGCCTGCTCAATCGTCAGGGGGTTGAGGACCAGGCCATGCTGACTCAGGGGCGGCTTTTGGCTAAAGAAATGCCGGAAGAAGAACTGAGCCAGGAAAGAGATAACTTTGAAAGCGTTGAAGAAAGAGCCCTTTTCTCTGGCTTCAACCACATCAACGTCCTGGATCCCTACTTGGAAACCCGGGACCGGCTGGACAACAACTTTGAGAATCCCCGGTCTAATTCCATCTTCATCGTCCAAAGCCAGCAGGCCAAGCTGGTCTACTGCAACAGTGCCTTCCGCTCCTGGACCGGCTGCGCAGGAATGACCAAAAGGTCCGGGAATACTTGA
>LACTIS1119B1_05870 hypothetical protein
TTGAAACAGGTCAAGATTCTGGACTTGAAGTTTGACATCCATATTTCTGCCGGCTATGTCTATGGCCAGGCCCAGACCCCAGACGAGGTCTACGAAATGATCCGGGAAGCCGACCGCATGCTCTACCAGAGCAAGGACAATGTCCGCAACCAGATCAGCGGCGGGCCTTCGCGCTATAATTAG
>LACTIS1119B1_05880 membrane protein
ATGCAAAAATCATGGTCAGTCAAAAGAACCACCGTCGTCGCCGTTTTGATGGCGATGAACGTTGCCTTGTCTTCATTCAGTATCCCTGTCCCAGGCGGCCACCTCTACTTCAACGACGTGGTCATCATCGCCGCGGCCTTGCTGCTGTACCCATCAGAGGCCTTTGTGGTCGGCGGGGTAGGGGCCTTCTTGGGCGACTTCCTTTTCTACCCGGCACCCATGTTCGTCAGCCTCGTCTCCCACGGCTTTGAAGCCTTGATCATCTCTTACTTTGCCCACAAGTTTGCCGGCGAGCAAAAGAAGGTCATCTTGGGCATCTTTATCGGCGCCGCCGTGATGGTAACTGGCTACACTTTAGGCCGGGCCTTTATTTACGCGACCCCGGCCATCTCCCTGGTCAAGTTTCCTTTTGAATGCCTGCAGGCAGCCGTTGGGGCGGGCTTAGGCTACAACCTGGTCTACCATGCCGGCATCGAAAAGCAGTTCCAACACCGCTTGCGGTAA
>LACTIS1119B1_05890 aldehyde dehydrogenase
ATGCCTAAGCAAAGCACCACAGAAGTGGAAAAGTCAGTTCGAACTGAAGACGAAATCTACCACAATATCGATATTTTGGTTAATAAATCACATGAAGCCTTAGCCCAGATGGACGACTTCAGCCAGGAAGACGTGGACAAGCTTTGTCAAGTCATTGAAAAAGTCGGTGAAGACAATGCCCGCTACTTGGCCCAAATGGCAGTTGACGAAACTGGCCGGGGCAAGGTCGAAGACAAGGTGATCAAGAACACCTATGCTGCCCAGACTATCTGGGAAAGCATGAAGGATATGAAGACGGTCGGGGTGATCGAAGAAGACAAGCAGGAAGGCTTGATGAAGATTGCTGAACCGATCGGGGTCATCGCCGGGGTAACGCCAGTCACCAACCCGACTTCCACGGTTATCTTCAAGGCTATGATCGCCATGAAGAGCAAGAACACCATCATCTTCGGCTTCCACCCGCAAGCCCAAAAATGCTGCGTGGAAACAGCCAAGCTGATTAAGGAAGCCACGGTTGCCGCCGGGGCACCGGAAAACTGGATCCAATGGATCGAACACCCAAGCCTCACGGCCACGACGGCTTTGATGAACAACCCAAAGGTGCAGATAGTCTTGGCCACTGGCGGCCCAGGCATGGTCAAGGCCGCCTACTCAACTGGCAAGCCGGCTCTGGGCGTGGGCCCAGGCAACGGCCCGTCCTACATCGAAAAGACAGCGGACATTGAACAGTCAGTTAACGACATCGTCTTGTCCAAGACTTTTGACAACGGGATGATCTGTGCCTCAGAAAACTCCGTTGTCGTTGACAAGGAGGTCTATGACCAAGTCAAGGAAGCCTTCTTAAAGCGCCACTGCTACTTCTTAAAGGCTGACGAAATCAAGCTCTTTGAAGAACACTTCATCGACCCCCGCCGGGGGACAGTCGCTGGCCCGATGGCCGGCAAGAGCGCGGTCAAGATCGCTGAAATGTGCGGGGTGACCGTGCCTGCCGACACCCAAGTCATCGTGGCTGAATACAGCGGGATTGGCCCGAAGTACCCATTGTCAGCTGAAAAGCTGTCCCCGGTCTTCACCCTCTACAAGGCGGAAAACAGTGCCCAGGCCTTCAAGATCTGCACCGACCTCTTGAACTACGGCGGCCGGGGCCACACTGCCGGCATCCACACCCAAAACAGCAAGGTTATCCGCAAGTTTGCCTTCGCCATGTCTGCCTGCCGTATCCTGGTCAACAGCCCGGCTGCCCTTGGCGGGATCGGCGGGGTCTACAACAACATGATGCCATCCTTGACCCTGGGAACCGGCTCATACGGGGCTAACTCAGTTTCTCACAACATCACCGCCAAGGACCTCTTGAACATCAAGACCGTGGCCATGAGAAGAAAGCCAATCTTATAA
>LACTIS1119B1_05900 energy-coupling factor transporter transmembrane protein
ATGAATGATGCAGTTTTAGGCTATACGCCGGGGAAGACCTTTGTCCACCGCTTGAGCGCGACCACCAAGCTTTTGTTCTTAATTATTACTTCGGTGGCCTGCATGGTGACTTATGACACCCGCTTTTTACTGATCATGTGCCTTTTGTCCCTGGTCTTGTTCAAGGTTTCCCAGGTCAAGTGGGGGCAGGTGTCAGTTGTGGTCAACTTGATCATAATTTTCGCGGTCTTGAACTTGATCTTGGTTTATGTCTTTCAGCCCAGCTACGGGGCGGACCTCTATGGCAGCAAGCACGTCCTGCTGGGCAGTGGCTTTTTTGCTTTAACGGCTGAGGAGACTTTTTACCTCTTCAACTTGCTGCTCAAGTATATCTGTGCCGTGCCGATTACAATCTTGTTCTTATTGACGACCAATCCCAGCCAGTTTGCTTCCAGTCTGAACCAGATTGGGATCAGCTACCGCTTCTCTTATGCCTTTTCCCTGGCCCTGCGCTATATTCCAGACATCCAGGAAAGCTACTGGGAGATTTCCCATGCCCAGCAGGCCCGGGGGAATGAGATTTCCAAGAAGGCCAAGCTGGCTGACCGGGCCAAGGGGACGGTCAATATCGCCATGCCTTTGATTCTGTCCAGTTTAGACCGGATCACGGTGATCTCCACGGCCATGGAACTGCGCCGGTTTGGCTCCAAGAAGAAGCGGACCTGGTACACTTCCCAAAAGCTTAAAGCCAGCGACTGGCTGAGCTTGGGGGTGGCAGTTTTGCTGGTTCTCTTGATGCTCTACTTCTGGCATCTGAACCAGGGCCGCTTTTACAACCCTTTTAAGTAG
>LACTIS1119B1_05910 energy-coupling factor transporter ATP-binding protein
ATGACAAGTCTGATTCAGTTTAGAGATTTTTCTTTTCAGTACGACAGCCAGCAGGAGCCAACCCTCCACAATATCAATTTGAGGATTGAGCAGGGGGAAAAAGTATTGCTGGCCGGGCCCTCAGGGTCTGGCAAGTCAACCCTGGGCAAGTGCTTGAACGGATTGATTCCCAACCTGGATAAAGGGACGATCACAGGCCAGTGCTTGATTGATGGCAAGGACATCAGTCAGACTGGCCTGTTTGACTTATCTTTTACCACTTCAACCATTCTCCAGGATGCGGATGCCCAGTTTATCGGCCTGACGGTCGGGGAAGACATCGCTTTTTCCCTGGAAAATGACTGCGTGCCCCAGGACAAAATGAAGCAGGTGGTAGACCGCTGGGCCAAGGAGCTGGATTTGGGCGATTTGCTCAAGCAGGCTCCCCAGAGCTTGTCGGGTGGACAGAAGCAGCGGGTGGCCCTGGCTGGGGTCTTGGTTGACGAGTCCCCGATCCTGCTCTTTGACGAACCCCTGGCCAACCTGGACCCGGCCTCTGGCTACAAGACCATGCGCCTCATCGACCAGATGCAGAAGAAGTTCAGGGCCACGGTCATCATCATCGAGCACCGCCTGGAAGAAGTCCTGGCTGAGGAAGTAGACCGGATCGTCCTGGTTGATGATGGCCGGATTTTAGCTGACCAAAAGCCGGATGACCTGCTCAAGGCTGACCGCCTGGAGGCTGTCGGGGTCAGAAATCCTCTTTACCTGGACACCATGAAGACGGCTGGGATTGATTTGAATAAGCTTGAAAAGCTGACCCCGCTGGAAGCTTTGCCGGTTGAGAGGGATGCCAAAGACAAGCTTTTGGCCTGGCAAAACAGCTACCAGTTGCCGGCAGAAAAGGCAGCTGGTAAGGAGCTCTTGACCTTGAAAAATGTTGGCTTTGCCTACAGCGCCGACCAAAAATACCCTTTAAAGGACGTTAATACCGTCATCAAGGAAGGGGACTTCATCTCCATCGTCGGGCAAAACGGGGCGGGGAAGACCACCCTCTGCCGCTTGATCTGCGGCTTTTTGCAAAACACGGGCGAGATTGCCTGGCAAGGCGAGGACATGGCCGGCTTGTCCATCAAGGAGCGGGCGGACAAGATCGGCTACGTGATGCAGGATCCCAACCAGATGATCAGCCAGACCATGATATTTGACGAAGTAGCCCTGGGCTTGCGCTTGCGGAAAGTACCAGAAGACGAGGTCAAGGAAAGGGTGGGCAAGGTTCTTAAGATCTGCGGCCTCTACCCATTCAGAAACTGGCCGGTTTCCGCCCTCAGCTTTGGGCAAAAGAAGCGGGTCACGATCGCGGCGATTTTGGTCCTGGAACCGGACTTGTTGATTCTGGATGAACCAACAGCTGGCCAGGACTGGAAGACCTACACGGAAATCATGTCCTTCTTGCAGAAATTAAATGCAGCTGGCAAGACGATCATAATCATCACCCATGACATGCACTTGATGATGGAATACACTGACCGGTCACTTGTTTTTGCCAAGGGACGTTTGATTGCCGACACCACGCCGGTTGCGCTCTTGACTGATGAAAAGCTGGTCGAGCAGGCTTCTTTGCGGCAGGTCAGCCTCTTTGACCTGGCCCAGCATTACGGCTTGCCAGATCCGGAGGGCTTTGCCTGCAAGTTCGCGGCTTATGAACGGGAAAGATTGGGGGAAAACGCTAATGAATGA
>LACTIS1119B1_05920 membrane protein
ATGAATAAGTATATGTGGAAGTTAAGCCCTAAGAACATCGCTGCCTTGGGGATCGGGTCAGCCGTTTTCGTGATTGTCGGCCGTTTTGCCTCAATCCCAAGCGGTCTGCCAAACACCAACTTTGAACTGGTTTACGCCTTCCTGGCCATGATTGCCATGATCTACGGGCCAACTGTCGGCTTCGGGGTCGGCTTCATCGGCCACGTCCTCTTGGACTTGATGATGTACGGGCAGACCTGGTGGAACTGGAACTTCGCGGCCGGCTTCCTGGGCTTATTCATCGGCCTCTACGCTTTGCGCGTCAACATAGACCAAGGTGAATTCAGCGCTAAGGAAATGGTGATCTTTAATGTGGTGCAGGTCGTGGCCAACGCTATTGTCTGGTTCCTCTTGGGGGCCGTGGGCGACATGGTCTTGAACAGCGAACCAGCGGCTAAGGTCTTTGCCCAAGCCGGCCTGACTACCTTGATGGATGGTTTGACCATCGCGGTTTTGGGTACCATCCTGCTCAAGCTTTACGCCGGCAGCCGGGTCAAGAAGGGCAGTTTGCACAAGGATTAA
>LACTIS1119B1_05930 S-adenosyl-l-methionine hydroxide adenosyltransferase family protein
ATGGCATATAATAAGATGTTGGTTCTGCAGACAGACTTTGGTTTAGTAGATGGGGCGGTCAGCGCCATGCACGGGGTGGCCCACACGGTTGCCAGTGACATCCAGGTCTCTGACTTAACTCATGAAATCCCACCTTACGACATTTGGAACGCCTCTTACCGGCTTTACCAAACCATCAAGTACTGGCCAGCAGACACGGTCTTCGTCTCTGTCGTTGACCCAGGCGTTGGCTCAGCCCGCCGGTCAATTGCCGTCAAGACCAATTCCGGTCACTACGTCATCACCCCAGACAACGGGACTTTGACCCATATCTACAAGTATGAAGGGGTTGAAGCCGTCCGGGTGATCGATGAAAACAAGAACCGCCTGCCGCACTCCCAGGAAAGCAACACCTTCCATGGTCGGGACGTTTACGCTTATAACGGGGCCATGCTGGCCAGCGGGCAGGTTGCTTTTGAAGAATTAGGCGAAGATGTCCCAGTTGACAGCCTGGTGACTCTGCCGGTGATCGAGCCCCGCCTGCAAGGCAACACGGCCGTCGGCACCATCGACGTTTTGGACGTCCGCTTTGGTTCTTTATGGACCAACATTCCGCTGGAAATGGTCAAAGAGCTGTCCATCGACCGGGGCGACAGCCTGCTGGTCACCATCTTGCATCAGAACGTGGCCGTCTACCAGGAACACATCCCTTTCGTGCGGTCATTCGCGGAAGTCAACCTGGGCCAGCCACTCGTCTACATCAACTCCCTGGTCAACATCGGGATTGCCCTCAACCAGGAATCCTTCGCCGCTGTCCACCACATCGGCACCGGGACCGATTGGCAGGTCAAGATCAGCAAGGTTAACAAGTAA
>LACTIS1119B1_05940 amino acid permease
ATGGCGAAAAGACACGAAAACGCGGACGGAACGCTCCGGTCCTTATCGAACCGGCATGTCCAGATGATTGCCATCGGGGGCACGATCGGGACTGGTCTCTTCTTAGGGGCCGGCAGCACGATCTCGGCCACCGGACCGTCAGTCATTTTGATTTATGCATTCATGGGGGTCTTTTTCTTCTTCATGCTGCGGGCATTGGGAGAAATGTTTTACTCAGACCCCAACCACCATACCTTCGTCTCATTTATTACTAAATACCTGGGGCCAGCAGCCGGCAACTTCGCCGGCTGGTCCTACTGGATCGGCCTGCTCTTTGCCTGTATGGCTGAACTTACAGCGGTCGGGACCTACTTCCAGTACTGGTTCCCGCACGCGCCTCTTTGGCTGGTTGAGCTGATCTTCCTAGGAGCCTTGACCCTGCTGAACTTGACGGCAGCCCGCCTCTTTGGGGAAACGGAATTCTGGTTTGCCATGATCAAGATCATCGCTATTATCTCCATGATCTTGACCGGGGTCTTCCTGGTGGCAACCCATGTTAAAACCCCGGTTGGCTATGCTTCTTTAACCAGCCTGACCAAGAACTTCAAGCTGGCGCCAAATGGCACTTACGCCTTCTTTACCGCCTTCCCGATGGTCTTCTTCTCCTTTGCCGGGATTGAATTCGTGACTATCACGATCGGGGAAGCTGAAGATCCCCACCAGGTGATCAAAAAGGCGGTCAACGAGACCTTGTTGAGAATCTTGATCTTCTACATCGGGACTTTGACCGTGATCATGTGCGTGGTTCCCTGGCGGTCAGTGTCTGCCTCAAGCAGTCCTTTCGTCCAGGTCTTCCAGTTAGCCGGCTTCACTACCGCGGCTTCAGTTCTGAACTTCGTGGTTTTGACCAGCGCGGCTTCAGCCTTGAACTCAACCATCTTCTCAGCTGGCCGGCACTTCTTCCAATTAGCGCAAGAAGCTAAAAAGGGAAGCTGGCTGAAAGAAAAATTTGCCAAGATTGCGCCAAACGGGGTACCGGCAAGAGGGATCGCGATCTCAGTTTTATTCGCCCTGATCGCGCCAATTCTCAGCTTCTCTAACACGGCAATTGAGGCTTTCAGCATGGTCGCCGGGGCCACCAGTGACATCTTCATCCTGGTTTACGTCCTGGCCCTGCTGGCTCACTGGAAGTACCGCAAGTCCAGTGACTTTATGGAAGATGGCTTCAAGATGCCTTTTTACCAGGTAACCAGTCCATTGACGATTGCCTTCTTCCTGATCATCTTCTTCAGCCTCTTCTTCGTTAAGGCGGATATCTTTGGGGCCAGCCTGGCCACGGCCTGGGCCGTCTTCTTTGGGAGTTTCTGTTACTTCCACCAGCGGGTTAAGGACAAGCGGGCCGGAAAATAA
>LACTIS1119B1_05950 membrane protein
ATGACACGCGCAAACTTATCCTTAAATAAACACGGTCTGCCGCAAAAAGAAATCCTGCGGCACCGGAAAGTACCTGTAGTCTTGGCGATCTTGGTCATGGCCATGTTCTATATCGCTGGGCCGATTCTGGTTTTGATCAGCAACAAAGATGTTGAGACGGCTTCCTTGCTGCATGACGCCCGGACATATTATATTTTTCAAAATACGAGCATGTCGGCTGCGATGGTCGGGATCTTCGGCATCTACCTGGCCTTTGAAGGCTTTCGCTTCTTGCACGTGCCGCGGCAAGTGGACTATTACGAGAGCCAGCCGGTCAGCCGCAAGACCCGCTTCATCGGAATTACGGTCAACAGCTTGCTTATTTATAGCTTGCTTTACTTGCTCTTTTTCCTGGCCGGAATGCTGATCTTGGCTGCAGGTGGGGCTAATTTCCTGGCTGACGGTGAGGTCTGGCGGGGCTTTCTGGCTGACCTCTTTGCCTTTTCAGCCTGGTACGCTATCGCCTCTTTGAGCATGATGATCACAGGTAATACCTTTGTGGCTGGCTTAGCCACGATCTTTTTCTCCTGCTTTGAATTTGGCTTGATTTTTCTGAATTCAATCTTCTATTCCACCTTGGCAACTACGGCTGGCTATGACAATCATGATTGGCTGGCATACACCAATCCTTCAACTCAGGTTTATAACTCAAATCACTGGCTGGGGATCGGGATTAACCTGCTTTGGACCGTCCTTTACCTGGCCTTAGCCTACTGGGCTTACCAGAAACGGGCTAATGAAAAAGCAGGCAGAGCTGTGGCTTTTGCCCGGATTGAACAGGTGGTTAAGATCATCGTGGTTGTCTACTTCGCGGCAATTGGCGGGATCATTGGCTACACGATGATCGGCTTAAACTTTGCTTGCGGCATTATTGGTGCCCTGATCATTGGTTTAATAACTGCCAGCTTGATGGAAATCATCTACAAGTTTGACCTGGCTGCCTGGAAGCATAATTTTGTCCAGAGCTTGCTGTTAACCGTGGCGGGTTTAGCAATTTTGGCCGGCATGGTTTGGGGGGCCAAGCGCTATGATGATTGGCTGCCTGCAAGCAAGCAAGTAGCTAGTGTGGCAATTTCGCGGGATGACGGCATCTATACCAACTATTACATGGGTAAAAAATCAGCTAAAGGTGACGCCAGCGATTATGCCGCGAAATACATGTATTTGCCGGTAAACAGTGACCTCATAAATCTGGTTAAAGCCGGCAGCAAATTTACTCAGAACCGGTCCCATGAACGGGAAGATTCAGTCCAGATGCGCTTCGTCTTCAGAATGAAGAATGGCCGCGTCAAGACCAGGGTCTATGATGTGGATAGAAAGACGCTGAAGAAATACTTTGAACCAATCAGCAAGACCAAGGCTTACAAGCAGGCTTACTTCCAGATCTACCACGACCAGATGATTATGGACAATCTGGATAGCGTGTCCTTTACCTACACAAATGGCAAGGAAACGATCAAGCGCCAGGACAGCCAGCTTTACAAGGACTTCCGGGCAGCCTACAAGCAAGACTTAGCCAAGTGGGACTACCAGCAGGCCAGCCTGCAGAAGCCGATTGGCCAAGTCGCGGTTTCCTGGACGCGGGCAAATGGCAAGCAGGCTAAGATCTACTATCCGGTTTACAGCAACTACAGTCAGACAATTGCTTTCTTAAAGAAAAACAAATTGTATTCCGCAAAGAAAGTTAAATTGGAGTATCAACAGCCCTTAGATTTTTATCTTGAAGATCAATTCGGTTAA
>LACTIS1119B1_05960 ABC transporter ATP-binding protein
ATGATCGAGATTGATGCACTAAGCAAGGATTATGGGCAGACAGAGGCCATTAAGAACCTTAACCTGACCATTGAAGAAGACCGGGTCTTTGGCTTGATCGGGACCAACGGGGCCGGCAAGAGCACCCTCTTGCGGATGATCGCTGGCATCCTGCGGCCGACTTCTGGGCATATCACTATTGATGGCTTGCCAGTTTATGACAATCCAGCCGCAAAGAAAAAGTTTTGCTTCATTCCAGATGACCCCTACTTCTTCCCAAATGCCACAGCGGAGTCTATGGCCAGGGATTACGCGGCGGTTTACCAGGACTTTGACCAAGAACGTTTTGCCAGGCTGCTGGCGGACTTTCGCTTAGAGCCAAAGCGCCGCATACACGACTATTCTAAGGGCATGAAGCGGCAATTGGCGATCCTGCTAGGATTATGTACTAACACCAAGTACCTGCTCTTAGACGAAGTTTTTGACGGCTTAGACCCGGTTATGCGGCAGAGCATGAAGAGCCTTTTTGCCGAAGACATGGACCGGCGGCAATTGACTCCAATCATTGCCTCTCACAACTTGCGGGAATTGGAAGATATTTGTGACCACATCGGTTTCCTGCACAGCGGCGGTCTGCTTTTATCAGAAGACTTGGTCGACATGAAACTGGAAATCCAGAAGCTGCAGTGCGTCTTTAAGGACGACCGGGACATGGAGGAAGTCCTGGGCAAGCTGAAGCTGGTTGACCACAGCAGCCGGGGCCGCCTGCACACTTTGGTCGTGCGGGGGAGCTGGAGCGAAGTCGAGGCGGTCTTTGACCATGTGCCGATGACCTTCTTCGAAATCCTGCCGTTGACCTTGGAAGAAATCTTTATTGCAGAAGCGGAGGCAGTTGGCTATGACACGCGCAAACTTATCCTTAAATAA
>LACTIS1119B1_05970 GntR family transcriptional regulator
GTGGACTTTATTGACTATTTGGACAGCCGGCCGATTTACCAGCAGATCGCGGACAGGTACAAGCAGCTGATTCTGACCGGAGTCATGCTGCCAGATGAGCAGCTGCCGTCTGTGCGGAAGTTGGCCATGGAATTGTCGACTAACCCTAATACAGTGCAGAAGGCATACGCCGCGCTGGAACGGGAGGGATACGTTTACAGCGTCAAGGGCCGGGGGAATTTCGTCCGGGCCAATGAAACGCTGAAGAGCAAGCAAAAAGAAGAGCTGAAAGGGAAAATGATTGATTTAATTAAGGAGATTCAAGCAGTAGGCCTGGATCCACAGGAATTATTTGCTGAGGCCATGGAGGAGGCGGCAGAAGATGATCGAGATTGA
>LACTIS1119B1_05980 hypothetical protein
GTGGCTGAAAAGGGGATCGAAATTGAGAACTGGCAGCAGAGCAAGTTCTACCAGTGTGTTGGCCTGGTGGACTTGGCCAGCGACAAGCCGACCTGCCTAGACAATGGCAGCCATTTCCGCTTGCTTTATGTCAACGAAGAATTTCAGAAAGAAGTCAAGCGGGCACCGGCAGTCTTTAAGCAGATCGTTAATGAATGGAACAAGCCGGAATCAGAAATTGCCAAGCGGCTGCAGGCCTTTGACAAAAAGGTTGACCAGGGTGAGGCAAGCTACTTTGATCTTAAGCAAACCGAACAATATCTCCGCCTTAGTGCCCAGCAAATTGCCAGATGCTCTTGA
>LACTIS1119B1_05990 hypothetical protein
ATGGACGACTTTGGTAGCGGCTATTCTTCCTTAAACTATCTCAAGAATTTTGAATTCGATGAGATCAAGCTGGATATGATCTTCATGAAGGACTTTGACGAAGCTTCAAAGAAGATCCTAATCGCCTGCGTGAAGATGGCCAAGGACCTGGGAATCCATACTTTGGCTGAGGGGGTTGAAACTAAGCAGAAGTTGGACTTCTTGCAGTCGATTGGCTGCGAGCGAATCCAGAGCTTTTACTACAGCAAGCCCTTGCCAACCGGTTAG
>LACTIS1119B1_06000 hypothetical protein
ATGCAGGAAAAGGAAGAATTAAAGCAGTACTTGATCGACCACCTGGATGAAGCTATTGAAAAGCACTACCTGCAGGTTTACTACCAACCAGTCATCCGGACCTTGACCGGCCGCCTCTGCGGGGCGGAAGCCTTGATCCGCTGGATTGATCCGGTCAAGGGATTCTTGTCACCGGACGACTTTATTCCCCTCTTTGAAGAGATGAACTTGTCCTACAAGGTTGACCGTTATGTCATCCAAGAAGTTACCCATGGCCTGCGCGGGCGTATCGACAAGGGAGAAAAGCTCGTGCCAGTTTCCATCAACTTGTCCCGGGCAGACTTCCAGATGATGGATCCTTTGACCGAATTAAACCAGGCCATGCGGAAAAATGGCTTGCACTGGTCCCTAGTCCGCGTGGAAATCACCGAAAGTGCCTTATCTAAGGATGTTGCCGGCGGCCATTCACAACTTCCGCCAGGCCGGTTATGA
>LACTIS1119B1_06010 lipopolysaccharide biosynthesis glycosyltransferase
ATGACAGTTCCAGTATTTTATTCAATCAGTGACGACTTCACCCCATACGCGGCTGTCTCACTGCACTCTTTAGTCAAGCATGCTGACCCAAAGCGTGACTACACGGTAACCTTTTTGCACCAGGGCTTAAGCCGGGACCATGAAAAGGCCCTGGCCGCTTATAACAGAGACAATGTCCACATTAAGTTCTACGAGATGTCCGACGAACTCCTCAAGCCAATCCAGGACCGGAAGGAGAACTACTTGCGGGGCGACTTCTTTGCCATGTCCATTTTCTACCGCCTCTTTATCCCGGACCTCTTCCCGGAATACGACAAGGTAGTCTACATCGACAGTGACACGGTCTTAAATGACGACATCGCCAAGCTTTATGACCATGACTTAGGCAATAATCTCCTGGGTGCCTGCACCGACACTTCCATCCAGTTCGTGGAAAAGATGCTCCGCTATATCAAGGAAGTCTTGGCTCTGGATCCGAAGGAATACATCAATTCAGGGATGCTGGTCATGAACGCCAAGGCCTTCAGAGAGGAAAACTTCGTTGACAAGTTCTTCAGCCTCTTGGTCCGCTACCACTTTGACTGCATCGCCCCGGACCAGGACTACCTAAATGAAATCTGCTCCGGCCGGATCAAGTACCTGGACGGCCGCTGGGACGCCATGCCAAACGAAAATACCGCGGCCTTGGAAAATCCTGGCCTTATCCACTACAATCTCTTCTTTAAGCCTTGGCGCTTTAGCGGGATCCAGTATGAAGACTACTTCTGGACCAACGCCGAAGAAACCATCTTTGCGGATGAACTGAAGGCAGAACTGGCCAAGACGACCGATGAAGAAAGGGACACCGAATACCACAAGCTGGACCACATGCTGGGCAAGCTGGACATGACCCTGCAGGATCCCCACAACTGGGCCCGGGTTAAGGAAAATGAGCAGGTAACTTTATAA
>LACTIS1119B1_06020 DNA repair protein RadA
ATGGCCAGAGCTAGAACCCAGTATAAGTGCCGGTCTTGCGGCTACATCTCCGCTTCTTACCTGGGCCGGTGCCCGAACTGCGGGGCCTGGAACCAGTTTGAAAAAGAAAGCCAGGAGGTCCGCCAGACTTCTACTAAAGCTACTCCCAGCCGCTTGATGGCCAGCGTGGGTGCTAAAGAAGCCGTTAAAATGTCTACCGTCAAGGCGGAAAAAGAAGAGCGGGTTTTAACCAAGTCCTCTGAACTTAACCGGGTCTTAGGCGGCGGGATCGTACCAGGCTCTTTGGTCTTGATCGGCGGGGACCCCGGCATCGGCAAGTCCACTTTGATGCTGCAGATCATGAGCGAGCTGGCCGAAAAATACCAGGTCCTCTACGTCTCCGGGGAAGAATCTGCCAGCCAGATCAAGCTGCGGGCTGACCGGCTCGGCCTGGGCCAAAGCCCCATGCTTTTATACCCGGAAAGCAACATGGAACACATCCGCGACCAGATCGACGACGTTAAGCCAGATTTTGTCGTGATCGACTCCATCCAGACCATGAACGAACCCAGCCTGGACTCCATGGTGGGCTCAGCTTCCCAGGTCCGGGAAGTTACCGCGGAACTGATGAAGATCGCCAAGCTGGACCAAGTCACTGTCTTTGTCATTGGCCACGTGACCAAGGAAGGGTCCATCGCCGGGCCGAAAATCCTGGAGCACATGGTTGACACCGTCCTTTACTTTGAAGGTGACGAGCACCATGCCTACCGGATCCTGCACTCAGTCAAGAACCGTTTTGGGGCGGCCAACGAAATCGGCATGTTTGAAATGAAGACCGAAGGCCTGGCAGAAGTGACCAATCCTTCCGCGGTCTTCTTAGATGAACGCTTGCCCGACTCAACTGGGTCAGCCGTGGTCGTTTCTTTAGAAGGCACCCGGCCGATCTTGGGCGAAATCCAGGCCCTGGTCACCCCAACCGCCTTCGGCTATGCCAAGCGGACTACTTCGGGCCTGGACTACAACCGGGTCTCCCTGCTTTTAGCCGTTTTGGAAAAAAGGGGGAACCTAATGCTGCAGAACCAGGACGCCTATTTATCAGCCACTGGCGGCATCCGCTTAAACGAACCGGCCATTGACCTGGCCATCGCCATGGCCATTGCCTCCAGTTACTATGACAAGGAAATCTCTGCGACCGACTGCTTTGTCGGGGAAATCGGCCTGACCGGGGAAGTCCGCCGGGTCAACCAGATCCAGGCCCGGGTCAAGGAAGCGGGCAAGGTTGGCTTCAAGAGGATTTTTATCCCGAAATACAATATGAGCCCGGCCTTGCAGGATTTGGGGATTGAGGTAATTCCGGTCTCCAGCGTCCGCCAGGCCCTCCACTACCTTTTCTCATAG
>LACTIS1119B1_06030 deoxyuridine 5'-triphosphate nucleotidohydrolase
ATGAACAGAGTAAGAGGCTTTGAAGTAGTTAAGAAGTATGAAGGACAAGGCTTGACCCTGCCCCGCCGGCAGACTTTGGCCAGCGCCGGCTACGACATCGAAGCTGCCCGCGACATCACCATCCCCAGCATCTGGAGCTTGAACTTCGTCAGGATCTTCCGCTTGATCAGAAACGGCCATGACTTGATCGAAAGCGACTTTTTGCAGGCTGAAGAAGTCTTAAGGCCGATCTTAGTCCCAACTGGCATCAAGGCCTACATGCCAGAAGACGAGGTCCTGATCCTGGCCAACCGGTCCTCCAACACCTTCAAGCGCAACCTGTCCTTGCCAAACGGGATCGGCGTCATCGACAGCGACTACTACAACAACCCCAACAATGAAGGGGAGATCTTCGTCCAAGTCTTGAACTACGGCGTCCGTCCTCTCAAGATCAAAAAGGGTGAACGGATCGCCCAGGGTATCTTCATTAAGTACCTCAAAACTGATGACGACCAGCCAATCGAAAGCCAGCGCTTAAGCGGCTTTGGCTCAACCGGCAAGAAGGGCGGCAAGTAA
>LACTIS1119B1_06040 hypothetical protein
ATGCCAGAAGAAAGAGAAAAAGTCATTGAAATCAAGGCTGACGGCCAGTTGGTTGCCAAAAGTCCCCTCCTCTTGATCGAGAGAAAGAGCGGGCCGGTTTGGGCCATGAACCAGCTTTTTATCGCGCCGGGGGCACCAGAAGGAACTTTGGACCAAGTGATGAAGCAAGTAGAAAAGCTTTGCCAGGAGACGGGCTTAAAAGTTTGGCCTTTAGACCCGCAAGTGATCGCTTATTGTCAAAAGCATGGGGAATTGACGAACATTTGGGCCGGGAAACCAACAAATTAA
>LACTIS1119B1_06050 aminopeptidase C
ATGTCAAAAGAAATCAGCTTTGACACGATCGAAAACTTCACCAGCAACTTGAGCAAGCACCCAGCTTACGGGGTAGCTGCCAACGCTGCCCAAACCAACGGGATTTTCAAGGCCAGCCAAAGCACCCAAAGCAAGGTTGACCTGGACCCGACCTTCTCAGTGGAAATCGACACTGGTTCAGTTACCAACCAAAAGCAGTCAGGCCGCTGCTGGATGTTCAGTGCTTTGAACACCATGCGTCACTCAATCCAAAAGGAATTCAAGCTGAAGGGCTTTGAATTGTCACAGAGCTACACCTTCTTCTGGGACAAGTTTGAAAAGTCAAACTTCTTCTTTGAAAACGTGATCGGCTCAGCTGACAAGCCACTGGGCGACCGGAAGGTCTCCTTCCTCTTTGCCACTCCGCAATCAGACGGCGGGCAATGGGACATGCTCTGCGGCTTGATTGAAAAGTACGGGATCGTGCCGAAGAAGGTTTACCCGGAAACTGCTAACTCAGAAAACTCCCGCGCTTTGAATGACACTTTGAACACCATGCTCCGCAAGGGCGGTTTGGAACTGCGGGCTTTGGTCAACGAAGGCAAGAGTACAGAAGAAGTAGAGGCGCACAAGGCTGAACTTTTGGACGCTATCTTCCGCATGCTGGCCACTTCACTTGGCCTGCCGCCAAAGAGCTTCAACTTTGAATACACTGACGATGACGGCAACTACCACATCGACAAGGACATCACCCCGCAAGACTTCTTCAAAAAGTACGTTGGCTGGGACCTGGAAAACTACATCTCAGTTATCAACGGGCCTACTGCTGACAAACCATACAACAAGGTCTTCTCAGTAGAATACCTGGGCAACGTGGTTGGCGGCCGGCAAGTCCGCCACCTCAACCTGGAACTGTCCAAGTTCAAGGAACTGATCATCAACCAATTGAAGCAAGGCGAAGTTGTTTGGTTTGGTTCAGACGTTTCCAAGGGCGGTGACCGGGAAGCCGGGCTTTTGGACACTAAGATCTACCAAAGAGACCAGCTTTTTGACTACGACTTCTCAATGAGCAAGGCTGACCGCTTGGACTCAGGCGAAAGCATGATGAACCACGCCATGGTTATCACTGCCGTTGACCTGGTTGACGACAAGCCAACTAAGTGGAAGATCGAAAACTCATGGGGTGACAAGCCAGGCTTCAAGGGCTACTTCGTCATGAGCGACGAATGGTTCGACCAATTCGTTTACCAGGCTGTTTTGAACAAGGCCTTCCTGCCAGAAGACGTTAAGAAGGCTTACGACGAAGGCAAGGAAAACCCAATCGAACTTCTGCCATGGGACCCAATGGGCGCTTTGGCTTTCGACTTCTAA
>LACTIS1119B1_06060 hypothetical protein
TTGGTAAAAGACAGAGAAAAAGCTTTTCCCCAGGATTGCGGGGAAAAGCTTTTTTCATGTGATTACACTAAGCTGACAGACTTGAATCACAAACAGCTGGTTTATCACTTCTTGTTTAGAAAACGGGCTGCGAGAACGGTGGATGCCTTGATCATGCCAGAAGAAGGGGGGACGCGGACGGAAAAATACGTGGACCTCAATAATGACTGGCTGCCAAAAACAGATCAAAATATCGCTATTTTGCTGACGCATTTGAATGCCAAAGACGTGATTCAATGTTTTGTTCAACACTAA
>LACTIS1119B1_06070 2', 3'-cyclic nucleotide 2'-phosphodiesterase
ATGCGCAAATTATTTCTTTTGAGAGGCGCGCCCGGCTCTGGCAAGTCTTCATTTATCGCTCGGCACCACTTATCGCCGTACGCGATCAGCGGGGATGCGATCCGCCTGCTTTTGGCGAACCTGACCGTTTACTATGACCAGAAGACTGACGTTTTGCACCAGGTTATTCCGCGGCATGTCACGGAACAGACCAAGCGGATGAAGGACAACTTGGTTGAGCACAAGATGTCCTATGGGGAAACTGTCATCGTGGACGGGACCCACATTGTCGCCAGCGAGATCGATCACTACAAGAAGTGGTGCGAGAAGTACCATTACGAGTGCTATGTGGTTGATTTTATGCAGAACCAGACCCTGGAAGGTTTGTTGAAGAGAAACCAGATCCGGATGCAATACGACTGGGTGAAGCCGGAAGTCATCACGATGATGTACAATTCTTACAAGGCGCACCCGGAGCTGCCCAAGTGGGTTAAGGGGATCAAGCCCAACCAGATGGAGCAGGCCCTGCAGCAGAGAGAGAACAATCTGGACCATTATTCACATGTGATTGCCATACCTGACGAGGTGGCGGAAGAAGATTTTCCACATGTGCACATTTCCAACTTCTACTTCTCTTTCAACGACAAGTTCAGTGAAAAGTACGGGACTTACCGGAATGTGGTGACGATCGGCAAGACCAAGGAAGAGGTGGTCGACGAGTTCCGTCTGCCATACTTTGCCTTTAAGTTCCACCACAAGCACTTTTTGATTTCGGCTTACCCGATCAGAAACGAGATGCTGGACCCGGTCAAGAAGGTCAAGGGGACCTGGTCTTACACGACCGGCCTTTACAACGTGGCTGACTTTATCAGAGAATTTCCGAAAAACGATAAATCACACGTTCACCAGTTTAATTTGAGCAATCTGGACCGGACCAGACTTTTGTACATTTGGTAA
>LACTIS1119B1_06080 3-hydroxyacyl-ACP dehydratase
ATGGATTTGATTCCCAACCGCTACCCGATCTGCTATATCGACCGGGTGGAGGAATTGGAAGCCGACAAAAGGATCAAGGCCGTGAAGAACGTGACGATCAACGAGCCCTTTTTCCAGGGGCATTTCCCGGGAAATCCGGTGATGCCCGGGGTCTTGATCATTGAAACTTTGGCCCAGGCGGCCTCGATTTTGATCTTGAAGTCACCGGCCTTTTACAAGAAGACTGCTTATCTTGGAGCGATCCACCAGGCCAAGTTCAGAAGGATAGTCCGGCCGGGGGATGTTTTGGAAATGGAAGTGAAGATGCTCAAGGTCCGGGCTAAGACGGGGAGCGTGGAGGCAGTGGCTAAAGTGAACGGGGACGTGGTCTGCCAGACGGAACTGGTCTTTATCGTGGGTGACCGGGACGGCAAGGACATGCAGGCGAAAAATTAG
>LACTIS1119B1_06090 2,3-bisphosphoglycerate-dependent phosphoglycerate mutase
ATGGCAAAGTTGGCACTGCTGAGGCATGGGGAAAGCCAGGCCAATGCGGCAAACGTATATACAGGATGGAATGACGTCCCCTTAACGGATAAGGGCCGGCGGCAGGCCTGGGCAGCAGGGGAGAAATTAAAAGAAGTCGGGGACTTTCACCCGACTATGATTCACACCTCCCTTTTGTCGAGGGCAATTGAGACGGCGAACATCGCGGCCGAAGCCGCGGGCTTTTTATACCTGCCGGTTGCAAAGACCTGGCGGCTGAATGAACGCCACTACGGGGCCCTGCGGGGCCTGGACAAGGACGTGTCCAGGAAGATTTTCGGCAAAGAACAGGTTTTAGAGTGGCGGCGGGGCTTTGACGCGGTTCCGCCAGCGCAAGGGTCACCAACTATCGACCGCCGCTATTGGGGAGTGGACCCTCAGCTTTTGCCAAGAGCGGAGAGCCTGCACCAGAGCCAGCTCCGCCTGTTGCCTTACTATGAAGACGAGGTGGCCAGCCGCTTAGTGGCTGGGGAAGACCAGCTGATCGTGGCCCATGGCTCCAGCCTGCGGGCGCTGATCAAATATTTAGAAGACATCAACAATGTGGATATCCTCAAGCTGGAGGTGCCTAACGCCCAGCCCATTGTCTATGACTTTGACCAGGAGCTGAACATTGTGGATAAGATGATCACCAACTGA
>LACTIS1119B1_06100 hypothetical protein
ATGAACGTTCATTCCTGGTGGGTTCCTTATGCCATCTTGCTTTTCGGCATCTGGGATTTAATTACCGGCATCACGCGCCTGCGCCGGCAGAAGCAGGGCGTCAAGCAGAAGGGGCTGGGGGGCAAGGCTTTTGTCCTCTTAGGCATCCTCTTCATCATTACTGGAATATGGGATTTTTGGCTCTAG
>LACTIS1119B1_06110 hypothetical protein
ATGAAGTGGGATACGCACACTTTTACGCTCGTTTTGCTGGTGATCGTGGGCCTGTGGGAATTTGCCCGGGGCTATAACATCCAGCGGATGGGGAAGAAGGACAGCCTGCCAGCCAAGTCCTACTACCTGACCGGGGCCGGCATCCTGGTCGTGGCCATTTATTACGCGGTAAAGTTGTGGGGCTAA
>LACTIS1119B1_06120 phosphoglycerate mutase
ATGAAAACTGAAGTTTATCTGGTCAGACATGGGGAAACGCTTTTTAACCGCCTGAACAAGGTACAGGGTTGGTGCGATACCCCCTTGACCATCAAAGGAATTGACGATTTAAAGAAGACGGCTGCCGCCCTCTCTCAAATTCATTTTGACAACATGTACTCGTCAGACTTGAAGCGGGCGATTGACACCGTCCACTTGATGAAGGACGCCAACCAGGTGTCTAAGATTGGCAAGATCAAAAAGCTGCCGGAATTCAGAGAAGTTTTTTACGGCTCTTTTGAAGGCGGCAGCATCGATGATATCTGGCTCAGTGTTTCTAAAGCCGCGGGCATTCCAGCAACCACTGACGTAAAGAAGATCATCGATACCATCGGCATCTACAAGTTCCGGGAAGTCACTAAAAAGGCTGACCCCCTCCATTTGGCCGAAAACACGGAAGAACTGGAAACCAGAATGTGCCGGGCCATCAAGGTCTTGAGAAAAGAGACCAGCGGCGAAGGCCGGGTCTTGCTGGTTTCCCACGGGGACTTTATCAAGACCCTGGGGATCAAGTACTGGAAGGAAAGCGACGGCCTGCATGACATCACCTTCCCGGACAATGGCAGCGTCAGCCGGGGGATTTTGGACGAAGAAGGCAATTTTGAAATTGTCGACTACAACTGCAAGGCTGAAGATTTATGA
>LACTIS1119B1_06130 sulfite exporter TauE/SafE family protein
ATGCAGTTCATTTACCTCATTATCTTAGGCGTCCTGGCCGGCATCGTGGCGGCGGTGGCCAGCATGGCGTCGCTTGTCTCTTACCCGGGCCTGCTCCTCTTCGGCCTCAGCCCGGTCAGCGCCAATATGACCAATACGGCGGCCCTGGTGACGACCGGCTTTGGCTCCTTGTCCTCCTGCTTAAAGGAGATGCGGGGGCACTGGGGGGAGCTTTGGCGCTATGCCTTCTTCCAATTGACCGGGGCCTTAATTGGGGGCTGGCTTTTAGTCCAGTTCCCGGGAAAAATCTTTCAAAAATTAGTGCCCTTTTTTGTCCTTTTTTCAGCTGGCCTGCTCCTTTACAGCGGCCGGCAAAAGCAGCCAAAGCAGGCGACCAAGCTGGGAAGAATCGGGGCTTATTTTGGCTTGTTCGTGGCCGGGATCTATGCCGGCTACTTTGGGGCGGCGTCGGGCGTTTTGACCTTGATCTTTTTGACGGCTTTAAGTGACTCTTCTTTTGTCGTCATCAACGCCATTAAGAGTGTGATCGGTTCTTTAGCCAACCTGGTGGCTCTGGCGCTATTTGCCTTTAAGGGCGGGGTCAACTGGCCAGTAGCTTTTCCTTTGGCGATTGGCCTCTTTATTGGTGGCTATTTCGGGCAAAAAATGATTAAATATCTAAAGCCTGCCTGGGTCAGGTGGATCACGGCTTGCTTCTCGGTTCTTTTGGCCGTTTACCTGGGCTGGCGGGCCTGGGGTTAA
>LACTIS1119B1_06140 4-methyl-5(B-hydroxyethyl)-thiazole monophosphate biosynthesis protein
ATGCCAACTGCAGCAATTGTTTTTTCAGATGGATGTGAAGAAATCGAAGGCTTAAGCCAGGTCGACGTCCTGCGCCGGCTGGGCATCCCTTGCGATATGGTGGCTCTGGACAACTTGACCATCACTGGCGGACACGACATCCGCTTTACCTGCGACAAGTTAGTGGACGAATCCCTACTTGACTACGACTTGGTCGCCTTCCCGGGAGGGGCCCCGAACGCCAAGCACCTAAGAGCAAGCGAGAAGCTGGCCGGGCTGATGAAGCAGCGCTTCGCGGCCGGCAAGTGGAACGCCGCCATGTGCGCCTCCCCGATCGCCTTGTCTAAGTACGGCTTTTTAAAAGAAGCCAAGTGGACCAGCCACCCGGACTTTAAAGAACAAGTTGCCAGTGAAAACCCGGCCAGCACCTACGTCGACACCCCAGCTGTCATTGACGAGGACCACAAGCTGGTCACCAGCCGGGGGCCGGCCACTTCCTGGGCTTTTGCCTATGCCCTGGCCCAAGTTTTAGGCGTGGACACCAGCCAGCTGGAAGACGCCATGCAATACAGCTACTTAAGAGACCACATCAACGAGGCTTAA
>LACTIS1119B1_06150 GNAT family acetyltransferase
ATGACTGAAGAAACCTTAGTCAGAAAGGCAGAAAGCCGGGACCTAGAGGACATTGTCGCCATCATCAAAGACGCCAAGGCCCTTTTGAAGGCGCAAAACTCCAGCCAGTGGCAAGAAGGCTACCCTAACCGGGCCAGCATTGAAGAAGACCTGGACAACCGCCAGGGCTGGGTTTTACTTAAAGATGGGCAAGTCGCCGCATATATGGCCGCGACCGACTTTGACCCCAACTATGAAGTCCCGATTTGGGCGGGAAGTTCTCCCTACTGGGCTCTGCACCGCTTCGCCATTAAGAAGGATTTCCGCGGACAGGGGCTCAGCCAGCTTTTGCTGAAAAAAGTAATTGCTTTTGGCCAAGAAAATGGAATTAAGAGCTTCCGCCTGGATACGGGCAAGCAGAACCAGGCCGTCCAGCACCTGGCTGACAAATTGGGCTTTGTCTACCGGGGCATCATTACGGTGACCAGCGACTCGGTCGACCCGGAGCGGTGGGCCTATGAACTGCTTTTTGACAAGTAG
>LACTIS1119B1_06160 L-alanine-DL-glutamate epimerase
ATGGCTGAACAATTGGCAGTTGCAGACCTGCAGGTCGACATTAAGCAGATTCCCTTAAAACAGCCCTTCGTCACGGCCCTGCACCGGGTTGACGCCGTCAACGCCGTCCGGGTGACGGTCCGACTGGCTAACGGAGTAACGGGTATCGGTACCTGCACCCCTAATGAAAAAGTGACCGGGGACAGCTTGTCCAGCGCCCGAGCCGTTATTGAAGAAACGATCAAGCCTCTCGTCTTGGGCAAGAACCTGACCGACTGGAAGGAACTTTTAAACACGGTCAAGACTTCCATCGTCCACAATGCCCCGGCCAAGGCCGCGGTCGAAATCGCCCTCTACAATACCCGGGCCAACCTTTTTGGCCTCACCCTCTCCCAACTCTTAGGCGGCAAGGGCGGCAGCGTGGAGACCGACTACACCATCAGCATCGGCAAGGCTGAGCAAATGATCGCTAACGCCCAGAAGATGGTCGATCAAGGCTTCAAGACCCTTAAACTGAAATTGGGGGCTGGCCATTTAAAGCGGGACATCAAGCGGGACATCAAGCTGGTCGAAGACCTGGCCTACGCGGCTGGTCCTATGGTTCACCTGCGCTTAGACATGAACCAGGCCTGGGATGTCCGGCAGACCATGCAGGCGGCAGAATTCTGGTACAAGCAGGGCCTTTTGATCGACTTTATCGAGCAACCGGTCCCGGCCTGGGACCTGGATTCCATGGCTTACTTGACCCGCCACTCCCCTTACCCGATCATGGCGGATGAATCCGTGGAAAGCTACGAGGATGCCCAAAGAGTTTTGGCCAAAAATGCCTGCGACTACATCAACATCAAGCTGATGAAGACGGGCGGCTTGTCTGAAGCCCAGAAGATCAACGACTTAGCCGAAAGCCGGGGGGTGCCAACCATGGTCGGCAGCATGATTGAGTCAATTGAGTCTTTGGCGGCAGCCTGCGCCTTCTACCGGGCCAACCCGAATACGATTTTTGCCGACCTGGACGCCATCTTCATGGTTGGCCAGGACCCGGATTTGAATAGTTACGCCGAATGCGTCGGCGATAATATCGTGGTGAGATAA
>LACTIS1119B1_06170 beta-lactamase class A
ATGCTGGATTTTAAGAAGATTGCTGACATCCTGGCTCCCCTGCCTGGGAAAACCGCCCTTTTGATCAAAGACAAGACCGGCGTCCTCTACGCCAGCCCCTTAGCCGGGGAAGAATTCAAGTCAGCCAGCCTGATCAAGCTGGCCGTGGCCTGCTACTACCAGGCCCACCCGCAGGACTTAAGCCAGATGGTCCATGTCCCGGAAGACAAGATCGTTGAGGGCGGGATGCTTTGCCACCTGGCCCAAAGGGACTGGATGCTGCGGGACATTCTGGACTGGATGCTGTCGGACTCGGACAACACGGCCACCAACTTTTTGATCGATTTTATCGGCTTTGCCAAGATGGCCGCCTGGTTTGAAGCAGAATTTGCCCATCTTCACCTGGGCCGGTACTTGATGGAAGTGACTGACCGGGAAAACTACCTTTCCGCTGAAACTGCCCTGGAGCTCTTAGAGCGGCTCTTAGCTGACCCGTCTCCTTTTGGCCAGGTCTGCCAGAAGGCCCTCTTTTACCAGGAGTCCGTTAACAAGCTCCTCCAGGACCTGCCCGAGGGCTGCTCTTACAGCAAGACCGGGGAACTGGAAGACACGGAGCATGACGCGGCCCGGATTTTTTCCGGAGACAGTTACTATGACATCTGCTTCATGAGCCATTACACGGGCCTGGAAGAGCGTGAGCAGATCCTTTTGGCCCAGAACGCGGTCGGGAAACTGGCCTACCAGGACTTGACCGGGAAATAA
>LACTIS1119B1_06180 hypothetical protein
ATGGACATTACCAATTTTTTCACGGTTGAGACTTCTGAGCTCTCCAAATCTGACCGGAAAATCATGAAGAGAATGACCTCCGACTTGACCAATGTTGAGTCGCTGACCATCAACCACCTGGCTGAAGAAGCGGGAACTTCCCTGGCTTCCGTTCAGCGCTTCTGCCAGAAAATGGGCTATTCCGGCTTTAAAGAATTCAAGTTCCAGCTGCTGACCTACATCAAGAAGCAAGAGAGCCAGGAGGCGGCGGTTTCAAGCAGCGAATACCTGGATGACTACCATGACGCTATCAACCGGGTCTGGACAGCAAATGAAAAGGACGCGGAAGAATTGGCGGAAGTCCTGGCGACCAGCTCGACCAACTTTATTTTCGGGATCTATTATTCTGAACTGCCGGCCAGGCTGCTCAGCATGGGGATGCGGGATCTGGGCAAGTCGACCTACTTTGGGGACAACCTGGCAGCTGGCGAGCACCTCTTCCCGCTAAGCGATGAGAACTCCACAGCGGTCTTTTATTCAGTTTCAGGGATCTCCAAACTTTTTGGCTCATCGCCCTTGCCCAAGTCGATTTCCCACTTCAAGCACAGCTACCTGGTCACCATGAACCCGGACACGCCTTTGAAGAAGTACTTTAAGAAGGTCATCGTCCTGCCGGGCAAGAACCTGGCCCAGGGCCTGCCGGTCGACCCCCAGTCGATCCCGGTGGTCTTTACTGAAAGAGTGATTGATATCGCGGCAACTAAATACCGCCGATAA
>LACTIS1119B1_06190 dipeptidase PepV
ATGGACTTAAACTTTAAAGAACTGGCGGAAGCCAAGAAGGACGCGATCTTAAAAGACTTAGAGGAATTGATCGCCATTGACTCTTCCGAAGACCTGGAAAACGCCACGGAAGAATACCCAGTTGGCAAGGGTCCGGTTGACGCCATGACCAAGTTCCTCAGCTTTGCCAAGCGGGACGGCTTTGACACGGAAAACTTCGCCAACTACGCCGGCCGGGTCAACTTCGGTGCAGGCGACAAGCGCCTGGGCATCATCGGCCACATGGACGTAGTGCCAGCTGGTGAAGGCTGGACCCGGGACCCCTTCAAGATGGAAATCGACGAAGAAGGCCGGATCTACGGCCGGGGCAGCGCCGACGACAAGGGGCCAAGCTTAGCTGCCTACTACGGGATGCTTTTGCTCAAGGAAGCTGGCTTTAAGCCAAAGAAGAAGATCGACTTCGTCTTAGGGACCAACGAAGAAACCAACTGGGTCGGGATCGACTACTACTTGAAGCACGAACCGACTCCAGACATCGTCTTCTCACCAGACGCTGAATACCCGATCATCAATGGTGAACAAGGGATCTTCACCATGGAATTCAGCTTCAAGAACGATGATACTAAGGGCGACTATGTTTTAGACAAGTTCAAGGCCGGGATTGCCACTAACGTGACTCCGCAGGTTACCCGGGCTACTATCTCCGGACCTGACCTGGAAGCTGTTAAATTGGCTTACGAAAGCTTTTTGGCAGACAAGGAATTGGACGGATCATTTGAAATTAATGACGAAAGCGCCGATATCGTCTTGATCGGCCAAGGGGCCCACGCTTCAGCTCCGCAAGTCGGCAAGAACTCAGCAACCTTCCTGGCCCTCTTCCTGGACCAATACGCTTTTGCCGGCCGGGACAAGAACTTCCTCCACTTCCTGGCTGAAGTGGAACACGAAGACTTCTATGGCAAGAAGCTGGGCATTTTCCACCACGATGATCTGATGGGCGATCTGGCCAGCAGCCCGTCCATGTTCGACTACGAACACGCCGGCAAGGCCAGCCTCTTGAACAATGTCCGCTACCCGCAAGGGACTGACCCGGACACCATGATCAGGCAGGTTATGGACAAGTTCAGCGGCATCCTGGATGTCACTTACAACGGCTTTGAAGAACCGCACTACGTGCCAGGCAGCGACCCAATGGTGCAGACTTTGCTCAAGGTTTACGAAAAGCAGACCGGCAAGCCGGGCCACGAAGTCGTAATCGGCGGCGGGACTTACGGCCGCCTCTTTGAGCGCGGGGTTGCCTTCGGGGCCCAGCCGGAAAACGGCCCAATGGTTATGCACGCCGCCAACGAATTCATGATGCTGGACGATTTGATCCTGTCCATCGCTATCTACGCTGAAGCCATCTACGAATTGACCAAGGACGAAGAGCTGTAA
>LACTIS1119B1_06200 amino acid permease
TTGCTTTATGGAGACCGCAGCATTGAAAACACGGACGGGACTATCCGCTCCTTGTCCAACCGGCACGTGCAGATGATTGCCATTGGCAGCACGATCGGTACTGTCCTCTTCTTGGGGGCCGGGACCACGATTTCCGCCACTGGTCCCTCAGTTATTTTTATCTACGCCATCATGGGCTTCTTTTTCTTCTTCCTCTTGCGGGCCTTAGGAGAGATGTTCTATTTTGACTCCAACAGCCACACCTTCGTCTCCTTCATCACCAGATACCTGGGTGAGGCGGCTGGCCGCTTTGCCGGCTGGACCTACTGGATCGGCATCCTCTTTGCCTGCATGGCGGAGCTGACGGCCGTTTCAACCTATGTCCAGTACTGGCTGCCCGGCCTGCCCGCCTGGCTGATTGAAGTTAGCGTCCTAGGCCTCTTGACCCTGCTCAACTTGACGGCGGCCAAGCTTTTTGGCGAAACTGAATTCTGGTTTGCCATGATCAAGATCATCGCCATCATCTCCTTGGTCGTAACCGGGATCATCATGGTTGCCGCGAATGCTAAAACTCCGGTTGGTCACGCCAGCCTCAGCAACTTCACCGGCAGCTTCTCCCTTTTGCCAAAAGGCAAGTACGCCTTCTTCACCGCTTTTCCGATGGTCTTCTTCTCCTTTGCCGGGATTGAATTCGTGACGATTACCATTGGCGAGGCCAAGAACCCGAAGAAGGTCATCAAGAAGGCCGTCAACGAAACCCTGCTCCGGATCCTTCTTTTCTACATCGCTACTTTAGCCGTAATCATGTGCGTCATCCCTTGGGGAGAAATTACCAGCGGGACAAGTCCTTTCTTCCAGGTCTTCAAGATCGCCGGCTTTAATGCTGTTGCTTCAGTCTTCAACTTCGTCGTATTGACCGCCGCGGCTTCTTCTCTTAACTCCGGGATCTTTTCTGCTGGCCGCCACTTCTTCCAATTGGCTGAAGAAGCGCCTAAGGATTCCTTTTTGAAAAAGCACTTCGCCAAGATTTCCGCAAATGGCGTGCCAGCCGCGGGGATCGTGATCTCCGTTGCCTTAATGCTGATCGCGCCAATCATGAGCTTCTCCAGCACGGCTATTGAAGTTTTTGGCACGGTGGCCGGGGCAACGAGTGACATGTACATCCTAGTTTATGTTCTGGCCCTACTGGCCCACCGCAAGTACCGGGAATCCAGCGATTTCATAGCTGCCGGCTTCAAGATGCCTTTTTACAAGCTCTCCAGTCCTTTGACCATCGCCTTCTTCCTGGTCATCTTCTTCAGCCTCTTCTTTATTCCGGCTGATGTCTTCGGGGCAAGTCTGGCCGCCAGCTGGGCCCTCCTCTTTGGGGGCTGGTGCTGGCTCAGAGAAAAGCATTGA
>LACTIS1119B1_06210 hypothetical protein
ATGACTAAGCTGGAAGCCTTCCGCCAGGCCAACCCGGATTTGACCATCCTGGAAATCTCCGACCCGGCCTTTGCCCAGTATGGGGTCAAGTATGACTATCCCCTGGAAGAAATTGAACAGGTAATGGCCCAGGTTGAAATGCCCGCTAAGGGATCAAGCTACCTGCAGAAGATTCCGGCCTTGGAAAAGACGGAAACGATCCAGCGGATCGGCCGGGATGTTTTCGCGGGGATGCCAGTTGACGCCGGGGCCACGATCGGCCACACGGATGACTTTTCCGCTTTTGAATACCACCAGTGCTCAGAATTGAACATCATGCTTGATGATGTTCTGATGGTTTTAGGCAAGCGGCAGATTCTGGATCAAAGGGGCCAAATTGACCCGCAAAAAGACGGCCAGCTCTTCTATGTACCAAAGGGCTCGGTTGTTGAACTTTACAATACGACTCTCCATTACGCGCCGATCCAGATTACTAAAGCAGGCTATAAAGTGATTGTCGTTGTCCTGCAGGGAACCAACCTGCCATTGCCAGATGGCTTTAAGAGTGACAATCCGCGGGTGGTCAAGCAGGGGAAGTTCCAAGTGGTTCACCCGTCCCGGACGGACAAGATCGCCCAAGGCTACCAAGTTGCCTTGACTGGGGACTTGCTCACTACCCGGCCGCTTGATTAA
>LACTIS1119B1_06220 galactose-6-phosphate isomerase subunit LacB
ATGTTAGATAATGATCGTCCACAACCAGAATACGTTGATCCAAAAATTGACAAGCACACGGTTATCGCTTTAGGTAATGACCACATTGTTACTGCAACCAAGATGCTCATTTCCGACCACTTGAAGGATGAAGGCTACCAAGTCCTGGACATGGGGACTTACGACAACTACCGGACCCACTACCCAATGTACGGCAAGCGGGTGGCTGAAGCTGTTGCTGACGGCCGGGCAGACCTGGGGATCGTCCTTTGCGGGACTGGGATCGGCATCTCAACTGCCGCTGACAAGAATGAAGGGATCCGGGCAGCCATGGTAGGTGACGTTACCCAGGCCATTTACGCCAGAGAAGAACTGAACGCTAATGTTTTGGGCTTTGGCGGCATCGTTTTGGGCCGGGATTTCATTTTTGACATCGTTGACGGCTACTTGAATGCTGAATACAAGCCAAGTGAAGAAAACAAGAAGCTGATCGACAAGATCGACCACATTGCCAAGCCAAACCCAGATCAAAAGGACAATGAACACTTCTTTGACGAAGAAAACAAGAAGTGGGCACAAGGTGTCTACCATGACTAA
>LACTIS1119B1_06230 galactose-6-phosphate isomerase subunit LacA
ATGAAAGTTGTTATCGGCAGCGACAAAGACGGATTTAACTTGAAGGAATCAGTCAAGGACTACCTTCAAAAGCATGATTATGAAGTCCTGGATGTTACTCCAGAACCAGCGGAAGACTTTGTGGAATCAAGCCTGAAGGTGACCCACGAAGTTTTGGACAACGGCATCAAGAAGGCCGTCATGTTTGACCGCTACGGCGTAGGCTCAGCCATGGCCTCAAACAAGGTCAAGGGGATGGTCACCGCCGACGTTAACGAAGAACGGACCGCGCACATGACCGCGATGCACAACGGTGCCAAGGCTATTGCTTTGGGCAGCGGGGTAGTGGGGCCAGACCTGGCCAACACGATCGTGCAAAGATACTTGGATACTGAATACGCCGCAGGGCGTCACCAAGTTCGCTTGGACATGCTTGAAAAGATGATTTAG
>LACTIS1119B1_06240 DeoR family transcriptional regulator
ATGTTAAAGAGAGAACGTCTTGATCAAATAATGATCGCGGTTACCAAGCAAGGTTATGTTTCAGTTGCTGATCTGGCAAAGGCATTGAATGTCTCAGAAATGACCATCCGGCGGGATCTGGATGAATTGTCCAAGTCCGGCAAGGTCATCCGCCTGCACGGCGGGGTCCAGGCTATTTCATCCCAGAACCAGATCGAGCAGAATTTCCAGGAGAAAAGAGAAATCCACATCCAGGAGAAGCAGGAAATTGCCAAAGTGGCGGCAAGTCTGGTTAATGACAATGAAACCATCTATGTCGGCCCGGGAACCACGCTGGAATTTATGGTCGCTTGCTTAAATCAGGAGAATCTGCGAATCGTGACCAATTCACTGCCGATTTTTGAAATGGCACGCAGCAATCCGCGCAATTACAAACTGGTTTTGGTCGGCGGCTCCTATCGCCGGGTCAGCGGCAGCTTCTATGGTGCGCTTTCCAACAATGAGCTGGATTCGATGAATTACGACAAGGCCTTTGTTGGTGTCAATGGGATTAGTGATGCTGCCCTTTTGACAGCGGATATTGAAGAAGGACAAACGCAGAGCATTGGCCTTAACAATTCGCAAAAGCGGATCTTGGTGGCTGACATGTACAAGTTCAATCACCGGGACTTTTACCAGTTCTACAGCCTGTACGATATCGACGAACTGGTTACCAATGAACAGATTTCTCCTGACGTGTTGGAATATTATCGTCAATATACATCGATACGAACGCGCATCGAGGAATAA
>LACTIS1119B1_06250 aldose 1-epimerase
ATGGCTAAGGAATACGCAATCGCTAATGAGCAACTGAAAGTAAAGATTTCTTCTTTAGGCGCTGAACTGCAGAGCATTAAGAGCAAGCAGGACGGCTATGAATACGTCTGGCAGGCTGATAGCCGCTACTGGGGCCGGCACGCCCCGCTGCTGTTTCCTTTTATCGGCCGGTCAAATAATAATTCCTACCTGCTGGACGGCCAAAAATACGCGATGAAGCAGCATGGCTTTTTGCGCGACTATGAATTCAAGCTGGTCAGCCTGGAGAGTGACCAGATCGTCCTGCTCTTTGAATCAAGTCCGGAAACCAAGCAGGTCTATCCTTACGACTTTGCCTTCAAGGTCAAGTACCAGCTGCGGGGGAAGGACTTGCTGGTCCGCTACCGGATCGACAACTTCAACGACAAGAAGATGTACTATTCCCTGGGCTTTCACCCGGCCTTCAACCTGGAAGGGGACTTGGCCGACTACCGCCTGGAATTTGACCCAAAGCAAACCGAACTGACTTCTTTACTGATTGATCCAGCTCCTTTCAGAAGCGGTAAGGAAGAAAAAGTTACCCTTAAAGATGGCAGCCTGCCTTTGAGCTGGCCGCTGCTGGACAAGGGCTTGAAGATCTACAAGGCAGACGCTGCCAGCCACGTTAAGCTGGCCAGCGGCCACCAGCACGCGGTAACTTTGGACATCAGTGACTTCCCTTACCTGGCCGTCTGGAGCCCGGAAGAGAAGCAGGCGCCTTTCGTCTGCGTTGAGCCTTTCCGCGGCCTGCCTGACCGCTACGGCCGGCCGGTTGAACTGAGCGAAAAGGATGGGGAGCAGTGGCTCTTCCCAGAGATGTACAACCAGATCACGACCACATTGACTTTTGATTAA
>LACTIS1119B1_06260 tagatose-6-phosphate kinase
ATGATACTCACCATCACAATGAATCCGTCAATCGACATTTCATACCCTCTGGACCACCTACAGATCGATGACGTCAACCGGGTCAGCCAGGTCAGCAAGGTAGCCGGCGGGAAGGGGCTCAACGTCTCCAAGGTGATCAATATGTTAAACCATGAAGTCCTGGCCACGGGGATTACCGGCGGCTACTTCGGCCAGTATATCGAAGACCAGCTCAAGAAGCTGGAATTGCCTTACAAGTTCTGGCACATCAACCAGGAAACCCGGAGCTGCATCGCAATTTTGCACGACAGGGGCAAGCAGACCGAAATTCTGGAAGCCGGCCCGACCTTAACGGAAGCTGATGGGGACCAGTTCCTGGACCACTTTAAGCAGCTCTTAAAGACAAGCAGCCTGGTTACCATTTCCGGTTCCTTGCCGGCTGGTCTTTCAGCTGACTACTACACCAAGCTGATTGAGCTGACCCACCAGGCAGGCAAGAAAGTCCTCTTGGACAGCTCAGGCAAGAGCCTGGAAGCCGGTCTGGCAGCTGGCCCGGACTTGATCAAGCCAAACGAAACTGAATTGCAGCAGCTCTTAGGGCAAAAGATTGACCTGGATGATCTGGATGTTCTTAAGGCGGCCTTGAGCCGGCCAGAATTGGCCAATATTGAATGGGTGGTCGTTTCCCTTGGAGCCCGGGGCGCCTTTGCCAAGCACGGCCAGGACTTCTATGAGGCCAGAATTCCGAAGATCAAGGTGGTCAGCCCAGTTGGCTCTGGCGACTCAACCTTGGCCGGGATGGCGGTGGCCATTGACCGGGGGGAAAAGGCAGAAGACGTCCTGCGCTGGGGGATGACGACGGGGATGCTGAACACCATGCAGGCCAAGACTGGCTGGATCGACCCAAGTCAATTTGACGAATACTACAAGCAGGTTACGGTCACTAAATATTAG
>LACTIS1119B1_06270 tagatose-bisphosphate aldolase
ATGATTAAAATTACTGCGGATGTAGCACAGCACTTGGAAAAACTGTCAACTGCTGACGGTGTCATTTCCGCCTTGGCCATTGACCAAAGAGGATCTTTGAAGAGAATGCTGGCGGAAGCTGCCAACAAGCCAGCCGATGAAGAAACCATCGTTGAATACAAGAAGGCAGTTTCTGAAGAACTGACCAAGTATGCTTCTGGTATCTTGACCGATCCTGAATACGGTTTGCCAGCTACCAAGGTCCGGGACAAGAACTGCGGCCTCCTGCTTTCATATGAAAAGACTGGCTACGACACCAGTGAACCAGGCAGAATGTGCGACTTGATCGAAAACCAATCTGGTTTGCGGATCAAGGAAGAAGGCGCTGACGCCATCAAGTTCCTGCTCTACTATGACCCAGACGAAGGCGAAGCCATCAATGACAAGAAGCACGCCTTTGTCGAACGGGTTGGTGCTGAAGCCAAGGCTGTTGGCCTGCCATTCTTCCTGGAATTGTTGACTTATGACGCTAACATTGCCGACAACCAAAGTCCGGAATTTGCCAAGGTAAAGGCCCACAAGGTAATCGAAGCTGAAAAGGAATTCTCCAAGCCGCGCTATGGCGTAACTGTTTTAAAGGTAGAAATTCCTTTCAACATCAAGTATGTTGAAGGCTTCAACGGTGATAACGAAGTCGTTTACAGCCGGGAAGAAGCTAAGAAATTGTTCAAGGAACAATCTGACGCTACTGACCTCCCATACATCTTCCTGTCTGCCGGCGTAACTTCAGAAGAATTCATCGCTGAAATCAAGCTGGCTGAAGAAGCTGGCGCCAAGTTCAACGGCGTGCTTTGCGGCCGGGCTACTTGGAAGCCATCCATCAAGATCTTCGCGGCTGAAGGCGAAGAAGCCGGCCGTGAATGGATGCGGACTCAAGGCAAGGAAAACATTGAAAACCTGAACAAGGCTTTGACTGGCGCCAAGTCATGGCGCGACAAGCTGGAAGTTGAATAA
>LACTIS1119B1_06280 hypothetical protein
ATGAAAAAGTCTGACTCACCAGTATCAGCTGCTGAAAAAGCCCGGCGCGACCGGGTCTTCATGTGGACCGTCTTCGTGATCATCATCAATGCCGTCAGCCTCGTGACCAAGCTGTGGGTCTTTCAAGCGGCGGCTATGATCGGCACGACCTACGCTCTTTACAAGATCGTGGTCTGGGACAACAAGAAGAACCGCTACAGCCGGAAATACTACAACTGGGCTGGACATGCTTTAGACAAAAAAGATTCAAGCAAGTAG
>LACTIS1119B1_06290 galactitol-specific PTS system IIC component
TTGGTTTTGATCATCTTGAACGTGGTCATGTTGATCTGGAACAAGACCAACACCCTGGACGTCGACATCTTCGACGTTTGGCACTCAGCCTTTGTCGGCCTCTTCTGCATGTACTACGGGGCTCCGCTTTGGCTGTCAACCATCCTGGTTCTCTTCATTGGGACTTTGAAGATCATCAACTCTGACTTGATGAAGCCAACCTTCAATGACTTGCTGGACGCTCCTAACTCCAACCCAATGACTACGACCCACATGAACTACATGATGAACCCAATCATTATGGTCTTCGACAAGCTCTTTGACAAGATCTTCCCATGGCTGGACAAGTTTGACTTCGACTCAGCCAAGTTGAACGAAAAGATTGGTTTCTGGGGCAGCCGCTTCGCTATCGGTATTTACCTTGGGGTCTTTGTTTCCTTGCTGGCCGGCACCGACTTCACTACTGAAGAAGGCTGGAAGAACATGTTCACCCTGTCATTCACTGCCGGTACCTGCATTGAATTGTTCTCAGTCATCGGTTCCTGGTTCATTGCATCTGTTGAACCACTTTCCCAAGGTATCTCTACTTTCGCTACCAAGAAATTCGAAGGCCGGACCTTCAACATTGGTTTGGACTGGCCATTCATCGCCGGCAGGTCAGAAATCTGGGCTGCATGTAACGTTTTGGCCCCAATCATGATGCTTGAAGCCATGGTTCTGCCAGGCAACAGACTGATGCCATTAGGTGGGATCATCGGTATGGGTATCGCGCCTGCCTTGCTGGTAGTTACCCGGGGTAAGATCATCCGCATGATCATCATCGGTGCTTTGGAACTGCCTGTCTTCCTGTGGGCTGGTACCTTGGTCGCACCATTCATCACTAACGTCGCCCACCAAGTTGGTGCCGCAATTCCTGCCCACACCTTGGTTTCCGACACGACTATGGAAGGGCCTGTTGAAAAGTTCCTGGGCTACCTGGTTGGTAACGCTTGGAGCAAGCAGGGGATGTTCATCGTCTACGCTCTCCTGGCTCTGGCTGCCTACCTGCTGCTCTTTATGTGGTACGCAAAGCAGATGAAGAAGCGCAACGCTGAATACGCTGCTGCTAAGGCAAAGAAGGACTAG
>LACTIS1119B1_06300 PTS system IIB component
ATGGCTAGACAAATCAAGCTTTTGGCAGCATGCGGTGCCGGGGTTAACTCATCCCACCAAATCAAGGACGCGGTTGAAGCGGAAATGAAGGCACGCGGCCATAACGTAAAGTGTGACGCGGTAATGATCAAGGACGTCAACGAAGACTTGCTGAACGACTACGATGCATACTTGACGATCGCCAAGACCGACCTGGCCTTCACCCCAAAGATCCCAGTCGTTGAAGCTGGTCCAATCCTTTACCGGATTCCAGCCATGGCTCAGCCAGTCTACGACGAAGTGGAAAAGATCTGCAAGAAGATTGAAGCAGAATAA
>LACTIS1119B1_06310 PTS sugar transporter IIA component
ATGTTGACAGCGACGAAGAATGACTTGTTCGCCAGTGACGCGGTGTTCATCAGCGAACAGACCGATAAGGAAGCCGTGATTCGTGAGGTTTATCAAAAGCTACTCGATCGGGGCTATGTAAAAGGAGACTTCATTGCGCATATCTTGGAGCGCGAAAAGCAATACCCAACCGGGATTGATACTTCGCCGATTTCCAAGGATCTGCCCAATGTTGCTATTCCACACACGGAAGGCGAGTTCGTGAACACGCGGATGATCGTGCCAATCGAACTGGTCCACCCGGTTAAGTTTCACAACATGATCGAACCGGACAAGGAATTAGACGTAAAGTTCCTGTTCATGATCTTGAACAATGACCCGGAAGGCCAGGCCAATATCCTGGCCCAAATCATGGACTTTTTGAACTCAACGCCGGTTGAGCAACTGAAGCAACTCTTCAGTTCCAAATCTACAAGTGAGATTTACGAATTTTTAACTAAACATTTTTAG
>LACTIS1119B1_06320 hypothetical protein
ATGGACGCACGCGCGAAAAATCAACTTTCGGCTAATCCGCGGCAGGACCGCTTGCGCAGACGGGCAGAAGAAACAAACAAATATGAACAGTTAAAAAGATTGCCAGCTGACAGGCAAGCTGACCAAGAAGAACCAAAACTACCTGGCCAGCCTCAAACAGGCGCTAAAGAGTGA
>LACTIS1119B1_06330 hypothetical protein
TTGGCCAAGATCATCATTGCCCAGGAAGAAGGACAGACCGCCCGCCGGCTCTTTGGCCTGGCTCCGACAGACCTGGCCCGGCAATTGCTGAAGCCGAAAGCAGAGAAAAAGGCAGAAAGCAAGTGGCCTTACTTCTCGGTCGTCTGCCTGGCCTTTCTAGCCATGTTCAGCATCCTGGCCGGCGTCTATGAGTCAATCGCAAGAGGCCAGCTGGACCCACGCAGACAGATCGGCTGGCTGACAGTTTTAGCCCTTGCCCTCTTCATGGGCTGGGTCGTCGCCCTTTATAAAGACCTGGTTAAAGCCGGAATCAAGCGCAGTCACCTGCAGCTCTGGTCAATCATGAGTCTGATCATGACCGGCGCGCTTATCTGGCTCTTGCGCTTGCCGGTTATACGAAACGTCAACCCTGCCCTGCCAGCTCCGGTATGCTTCATTATTGCTGCTGGGGCAATCGTCATCTTGGTCTTTTTGATGCGGCATTTCAAGATCAGCCATATCTTTTTTGAAGAAAGAAGAAAGCAAGCTAAGCAGTAA
>LACTIS1119B1_06340 6-phospho-beta-galactosidase
ATGACTGTTTACAAGCTACCAGAAGACTTTTATTTTGGCGGCGCCACGGCTGCCTACCAGGTAGAAGGGGCCACCAAGGAAGATGGCAAAGGGGAAGTGATCTGGGACAAGTACCTGCGTGAGCAGGGAACGATCAACCCGGATCCGGCTGCTGACTTTTACCACAGATATCCGGTTGACCTTGACCTGTGCAAAAAGTTCCACATTAATGCCATCCGCGTGTCCATTGACTGGGCCCGGATTTTTCCGGAGGGAACCGGCCGGCTGGAAGAGCGCGGGGTCAAGTACTATCATGCCCTGTTTAAAAAGTGCCGTGAAAACGGGGTAGAACCTTTTGTGACTCTACACCACTTTGATACGCCGCAAGCTCTGGAAGACAAGGGCGGCTGGTTGTCTAGCGAGATGCTGGATGCCTTCCTTGCCTATGCCAAGTACTGCTTTAAGGAATTTCCAGAAGTGAAGTACTGGATCACCATCAATGAACCGACTTCCATGGCTGGTCAGCAGTATGTTTCCGGGACTTTCCCGCCAGCCCGGGTTAATGAGTTTGCCAAGTGCTTCCAGGCAGAATACAATCAAAACTTGGTTCACGCCAGAATCGTGAACGCCTATAAAGCCGGCGGATATCCTGGCAAAATCGGGATCGTGCATGCCCTGCAGACTGTTTACCCGGCCAGCAGCAGCGCCGGCGACCAGCATGCCGCTGAACTCAAGGATGCCTTGGAAAACCGCTTCTACCTTGACGGGACTTTAGCAGGCAAGTACTCAAAGAAGACTTTGGACCTGGTCCGGGAAATCATTGAGGCCAATGGCCAGGAAATGATTGAGATCAAGGCCGAAGATGAGGAAATTCTGGCCCAGACTGCCCAAAAGCTGGACTTTGTCGGCGTAAACTACTACTTCAGCAAGTTCATGAAGGAGTATCATGGGGAAAACATCATACACCACAACGGCAGCGGTGAAAAAGGGACTGACGTCAATAAGATGAACGGAGTGGGCGAAGAAGTCCACCCGGAAGGGATGCCGGCCACCGACTGGGACTGGATCATTTATCCAAAAGGGATGTATGACCAGCTCAAGCGGGTGCATGACGACTATCCTGGCGTTAAGGAAATCTACATCACTGAAAACGGGATGGGCTACAAGGACAAGTTCCTGGGGCCGGACAAGGCCATCGATGACGCGCCGCGTATCAAGTACCTGCAGGCGCATATATTGGAAGTGGCCAAGGCAATCAGTGACGGCATCCCCGTTAAAGGTTATTTCGTCTGGTCTCTGCAAGACCAATTCTCTTGGACCAATGGCTATTCCAAGCGCTACGGCCTCTTCTACGTCGACTTTGCCAGCCAGGCCCGGTATCCAAAGCAAAGTGCCTACTGGTACCGCGGCTTGGCGGACAGCAAGCAGATTTCCACCGATGAAGAGGTAAAGGGCTGGACTTATTAG
>LACTIS1119B1_06350 lactose-specific PTS system IIBC component
ATGCACGCTTTAGAAGCAAGAATGAACAAAATGAAGCCTGCTTTTGCGAAGTTTGCTGCCAACAAGTATGTGTCAGCGATTCGTGATGGCTTTATCGCGGCCATGCCAATCATTTTGTTCTCAAGTATTTTTAGTTTGATCGCTTATGTTCCAAATGCCTGGGGCTTTTACTGGCCAACGGCCGTAGCTAATGCCCTGGTTGTCCCATACAACTACTCCATGGGTCTCTTGTCTTTGTTTGTGACCGCGACCTGTGCCAAGAATTTGACGGACAGCTTGAACGTTAAGCTCCCAAAGACCACGCAGATCAACTCAATGTCTGTCATCATGGCAGCGGAAATCTGCTTCATCATCATTGCCATCGTGGTCAACCCTAAGACCGGGATCGACCTGTCCTACATGGGTACCCAGGGCCTGGTTGCCTCATACCTGGTTGGCTGCATCGTTCCAAACATCTACAAGTTCTGCATTACCCACAATGTCCGGATCACCATGCCGGACCAAGTCCCGCAAAACATTGCCCAGACTTTCACGGACATCTTCCCAATGCTGTTCTCAGTTATTATCTTCTGGGTCTTGAACCTGGTCTTGCAGACGGCCTTCCATGCCAACCTGTCCCAATGCATTGTTAACCTCATGTCACCGCTCTTCCACGCCAGTGACTCCTACCTTGGCCTGGCTTTAATCGCCGGCGCCATGGCCTTCTTCTGGTTTGTCGGCGTTCAGGGGCCATCAATCGTTGCACCGGCCGTTTCTGCCATTGAAACTACTAACGTTGGCCTGAACACTTCCCTGATGCATGCAGGGATGCACGCCTCACACGTTTTGGCCGTCAACACCCAGGACTATGTCATGAACATGGGTGGTACCGGGTCAACACTCGTTTTGGCCTTTATATTCCTCTTGATGTCCAAGTCTGCCCGGAACAAGGCAGTTGGCAAGGCATCAGTAATTCCGGTTACTTTCGGAGTTAATGAACCAATTCTGTTTGGTGCGCCGGTCATCATGAACCCGACCTTCTTCCTGCCATTTGTTGTAACGCCAATGGTCAACGTTATGATGTTCAAGTTCTTCGTTGACGTTTTGAAGATGAACTCCTTCATCGCCACCCTGCCATGGACTGTTCCAGCCCCAATCGGGATCGTTGTCGGTACTGGCTTTGCACCTTTGTCCTTTGTCTACGTTTTGCTTGCCCTCGCGGTCGACGTCTTGATTTGGTACCCATTCTTCCAGGTATACGACAATGACATCCTGGCCCAGGAAGAAGCTGCTGAAAAGGCAGAAAAGGCTGAAGCCGCCAAGGCAGAAAAAGAAGCCGCACCAGTTGCCGCAAGTTCAGTCAAGGAAGCTCCAAAGGCCGCTGCCAAGGACGTTTTGACTGAAGACACCAATGTCATGGTTATTTGTGCCGGTGGTGGTACCTCAGGTATTTTGGCCAAGGCCTTAAACAAGCTGGCCAAGGAAAAAGACCTGCCGTTGCACGCTGTGGCCAGAGCATACGGCCAGCACATGGACGTGATCGACGACATGGACTTAATTGTCCTTGCTCCGCAAATGGACTCCATGCGAGATAACCTGCAGGAAGTTGCCGACAAGGTTGGTGCTAAATTAGTGACGACTACTGGCCGGCAATATATCGAATTGACGCAAAAGAAGGACTTGGCCTTGAACTTCGTGGTCAACTCCCTTAAGGATTAA
>LACTIS1119B1_06360 transcriptional antiterminator
ATGCTAGGCAACTGGAATGGAGATCTGCTGAGAAAGTTTAAGGAGGAAATGCTCTTGAAGATCGTACAGGTTTTGAACAATAATGTTGCGGTTGTTAATGGCCATGACGGAAGACCGGCAATTGTAATGGGCAATGGTTTAGCGTTTGGCAAGAAAAAAGGGGATGTGGTCGAAAAGAAGAAAGTAGTATCCACTTTTATGCTGCGGGACAAGCATACTGTCGATGATTTGACGACTTTGCTTGAGGACGTGCCGGCAGACTTTGTCGCGGTCAGCTATTCGCTGATCGAGCAGAGCCAGAAAAAATATAATTTTGCGGTGGAAAGCTACCTGTACGTAACCCTAACCCTCCACCTTTATTCAGCCTATCAGCGGCTTGAAGAGGGTAGATACAGGGCTAACTACAGCTTGCCGGATCTTTCTGACAAGTATCCTGAAGCCTATAAGATTGCTGACGACTTTTTAACTGGCTTTAGGGAACGCTTGCGGGTTGATTTTCCTTTAAGTGAACGCAACAGTATTGCCCTGCATGTCATTAATGCCCACGGCGACCGGGTTTCCCAAGCCGCGCCGATTGACAGTCTGGACGACCAGTTAGTGAATATCATCAATGACATCCTCAGAAAAAACGGCATTGTCCGGAACAATGACAATTTGGATGATTACGGTCGCCTTCTGACCCATGTCAAGTATTTCGCCCGCCGTTTGCGCAAGGACCGGCAAGAGCAGGAAGTCCAGATTTCTGCCAGCAGTCTGGCCAGCATCGGCAATGACTTTCCAGAAGCTGAGCAGATTGTCAATAAAATTGCCGGCCGCATAGACTACGAGCTGGGGGTCAAAATTCCTAAATTAGAACGGCTCTACCTGGTAATCCACATTGCCAGGCTCCTTGACACAAAAAAGCAAAAGTAA
>LACTIS1119B1_06370 lactose-specific PTS system IIA component
ATGTCTGAAGAAACTATCAGCAAAGAAGAAATTTCAATGACCGGCTTCGCGATCGTTGCTTATGCCGGCGACGCGCGGACGGCCCTGCTCAAGGCCATGGATGAAGCCAGCCAGGGCCATATTTCCAAGGCCAAAGACCTGGTCAAAGATGCAGAAGCTTCAATCAACGATGCCCACAATGAACAGACCAAGCTGCTGAGCAAAGAAGCCGGCGGGATGGATCTGGACGTTACTTTTATCATGGTTCATGGCCAGGACACCTTGATGACGACCATGCTTTTGAAGGATCAGATGAAGACCATCATCGACTTGTATGACCGGGTCAACCAGCTGGAAGGCAAGATCACCGACTAG
>LACTIS1119B1_06380 aldose 1-epimerase
ATGAGACTAACATTTAAGAAATACGGCCGGCTCCAAGGGAGAGACCTTTGTGAGTTTGCCTTGGAAAATGATCATGGCATGTCCGTCAAGCTCCTGAACTATGGGGCAACTTTGGAAGACGTGACCGTTCCGGTAGATGGGGCAAAGCGCCATATCATCCTCTCTTTAAAGCAGGCCGAGGACTACAGCAAAGAGCGCAATTTCTTAGGCGGGACGGTTGGCCGGATTGCCGGCCGGGTCTGGCGCGGGCAGTGGAAGAACGGTGACCATATCCTCCAATTGCCAATCAACGATGGCAAAAATCACATTCCCGGCGGCTTTGGGACCGACCAGCAGGTTTGGTCCTTCAGAACAGAGCGGGGGGAAGACTTTGTCTCCGTTCACTTCAGTTTGCTTGATCCAGATGGTCATAATGGCTTTCCCGGCAACCTGCAGCTGGAGGCAACTTACACTTTGAATAATTCTGGTGAACTTTTGTATGATTTGACGGCGTACTCAGACAAGCTGACAATTTTTAACCCGACCAACCATACTTACTTTTGCCTGGACGGCCTAGGGACCGAGATCAACCAGACTAGGCTGTTTCTTGACGCGGACTATTATCTGCCAGTGAAGGAAGATGGCTTGCCGGTCGGCGGAATGGAGTCAGTTGAAGGCACGGCTTTTGACTTCAGAAAGGGCAAGAGCATGGGGGAAGCCTTAAAGAGCGGGGATGCACAGATTGCCTTGCGTGAGGGGCTTGACCACCCCTTCATCTTGAATGGGCAAAAGGCTGCTGCTAAAGTTGTGGCTAGCGATGGCAAGGTTTCCATGAAGATGAGCACGAACGCGCCAGCAATCGTCATTTATACAGCCAACAGCTTTGGCAAGGGGGAAAAGCAGGTCAAGGACCTGCCGCAATATGGCGGCTTGACCTTGGAGGCGCAGAACGCGCCTGCTTCGGGCAATGACTTGCGGGAAATTACCCTTGAGCCAGGCAAGAGCTGGCAGCGGCAGGTGAGCTGGAAATTTGAATATTAA
>LACTIS1119B1_06390 galactokinase
ATGGATGACGACCTGGTTATTTTCGAAATTGGCGACCGCGAGTTAGAAAATGACCCTGACCACAAGTGGATCAACTACTTCAAAGGCATGACCGCCTACGTACAAGAAGAGACAAGTGAAATTGACCATGGCTTCAACCTCTATGTTTGGGGCAACCTGCCCTATGGGGCCGGCCTGTCATCATCAGCTTCAATTGAAATGCTGGTTGGTCACGTTTTAACTGAAGAATACGGACTGGAAATCGACCCGGTCAAGCTGGCCCAGCTTGGCCAAAAGACCGAAAACGAATTTATCGGTCTCTCTTCCGGGATCATGGACCAGTTTGCCGTCAACATGTCCAAGAAAGACCAGGCTATCTTCCTTGACTGCGCTAGTTTGAAGTATGACTACCTGCCGCTGGATCTGGGTGACAGTGAAATCATCATCATGTCCACCAACAAGAAGCACAGCTTGGCCGATTCATCTTACAATGACCGCGTCCGTGAGTGCCAGGAGGCAACCAGAAGGCTGCAGGAAAAGCTCAGCATTGACCACTTGGGCGATATTGATGAAGAAACTTTTGACGAATACTCCTACTTGATCAATGACGAGACCCTGCTTAAGCGGGCCCGCCATGCCGTTTTTGAAAACCAAAGAACCATCAAGGCGACCAAGGCCATGGCAAACAAGGACTTAGACCGGCTGGGCCGTTTGATCAATGCCTCCCACGTTTCCCTGCACTTTGACTACGAAGTTACCGGCAAGGAACTGGACACCCTGGCGGGAAGTGCCTGGCAGCGAGAAGGCTGCCTTTGCGCCAGAATGATTGGCGGGGGCTTTGGCGGCAGCGCGATTGCTATCGTCAAAGAAGACCATGCCGAAGCATTCAAGGAAAAGGTTGGCAAGATCTACCAAGACACCATTGGTTATGCCGCCAGCTTCTACGAAGCCAAGATCGTTGACGGAACCCACAAGCTGTAA
>LACTIS1119B1_06400 galactose-1-phosphate uridylyltransferase
ATGCTGATTGAGAATTTCGTGCAAAAAATTATCGCTAATACTGATTACCAGGAAATGGACCGGGTCTACCTCTTCAACCGCCTGCAGGCCCTAGTTGGCGACGGAGACGTTGAGGTGCAGGCTTCCGGCGAAGACAGCTTGCTGCAGCTGGTTAACCTGGCCGTTAAAAGAGGCAAGATTCCAGATGACGTGACCAGCCGGGAGATCCTGGCCGACCAGCTGGCCGATTTTTTAACCCCGGCCCCAAGCAAGGTCAACGGGCTTTTCTGGAACAAGTACGACCAAAGCCCCAAGGCAGCGACCGACTGGTTCTATGATCTCTCTACCCACAACAACTATGTCAAAAAGGCCGCGATTGCCAAGAACATCGTCTTCTCCGGCAAGAGCTCCTACGGCCACCCCTTGGAAATCACTATCAACCTCTCCAAGCCGGAAAAGGATCCCAAGGCTATTGCCGCCGCGGCCAAAAAGAAAGATACGGACTACCCGAAATGCGACCTCTGCCTGGAAAATGAAGGCTACCTGGGCGACTACGGGAAGAATGCCAGAAGCAATCTGCGGATCATCCGCATGAATATCGGCGGGGAAAAATGGGGGATGCAGTACTCCCCTTATGCCTACTTCAACGAGCACTGCATCTTTTTGGACCAGATCCATGAGCCAATGGTCATCAACCAGCAAACCCTGATCAACCTGCTGGAAATCGTCAAGACCTTCCCCCACTACATGGTCGGGTCAAATGCTGACCTGCCGATCGTTGGCGGTTCGCTTTTATCACACGAGCACTACCAAGGCGGCGGCCACCGCTTCCCAATGATGAATGCCCCGGTCAAAAAGAAACTCACTTTTGCCAGCTACCCCCAGGTAAAAGGCGGCATCGTTGACTGGCCAATGAGCGACATCCGCTTGGTTAGCCAGGATACTGAAGCCTTGCTTGAATTAGGCACTAAGATCATCAAATCCTGGCAAAAGTACAGCGATCCCAACCTGGAGATTGTGGCCGAATCAGAAAATGTCCGCCACCATACCGTCACCCCAATTGCCCACAAGGACGGGGATGAATACGTCTTAGAGCTGGTTTTGCGCGACAACAGCACCAGCAGCGACTACCCGCTGGGTATCTTCCACCCCCACCAAGACAAGTGGCACATCAAGAAGGAAAACATCGGCCTGATCGAAGTAATGGGCCGGGCCATCCTGCCTGGACGCCTAAAGGGCGAGCTGGGCGAGGTCAAGAAATACCTGCTTGGCCAGGACAACCAAATCGCTGAAATCCACCTGCCATGGGCTAAACAGCTGCAAGCAAAGTACGCTGCCATCAATGAAGAAAACGTTGACCAGCTCCTGCAGCAAGCCCTGCTGGACATTTTTGACCAGGTTCTGGCTGATGCCGGGGTCTACAAGAACGACGCAAAGGGTGAAGCTGGCTGGCAAAAGTTCCTCCAGCAGCTGGGCGCTAAAAATTAA
>LACTIS1119B1_06410 aspartate ammonia-lyase
ATGAAAGCAGCAAGCAGATTAGAAGCAGATTCAATTGGCAGTCTTGAAGTCCCGACAGCCGCCTACTACGGGGTCCATGCTGAACGGGCCAGCCGGAATTTTGAAATTACGCACTTAAAGATGAGTCCGTTTTTTCTGAGCAACCTGGCCTTGATCAAAAAGGCAGCTGCCAGCGTAAACTTTGAAATTGGTCTACTCACTAAGCCGCAGGCTGACGCGATTAAAACTGCTTGCGATGAAGTGATTGCCGGCAAATTCGCGGAAGATTTCATCGTCGACCCAATCCAAGGCGGGGCCGGGACTAGCGCTAACATGAACATGAACGAGGTTATTGCTAACCGGGCAAACGAGCTTTTAGGCGGCAAGCGGGGGACTTACGACCTGGTTCACCCTAACGACCAGGTCAACATGGCCCAGTCTACCAACGACACCATTCCAACGGCTGGCAAGATGACCACCATCCTGCTCAGTGAAAAGCTGGTTGCCAGCCTGGACAAGTTGGAAGCTTCTCTGCGGATCAAGGCAGATGAATTCTCTGACGTGATCAAGATGGGGCGAACCCAGCTGCAAGACGCGGTGCCGATGACCTTAGGTGACAGCTTTGCCGGCTACGCTTCAATGGTCAGCCGCTTAAAGAAGCGGCTGGAAAAAGCCGTCATGGAAATGCACGAGATCAACCTAGGGGCAACGGCGATCGGGACCGGGATCAACGCTTCCCAATACTACAAAGACCACATCGCCGGGCAGTTGAGCAAGCTCTTTGGCTTTGAACTCAAGCAGGCCGACGACCTCTTTGACGCTACGGAAAACCTGGACTCCTTCGTGGAAGTGTCTGGTGCCCTTAAGGCCTGCGCCATCAGCCTGTCCAAGATGTCCAACGACCTCCGTCTTTTGTCTTCCGGCCCGCGTTGCGGTTTCGCCGAAATCAACCTGCCGGCCAAGCAAAACGGGTCTTCCCTCATGCCGGGCAAGGTCAACCCGGTTATCCCGGAAGTCGTCAGCCAGGTGGCCTTTCTGGTCTGCGGCCACGACACCACCATCACCATGGCGGCAGAAGCCGGGCAACTGGAACTGAACGCTTTTGAACCAGTTGTCTTCTACCAGCTTTTCGAATCTTTTACGGCTTTGACTGGGGCAGTCGATACTTTGGTAGAAAACTGCATTACGGGCATCACCGCCAACAAGGGCCGCTGCAAGCAGCTCAAGGAAGGCAGCGTCGGCATCGCCACTGTTCTTTGCCCATACCTGGGCTACCAGCTCTCAGCCAAGATCGCCAAGCGGGCCCTTAAGGAAAAGCGCAGCGTCCGGGAACTGGTCCTGGAAAGTCACTTGATGAGTGAAGAAAAGCTGGACGGTTTATTAGGATAG
>LACTIS1119B1_06420 hypothetical protein
ATGAAGAAATTTTTCGTAAGCGCGGCAGCCGCTTTGGCAATCGGGACGGCTTTCGCGGCCAGCCAGGTAAGACCAGTTGCAGCCAGTAGCCGGCAGGCAGTTTTTACCCTGCCTAAGGGCTATACTAAGGCCAACTTGAAGAAGGCCTACTGGTACTCCAACTTGTCTAAGAGCCAGCAGAAAAAGTGGCTGAAAAACAAGAAGAACTCGGCTTGGCTGAATAAGTGGCGGAAGATCAACGTTAAGGGGATGCAGGCCAATACTTTTGACCAAAGTTCCTGGTCAGAGTCCAGCAAGGACAACAAGACCATTGTTAAATTGACCAATGGCCACTTGAATACCAGTCAGTCCAAGACCTTAGCTAAGTACTCCCTCCGCTTGATCAACCAGGCCCGGGCCAAGCTGGGCCTGAAGAAGTGGAAGTACAGCAAGGGGACCCAGAAGCTGGCCTTGGAAATTTCCAAGGAATACGTGGCAAACAAGAAGACCATCGCCACTGGCCACTATGTGCCAGGGATTGTCCGGGCCACTAACCGGGTCGGCTTGAAATTGCCAGGCAACTACAACTATGTCGAAGACATGGCCGGCTTTAAGGACGGCAGTCAGGTGACCATGACGGCTATGAAGAAGGACATCTACTTTGGCTTGAAGACCATGATGTTTGGCTACTGCTATGCTAACCAGAGCAAGGTCAAGCAGCTGAGCCAGTACACGGAATGGGAGCACGCCGGGGACCTCATGAATACCCAGGGCGGCAAGTATGACGGCGACTGGGACTATTACGGCTTTAACGTTTCCTACACTAACGGCACTTACTCCCTGCATTATATCGGAGTGCCAGCCCACCTTAAGTGGGCCTACGGCGGCGCCTACTGGGGCAGCTTTAAGGCTTAG
>LACTIS1119B1_06430 aggregation promoting factor
TTGGCAGATGAGAGCTTGCGACAAGAAAAGGAGAATTTTTTGAACATCAAATCTAACGTACTTAAATCAGTATTTGCTGCAGGCTTGGCTTTGACTGGCGTGGCAGCGATCGGCTTAGGCACGAACGGTCAAGCAGACGCGGCAACCATCGGTGACAGCGTAACGGTTGACTACATTGATGGACAATCAATTGCAACTTGGTCAAATTACTACACTGCTACGGTTACAGGTTCCGTTAAGGACGGCAGCTCATGGAAGGTAGTTAAGACCGCCCGCGACGCTTCAGGTGAAAAGTGGTACAAGATCGGCAAGCGCCAATGGATCATGGCCAAGTACACCACTGAAGCATCAACTGCTTCAAACAGCACTTACAACGCGAATACTACCAGCACTAACACTGCTAACAGCACGACTAGCTCAACTGGCACTGGCTACACTACGAGCTACAGCTCATCAGCAAATAACTACGGCTACGGCTCAAACTATAACTACAGCTACAGCGCGAATACTGGCGCAGCCAACACTTCCAGCTACAGCGCAAGCACGACCAGTTCAAGCACTTCTGCTTCAACTTCAACTGCTTCCGCAAGCACTTCCAGCTCAACTTCAACTTCAACTGCTTCCGCAAGCACTTCCAGCTCAACTTCAACTTCAACTGCTTCCGCAAGCACTTCCAGCTCAACTTCAACTTCTTCATCATCTGAAGAAGCAGCTAAGGCTTGGATCGCAAGCAAGGAAAGCGGCGGCTCATACACTGCCTCAAACGGTAACTACTACGGCAAGTACCAATTGAGCTTGAGCTACTTGAATGGTGACACTTCTGCCGCCAACCAGGAAAAGGTTGCCAACAGCTACGTTCAAAGCCGGTATGGTTCATGGACTGCAGCTAAGGCCTTCTGGCAAGCTAACGGCTGGTACTAA
>LACTIS1119B1_06440 homoserine kinase
GTGAAAATCAAAGTTCCAGCATCCAGCGCCAACCTGGGCCCGGGTTTCGACTCCATCGGGGTGGCCATTTCCTTGTATCTAACCATTGAAGTAATCGGGGAGAGCGACCACTGGCAGGTAGACCATAACTTAGGGGACCTGCCAAGCGGGAAAGACAATATGATCGTCCAGGCGGCTTTAAGCGTCAAGCCGGATTTAACCCCCCAGCACCTGCGGGTGGAATCAGACATCCCGCTGGCTCATGGCCTGGGCTCCAGTTCCAGCGCCATCGTGGGCGGGATTGAACTGGCCGACCAATTGGGACAACTCAACCTGGCTCCCCATGAAAAAATCGAAATCGCGGCCCAACTGGAAGGGCACCCGGACAATGTAGCCCCGACCATTCTGGGCAGCCTGGTTGTCGGCTGCAAGGTCAACGGCCACTTTACAGCCGTCAAGGCCCCGGTACCGCCTTTTGCCATGATCGCCTACATCCCGGCCTATAACTTAAAGACCAGCGATGCCCGGGACGTTTTGCCCAAGCAGCTTTCCTTTAAAGAAGCGGTTCAGGCCAGTGCCGTGGCCAACACGGCGGTAGCGGCCCTTTTTGCCCAGGATTATGAAAAGGCCGGGGAGTTAATGGAGGCTGATCTCTTCCATGAGCGCTACAGAAGCAAATTGGTGCCGGAACTGGAGATCATTCGCAATGTCGGCCATGAGCATGGGGCGGTAGCGACCTACCTGTCAGGAGCCGGCCCGACCATTATGAGCCTGGTTGACCCCCAGCATATCAGTGACTTTGTCGAGGCGGTCAGAGAGGCGGGTTTAAAGGATGGAATCCGCCGGCTGGAAGTTGCCCCGCGGGGTGCTTTTTGGCAAAAATAA
>LACTIS1119B1_06450 threonine synthase
ATGATTTACCGCAGTACCCGCAGCCAGGGGCAGGAAGTTACCGCTGTCCAGGCAATCGTCCAAGGCCTGTCCCCAGATGGCGGCCTTTTCGTGCCTAAAGAATTTCCGGCTCCATTTTCAGCCGCTGCTTTAAAGGAAATTTTTGCCCTGCCTTACCAGGATATGGCTAAAAAGATCCTGGCCCTCTTCTTGACTGACTACAGTGCAGAGCAACTGGCAGAGATTGTTAAAGGCGCCTACGGCCAGCAATGGGATGACGACCGGATCGCCCCGCTGACTGATAAGAAGGCCGGCAATTACTACCTGGAGCTCTTCCACGGGCCAACCCTGGCCTTTAAGGACGTGGCCTTGCAGTGCCTGCCCCGCTTGATGAAGACAGCCTTGGAAAACTCAGACGACCACAGGGGGATCGTGATTTTGACCGCGACTTCCGGGGACACCGGGACCGCCGCCATGCGGGGTTTCCAGTCCTTAGCCAAAACCCGGGTCATCGTCTTTTACCCTTACCAAGGGGTGGCCCCGATCCAGCTCAAGCAGATGCTGAGCGAAAACAGCGACAACACCGTGGCTGTAGCGGTTGAGGGCAACTTTGACCAGGCCCAGACCAGGGTCAAGCAGATTTTTAACGACCCGGACATGAACAGTTTGCTGGCTGACCACGATTTGACCTTCTCCAGCGCCAACTCCATGAATGTTGGCCGCCTCTTGCCCCAGGTCATCTACTACTTCGCCGCCTACAAGCAGCTGCTGAACCAAGAAGCCATTGCCTTCGGCGATCCCGTCAATTTCTCTGTGCCAACTGGCAATTTCGGCGACATTCTGGCCGGCTATTATGCTCAAAAACTGGGCCTGCCAGTCGGCCGCCTGATCTGCGCTTCCAACAAGAACAATGTCTTAACCGACTTTTTCAAGACGGGCAAGTATGACAAGAAGCGGGACTTCTACGTGACCAACTCCCCATCCATGGACATCCTGGTCTCCAGCAACCTGGAGCGCCTGCTCTTTGACCTCTGCCAGGACCCGGCCACAGTCAAGTCTTTGATGGAGCAGCTGAATACAAAGGGCGAATACCAATTGCCAGAAGACATGCAAAAGAAGCTTTCCAGCTTCTGGGCCGACTACGCCACTCCAGAAGAAATCGAAGGCGAAATCAAGCGGGTTTACGAAGAGAGCGGCTATGTCATCGACCCGCACACGGCTGTTGCTTCTTTAGCCGCCAAGCGCTTTAAGGAAGAAGACGATAAACCAACTGTCGTCCTCTCTACTGCCAGCCCTTACAAGTTCCCGGAAACCGTCTACCACGCCATCAGCGGGCAAAATGTTAAAGAAAAAGGCCTGCCAGCCCTTAAGGAACTGACTGACCTAACTGGCCCCGCCCCAAAAGCCATGGAGGCCTTCTTAGGCCACAGCTCCCGGGAAATCGTCATCCCGGCTGATAACATGGCAGACGAAGTCAAGCGGCAGCTGGATCTGGACTGA
>LACTIS1119B1_06460 GNAT family acetyltransferase
ATGCCTAAATTAAACTGCCGCTTGGCAACGGAAGCTGACTTGGCTGCCCTCTGCCAGTTCTACCAGGACATCTGCGCCCACCAAAAAGACGACCAGTTCGGGGCCGACTGGCACTGGGGGATCTACCCAAGCGAAAAAGACATCGCGGAAGCAATTGCACAAAAGCGGGCCGTGGTTGGCATCAAGGACGGCAAGATCGCCTCAGCCGGCATCTTGACTGTGGGTAATGACCCTCTTTACAGCAAATTTGCCTGGCCAACCCCAGCTGAAGACAACGAAATCGCCGTCCTCCACCTCTACGGGGTCCACCCATCCTTCCGCCGGCAGGGCCTGTCCTCTGTCCTTTTGACCTTTATCAAGGACCAGGCCAAAAAGCTCGGCTGTAAATCCATCCGCTTGGACAGCATGGATGGCAACGCTCCTGCCCGCCGCCTCTATGAAAAGAACGGCTGGCGCTTTGTCAGCCAGGAAACTGTCTACTACGACGACATCGGCGACTGCAAGGTCGACCTGCTTGAATTAGCCTTATAA
>LACTIS1119B1_06470 hypothetical protein
ATGGAGAAGAAGAAAAGCGTTTGGCTGTTCATTCTGGCTTTTAGCCTGATCGGACTCCTGGTCTACGGGGCGGAAATTGCCTATGCTTTTATGAAGGACCGCAACAAGAAGATGGAATACAGCTTCGATGAAGAAGAGGCGGAAGATCCACAGGAAATGGAAGCTGACTACAAGAATCAAGAATAG
>LACTIS1119B1_06480 LacI family transcriptional regulator
ATGACGATGAGGCCAAAATTAACTGATGTAGCGGAGAAGGCTGGCTGCTCGCCGACGACTGTCTCGCGGGTGATCAACAACTACGCCTTCTTCAGCCAGAAGACCAGGGACCGGGTGTACGCGGCCATGCGGGAGCTGAACTACCAGCCCAACACCCTGGCCCGTTCTTTGCAGGGCAAGCGGACCAAGATGATTGGGGTGATCATGCCCAGCATCACCAATCCCTTCTTCGCGGAACTTGTCGCGGCAATTGAGGACAAGCTGGAATCGGACGGCTACAAGATGCTGCTCTGCGACGCCGGCCAGGACAGCGATAAAGAGCGACGCTATCTGCGGATGCTGGAGGCCAACCAGGTCGACGGGATCATCGCGGGTTCGCACAACCTGGGGATTGAAGAATACCAGCTCTATGGCCTGCCGATCGTTTCCTTTGACCGGGACCTGTCTGACCAGGTGCCGATCGTGACCAGTGACAACTACCAGGGCGGCTGCCTGGCTACCCAAGCCTTGGTTGACGCGGGATGCGGGCATGTCTACTTTGTCGGCAATCCGGTTAAAACCGGCAACCCGACCTCCCGCCGCTTTGACGGCTACGCGGACACGGTGGCCGCGGCGGGATTGACGGTACACACGGCCCGGTCAGCCTTTTACGAGTCTCCGGCGGCTAAGGCGCGAGAACTCCGGGAGCTCTTGACCAGCGGGCGGAAGATCGACGGGGTTTTTTGCTCAGACGATCTGACGGCCATCCTGCTCTTAAAAGAAGCCAGGAAGCTGGGGATCAGGGTGCCGGAGGACTTGAAAATCGTTGGCTTTGACGGAACCCAGCTGGTCCAGAACTACGTGCCGGAATTAGCGACGGTCGTCCAGCCGGTTCCAGACCTGGCCGGGACCTTGGTCAAGCTGCTCTATGAGCGGATCGCGGACCCGGAAAAGAAGCTGGCTCAAAACAGCTACCTGCTCCCGGTCAAGCTGCTGAGAAACCAGACTGTTTAA
>LACTIS1119B1_06490 sucrose-6-phosphate hydrolase
ATGGAATGGACAAGAGAAAAAAGATATCTTCCTTATGAGAAATGGGATGTCAAGACTTTGCTTGAGCTGCAGAGTCAGGCAGCCCGGTCAGACTACCAATTGCACTACCACATCCGGCCAACTTCTGGTTTATTGAACGACCCTAACGGCTTTTCCTACTATAATGGCCGCTGGCAGGTCTTCTACCAGGCTTACCCATTTGGGGCAGTGCATGGTTTGAAGTCCTGGGTGCACTTGACCAGTTCCGACCTGGTTCACTGGGAAAACCTGGGCGAAGCTGTTTATCCTGACACCCCGCTGGACAGCCATGGGGCCTATTCCGGTTCAGCCAAGGCAATTGGCGACAAGCTTTTTCTGATGTACACGGGCAATGTCCGCGACGAAAACTGGGTTCGCCATTCTTACCAGGTTGGGGCCTGGATGGACGAAGAGGGAAAGGTGACCAAGCTGGAGACGCCTCTGATCAACTCGCCAGAGCATGTGACTGAGCACTTCCGTGACCCGCAGATTTTAGAGCACGATGGCAAGTACTACGCTATTCTGGGTGCCCAGGACAAGGAGACCAAGGCCGGCAAGATCAGCCTTTACAAGGCAGATGCTGTAACGGGTCCATGGCAGGACCTGGGCTATGTTGACCTGCCAGACATGGGCTACATGGTTGAATGCCCGAACCTGGTCTTTGTTGACGGCAAGCCGGTCTTCATCTTCTGCCCGCAGGGTTTGGACAAGAACGTGACCGACTACCAGAATGTCTACCCGAACATGTACTGGGTTGGGGAAAGCTTTGACTTTGAAACCGGCCACTTCGAGACCAAGCAGAAGGCCCCGATCAACCTGGACGGGGGCTTTGACGTCTACGCTACTCAGGCCTTCAACGCGCCAGATGGCTATGCTTACGCCATCAGCTGGGTTGGCCTGCCGGATGTGACTTACCCAAGTGATAAGGAAGGCTGGGCTAACTGCTTGAGCCAGGTCAAGCGCTTGGCTTTAAAGGACGGCCGCTTGCTTCAAAAGCCGGTCAAGGCCATGAAGAGCCTAAGAGGAGTCGAAGAAGACTTCACAGGTGACCTGGCCTTTGATGCTGGCGCGCAAAGCGAATTGAAGCTGACTATTAAGCAGGGGCAGAAGGGCAAGCTGCTTTTGGCGGCAGACAGTGAAGGTAAGAACTGCATCAAGCTCAGCTTCAAGACCGGCAAGCACGCCCGCTTAATGGTTGACCGGGGTGAATGCGGCCAGGCCGTGAACCCGGACTACGGGACTAGCCGGACGGTGAAATTGCCAGCCGGGGAAGACCTGGACCTGCGGATCTTTGTAGACCACTCCCTCTTTGAAATTTTTGTCAATGACGGCGAAGAAGTCATTACGGGGAGATTCTTCCCTCAAAATGGACAAACTTTTGTTAAGATGGATAGCGGTGTTGACTACCAGGCCAAGACTTGGCGGTTAAAGGATATGTAG
>LACTIS1119B1_06500 PTS system, sucrose-specific IIABC component
GTGGCAATGAATTACAATGCAGTTGCCAAGCGGGTGATCGCTGCCGTAGGTGAAGACAACCTGGTAGCCGCTGCCCACTGTGCGACTCGTCTGCGTTTAGTCTTAAAAGACGATACCAAGATCGACCAAGCAGCCTTGGACAAGGATCCCGACGTTAAGGGTACCTTCAAGACTGACGGCCAATACCAAGTTATCATCGGGCCTGGTGACGTTGACAACGTCTACAACGAATTGATCAAGCAAACCGGCCTGTCCGAAGTTTCTACCGACGACTTGAAGAAGATCGCCGCCAGCGGCAAGAAGGTCAACCCTGTCATGGCCTTCATCAAGCTTTTGAGTGACATCTTCGTGCCAATCATCCCAGCCCTGGTTGCGGGTGGTTTGCTGATGGCCTTGAACAACTTCTTTACCAGTCCTGGCCTGTTCGGGCCTAAGTCCCTGGTCCAAATCAACCCAGCCATCAAGGGCCTGTCTGACATGATCCAACTGATGTCAGCTGCCCCATTCATGTTCCTGCCGGTTCTGGTCGGTATTTCCGCCGCTAAGCGGTTCGGCGCCAACCAATTCCTCGGGGCTGCAATGGGCTTGATCATGACCACCCCGCAGCTGGCTGGTGCGACTCACTACTGGAACATCTTCGGCTTGCACGTAGCGCAAACCAACTACCAATACCAAGTTATTCCAGTCCTGGCAGCTATCTGGATCTTAGCCTTCTTGGAAAAGAAGCTGCACAAGGCCCTGCCAAGCGCGGTTGACTTTACTTTCACCCCGCTTCTGTCAATCATGATCACTGGCTTCCTGACTTTCGCCATCGTCGGGCCAGTGATGCAGACCGTTTCTAACTGGATCACCAACGGCTTCGTATGGCTGTACGACACTGCTGGCTTCATCGGCATGGGTCTGTTCGGTCTTTGCTACTCAGCCATCGTTATGACTGGTTTGCACCAAAGCTTCCCGGCCATCGAAACCCAATTGCTGGCTGCCTTCGCTGCCGGCAAGGGTGCGGGCGACTTTATCTTCGTTGTTGCTTCCATGGCCAACGTTGCTCAAGGTGCCGCAACCTTCGCTATCTGGTTCTTGACTAAGAACGAAAAGATGAAGGGTCTGTCTTCATCAGCCGGTGTTTCTGCCCTCCTGGGGATCACCGAACCAGCCCTCTTCGGGGTTAACTTGAAGTACCGCTTCCCATTCTTCTGCGCCCTGATCGGGTCCGGTGTTGCTTCAGCCCTTGCAGGTCTCCTGCACGTTGAAGCCGCATCCCTTGGTTCTGCCGGTTTCCTGGGCTTCCTGTCCATCTACCCGAAGACCATCCCAATGTACGTTGTCTGTGAACTTGTTTCCTTCACTATTGCCTTCGCCTTGACTTTCTTCTGGGGCAAGGGCCACTTGAAGGAAGAAGTTGCCAGCGTTGAAGGCGAAACTGGCGTCAGCGCTTCAACTGAAGTTCCAGCTGAACAACAAGTTGAAGCTGCCAAAACTGCTGGTTTGGAAGACGAAGTAGTTCTGGCACCTGTAGACGGCGTTTCTAAAGACCTGTCAGCCGTAAATGACGAAGTCTTCTCCCAGAAGCTCATGGGTAACGGGGCAGCCATCGTTCCTAGCGACGGCAATATCTACGCTCCTGTTACCGGTACTGTTTCCGTTGCTTACAAGACTGGCCACGCTTACGGGCTTAAGTCTGACGACGGTGCCGAAGTCCTGATCCACATCGGTCTGGACACGGTCAACTTGAACGGCCAGCACTTCAAGTCCCTGGTCACTCAAGGCCAGCACATTGAAAAGGGCGACAAGATCGGTGAAGTCGACCTGGATGCCGTCAAGGCTGCCGGCTACGACACCACTGTCATGGTTGTTATTACCAACAGCCATTCATACAGTGAAGTGGCCCGGGTTGAAGCAACTGACGTTAAGCACGGCGACAACTTGATTGCTTTAACTGCTCACTAA
>LACTIS1119B1_06510 6-phosphofructokinase
ATGACTTTACGAGTTGGTATTTTGACGAGCGGCGGCGACTGCCAGGCGCTCAACGCGACCATGCGAGGGCTGTCCAAGACCCTTTACAACTGTGTCGATGACGTGGAAATCATCGGTTTCAAGCGGGGCTACTACGGCTTGATGCATGAAGACTACGTCAAGATGAAGCCGCGGGACTTCTCCGGCATCATCAACGAAGGCGGGACGATTCTGGGCACTTCCCGCCAGCCATTCAAGGAAATGCGGGTCATCGTTGACGGCTTTGACAAGGTAGCTGCCATGAAGAAGACCTACAAGAAGCTCAACCTGGACGCTTTGGCTGTTTTGGGCGGCAACGGGTCACTTAAGTCAGCCAACATGCTGGCCCAAGAAGGCTTGAACGTGATCGGCCTGCCAAAGACCATCGACAACGACACTTGGGGAACTGACTACACCTTCGGTTTCCAAAGCGCCGTTGATATTGCCACCAGATACCTGGATGAAATCCACACTACTGCTCGAAGCCACTCCCGGGTCTTCGTCGTCGAAGTCATTGGCCACAAGGTTGGCCACATCACCCTGGCCGCTGGCCTGGCTGCCGGCAGCGACATTATCCTTTTGCCGGAAATTCCTTACGACATCAATGTCGTAGCCAAGAAGGTCAAGAAAAGACAAAAGTCTGGCAAGGGCTTCACGGTCATTGCCGCCGCTGAAGGGGCAATTTCCAAGGAAGACGCCACCCTGCCCAAGAAGAAGTACAAGGCTAAGGTTGCCGCTAGAAACGGGGCCAGCGTGGTTAAAGAAATCGCTACCCAATTGCAGGAAGTTTTGCCAGACGCTGAAATCAGAACTGCGGTCATCGGCCATGCTCAACGGGGCGGCCGGCCAGATGCCTACGACCGGCAAATCTCAACCCGCTTCGGGATTGAAGGGGCCCGCCTGATCATGAACCGGTCCTTCGGCCGCCTGGTTGTCTTGAAGCAAGGTGAAGTAGATTCTATCGCCCTGGAAGACACGGCCGGCAAGCTCAAGTACGTTGACCCGAACGGCAAGGCCGTAAGCAACGCCCGCCTCATGGGCGTCACCTTCGGGGACAAGTAA
>LACTIS1119B1_06520 phosphoglucomutase
ATGGACGCAAAAGGAATTTTTGAACAATGGAAACAAGCCGCCCTGCCGGAAGACCTGGCTGAACAAATGGCTGAATTAGGCGGCGACGAAAAGTGGATCGAAGACGCCTTTGGCCAGGACATCAACTTTGGGACTGCCGGGATGCGGGGGCTCCTGGAACCAGGGACCAACCGGATCAACGTCTTCACGGTCGGCCGGGTAACTGAAGGTTTGGCCCGCTTGATCGACGAAAACGGCGAAGAAGCCAAGAAGCGGGGCGTGGTAATTTCCTTTGACTCCCGCTACAACTCACGCGAACTGGCTACTCATGCTGCCCGCGTTTTGGGGGCTCACGGCATTCACGTCTACCTCTTTGACGACCTGCGTCCAACGCCGGAACTGTCCTTCGCTGTCCGCTACCTGCACACCTTTGCCGGGATCAACATCACTGCTTCCCACAACGCCAAGCAGTACAACGGCTACAAGGCTTACGGCGAAGACGGTGCCCAAATGGGGCCGGAAAACGCTGACCGCCTCTTTGTCTACGCGCAAAAGGTTGAAGATATCTTCAGCGTTAAGGCAGCTCCAGTCAAGAAGCTGCGCGCTGAAGGCACTTTGCAGCTGATCGGCGAAGATGTCGACGAAGCCTACCTGGCCAATCTGGAAACGGTCAACGTCAACAAGGACATGATCAAGGAAAACGCCGACAAGCTGAAGATTGTTTACACTCCGCTGCACGGTACGGGTAAGATGCTTTACGACCGCGCCTTCAGACGCGGCGGCTTCAGCAACGTTGTTCCAGTGCCAAGCCAGGCGATTGTGGACCCGGAATTCCCGACTTGCAAGAAGCCTAACCCGGAATTCCGTGACGTCTTCAACCCAGGCGTGGAACTGGCCAACGAAATCGGCGCTGACATGATCGTGGCTACCGACCCGGACGCTGACCGGATGGGAGCCTGCGTAAGAACTGACAAGGGCGACTTCCAAGTTTTGACTGGGAACCAAATCGCTACTTTGATGTCTTACTACCTCCTGCAAAACTTGAAGGACTCAGGCAAGCTGACTCCGGACTACGAAATCGTTACTTCAATCGTATCCAGTGCCTTGCCATTCAAGATTGCCAAGGACTTCGGCATCAAGACCAAGTCAGTTCTGACTGGCTTCAAGTATATCGGTGAAGAAGTCGACCGGATGAACAAGGAAGGGGACGGCAAGTTCCTGATGGGCTTTGAAGAAAGCTACGGCTACCTCTTCCAAGCCTTCGCCCGCGACAAGGACGCCATGCAAGGGGCCTTGATGTTCGCCGAAGTTGCCAGCTACTACGCTTCCAAGGGCATGACTGTCTTTGACGGCCTGCAGGAAATCTGGAAGAAGTACGGCGTTGCTTATGAAATCACCCGGGCTATCGAAATGCCAGGGATCGGCGGGCAAAAGAAGATGGCTGAATTGATGAGCAAGCTGAGAGAAGAACACCTCAGTGAAATCAACGGGGCCAAGGTCTTGAAGATCGAAGACTATCAAGAACAAGTTACTGTCGAAAACGGCGAAGAAACTCCATTGACTGGCTTTCCGAAGTCAAACGTCTTGAAGTACTTCCTGGATGACGAAACTTGGGTAGCCCTGCGGCCATCTGGTACTGAACCAGTAATCAAGGCTTATGTCGGCGTTAACAAGGCTGACATCGCAACTGCTGAAAAGGCAGCTGAAAGCTACCAAGACGCTATCAGCGAATTGCTGAAGTAA
>LACTIS1119B1_06530 hypothetical protein
GTGGTCTACCAGATCTTCCCAGACCGCTTCAACAACGGCAACCCGCATGGGGAGATCCAGGGCCGCAAGAAGGACAGTTTCATCTACGCGACCAAGGAAGACAGTCCTTACTATATTAAGGATGGGCATGGCGATATAGCCCGCTGGGACTTTTTTGGCGGCAACCTCGAAGGTATCCGGCAAAAGATTCCCTATTTAAAGGATTTGGGAGTGACGGCCATCTACTTGAACCTGATCTTCCAGGCTTCCAGCAACCACCGCTATGACACCCAGGACTTCATGAAGATCGACCCCATGCTGGGGACCGAGGAGGACTTCAAGAACCTGATCAAGGACCTGCACAAAAACAGGATTGCCTTGTTCTTAGAGGGAACTGGTCATTTACTGCTACAACAAGACCGACCAGGATATGATCCTGGACGCGGGAAAATTTCAAACATATTGCCTGCCAGAGAAGATTGGAGAGCTGGTAAGTGA
>LACTIS1119B1_06540 hypothetical protein
ATGAGAGCTATATTTAATTCTTGGGACACTAAATACAAGCAGCCCTTTGGCGCCACGCGGGCCAATACCAGTGTCAAGTGGGCAGTTGAAGTCGATGAAGAGATCCAGGAGATTACCCTCTGGCTGACTAAAAACAATGAGTCGCCGGTGGCTTACCCCATGACTTTCAACGATGAAAGCAAGATGTATGAGACCAGCGTCAAGATTAGCAGCTCCGGGCTCTACTACTACTTCAACATTAAGCAAAACGACCAGTTTTACTTCCTGGAAAGAAGACAGGACGGTTTTGGCGACGGGGAGATCACCCAGGACGGCCGGGATATCCGGACCTTCCAGCTGACTTGCTATGACCGGGCGGTCCCGCAGGCTCCCTGGTAG
>LACTIS1119B1_06550 hypothetical protein
ATGAAGAAGACGGTTGACGCCTTGATCGACGGGACGATTCCTTGCTGCGTCAGCGAAGGCCGGGCCCTGTATGATGACTTCCTGAAGGACAACGAAGAATTCTTGGTTCTGGCTGACTTTGAAGCCTACTTGAAGGCCCAGAAGCTGGTTGAAAAGGTTTGGGCAAACAAGCAGCAATGGGCCCAGATGAGCCTGGTCAACATCGCTCACTCTGAACGCTTTGACGCTGACAAGACCATTGAACGCTACGCCAGTGAAATCTGGCACCTGGACAAGGTGGAAGTGGACGCTGGAAAAGCGTAA
>LACTIS1119B1_06560 hypothetical protein
TTGCCGGAACTTGAAGCCTATCTGAAAGGGCAGGGGATGGGGAATATTTTCTACGCCGTCAAACTCACCGGCCGCTTTGCCAAAATGAAGACCACTCCTACCACCCACGTGACCTCTACGAAAGCAACCCAGTCATGA
>LACTIS1119B1_06570 hypothetical protein
ATGACCGACTACAACAATGAATACGACAACGACTACCTGGAAGATCTGGAGATTGACCCCAGTGAAATCCTGGACTATAGCATCTCTGAAAAACTTGCTGGCTTATGCGGGGAGGAAAAAGCTGCCTTCTGGCGCTCCTTCTACCAGCAGGCCCGGCAGCTGCACCGCCTCTTTATCACTAGTGCTGACCTCCGGGAAAACTTTGACGTCGATGTCATCTATAACCGCCGCAACCAAGACGCGGTCTACCAGGCCATTCCTGCTGGCTGTAAAAAAGAGGAAAGCAGCCTGCTTCTGCAAGGGGTGATCGATGACTACGCTTTCTCAGAAGACGACACCTTGGAAAGCCGCCAGTCCCTCTTTATCCCCGAGAACGAATCTACCTTCGTCTACGAGCTGAACACTGACGACGGCCTAATCAACCTCTTCGCCTTGACCTACCAGCAGAATAGCCACGCCCTGGATGCCCTCGGCTTTAACTTGAGGCACCGCCAGCAGATTCACCATGCCGGTGAACTTGATTACTAA
>LACTIS1119B1_06580 hypothetical protein
TTGCTTATTGAAAAGTATGATCAGTACTTTGGTAATTTGATGGATGCCATAAGTCAAGCATCATCTCCTGGGAACAATAGCTGCAAATATGTAGTTGAATTGACGTATATAAGCTTGTATAAGAATATCGCTAATAGAGTCAATACACGTTATTGCACCGTTAAGGACGATAATAAATTACTGTTTTCTGTAGTTATCGACGTTCTTACTGATGCTATGGAGCAAGAAGCTCATTATCTTCAAAATAATTGTAGCTACGACCCGTTAAACCGACAGTTTACTACTTTTGGTACAATCGTGAATATCGATCAAAGTTTTCCAGATGATTTCTTTACTGAAGGAATTGGTTTGGATATTAACAGAGCCTTGTAA
>LACTIS1119B1_06590 restriction endonuclease subunit R
ATGACGAATAACAGAATGGAACTGAGTGAGGAAGATATCAAAAATCGGTATATTTCTCCTGCAATCTTCGAAGTAGCAGGGTGGAAAAAAGCAGATTCACGGATGGAATACAGTTACACTGATGGCCGGATTGAGGTCATTGATGATATTCCAAAGAGAAAAAAGCGTAAGGCTGTCGATTATCTACTTTTCTATAAACCAAACTTTCCGTTGGCAGTTATTGAGGCTAAAGATCGTAAGAAACACAGAGAAGCAGGAGCGGGACTTCAGCAAGGCATGGGGTATGCCCGGGATTTGGATGTTCCTTTTGCCTATTCGTCTAATGGGGACGCCTTTGTTGAACACGATATGATTACAGGCAAAGAGCGGACTTTAGGGATGCTAGAATTCCCCAAAAAAGAAGAACTCTGGCTTCGATATAAAAAAGAATCAAATATGACAGAGGCTCAAGAGAAAATTATTTCAGAGCCGTACTATTCATCCAGAACATCATTGGAACCGAGATATTACCAAAGAATTGCTATTAACAAGACTGTTGAAGCAATTGCAAATGGGAAAAGAAGAGTCCTTTTAGTTATGGCAACGGGGACAGGTAAGACTTTTACGGCTTTTCAAATCGTTTGGCGGTTACTGAAGTCTGGAATGAAGAAGCATATTCTTTATTTAGCTGATAGAAATATCTTAGTTGATCAAACAATGAGTGGCGATTTTGGCCCCTTACTTGATAAAGAGAGTAAAGTTGTTGGTGGAAAAATGGACAGCTCATATCCGGTTTTATTTGCCTTGTACCAACAATTGGTAGGAGATGACGAAGACGAAGGAAATGAACCATTTCGACAGCTTTCAAGAGATTTCTTCGATTTGATTATTGTAGATGAGGCCCACCGTGGTTCAGCCAAAGAGGATAGCCGTTGGCGGAAGATTCTAAAATATTTTGACGGACCAGATGTCACGCAAGTCGGGATGACAGCAACACCGAAGAATGACAAAGAAGCTTCCAACATCGATTATTTTGGAGAACCGATTTATACTTACTCACTGAAGCAAGGAATTCAAGACGGATTTTTGGCACCATACAAGGTTATTCGGGTCAATTTCGATGTTGATATAAATGGATATCGCCCATCTAAAGGTGAAAAAGATGCTTACGGTCAAGAAATTGAAGATCGTATTTATACGAGTCGAGACTTCGATAAAACTATGGTAATCAAGGACCGAAATAAAAAAGTTGCCCAGTACCTCACTAATTATTTAAAGGAAAATAATGAGCGATTCGACAAAACTATCATTTTTTGTGAAAATACGGATCACGCTGAACGTATGCGGCAAGCATTGGTGAATGAGAACAGTGACTTGTGCAAGATAGACCCCCGCTATGTCATGAGAATTACAGGTGATGACAAAGAAGGAAAAAAGCAACTAAGTAATTTCCAGGACTCTCAAAGTCGTTATCCAACTTTAGTCACTACGTCAAAATTACTGACAACCGGTGTCAACATTAAGACTTGTAAGTTAATAGTTTTAGATGCAAACATTAATTCAATGACTGAATTTAAGCAGATCATTGGACGTGGAACACGATTAGATGAAGATCATGATAAGAGTTTCTTTACGATTATAGATTTTAGAGGTGTATCACGATTATTTGCTGATCCAGCATTTGATGGCGAGCCTATCAGTGAGGAAGATGTGAATCATGGCAGCGGACACGGTGGAGGAACTCCGGGTGGATGTGTAGAAACACCGACCCGTTATTACATAGATAAGAAAAAAGTAGAAGTGAAAGGATCTGTGATTCAATACCTCGATGAACATGGTAAATTAGTTACAACGTCTCTTATTGATTACACTAAGAAGAACATCTTGAACCAATATGCAACCTTAGATAGCTTTTTAGCGACCTGGAATAACAGTGGGAAGAAACAAGAGTTGTTAAACCAGCTCGAAGAAGAAGGCATTTACTATAAGGAATTGGTGAAGAAACCAGAGTATCAAAATATGGATCCGTTTGATTTACTGGTTTACCTTGCATACAACCAGAAGCCATTGAGTAAATCAGAACGAATCAAAAACGTAAAAAAATCGGGATTATTGGATCAGTATCAGAAAGGTGCTCGGGAAGTCCTGGAATTGTTACTTGAAAAGTATAAGAACGATGGCATTAAAGATGTTGAAGATACAAGTGTCTTAAAGCTTAAAGAGTTTGAAAAGTTTGGAGGCCCTGTAAAGATCATCTTTGAATTGTTCGGCAGTAAGAAGAATTATCAAGACGCAATAAAGAAAATGGAAACTGAGATTTATAGTTAG
>LACTIS1119B1_06600 DNA methyltransferase
ATGGCGGTAGCTAACACACAATTTGTAAAGAGAATTCAAGATATAATGCGACAAGATGCAGGCATTAATGGTGATGCACAAAGAATTGACCAAATTTCTTGGATACTGTTTTTAAAGGTCTATGATGACTGCGAAAAAGATTGGGAGATTACCGAGGATGATTATCAATCAATCATACCGGAGGGGATGCAATGGAGAGAGTGGGCTGTTGACAATAAAGACGGTAATGCACTTACAGGTGATGAACTGTTATCTTTTGTTAACAACGAACTTTTGCCGGGATTAAAGAATATTACCGTATCTAGTGAAACGCCGATAAAGCAAGCAATTGTTAAAGATGCCTTTATCGATGCAAACAATTACATGAAGAACGGGGTTTTGCTTAGACAGGTTATTAACGTCATAGATGAACAAGATTTTACCGATCCGCAAGACCGCCACATGTTTAACGACATTTACGAAGGCATTTTGAAGCAGCTTCAAAGTGCTGGGAATTCTGGTGAATTCTATACGCCACGTGCGTTGACTGACTTCATTGCCGAGACTTTGCAGCCAAAACTTGGTGAAAAGATGGCAGACTTTGCTTGTGGGACTGGCGGCTTCTTGATTAGTACTTTGAACGTTTTAAAGGAACAAATCAAGTCAGTTGAAGATCAAGAAAAATACAATAATTCTGTCTTTGGTATTGAAAAGAAGGGACAGCCGTATATTCTGGCGGTTACTAATTTGCTTTTGCATGATGTAAGTAATCCAGATATTGTTCACGGCAATTCTCTGGAAAAGAAGGTTGATGAATACACAGAAAAAGATAAATTTGACATCATCATGATGAATCCACCATTTGGTGGCTCTGAATTACCAGTAATTAAACAGAATTTTCCAACCGACTTGCAGAGCAGCGAAACTGCTGACTTGTTCATGGCTTTAATCATGTACCGCTTAAAAGAGGGTGGTCGTGTTGGTTTAATTTTGCCAGATGGCTTTTTGTTTGGTGATGATGGATCAAAACTGAGTCTAAAAAAACGTTTGCTGACAGATTTTAACTTGCATACGATTATTAGATTACCAACTAGCATTTTTGCGCCATACACTTCAATCGCAACTAATATTCTTTTCTTTGATAAAACTAAGCCAACTGAAAAGACTTGGTTCTACCGTTTGGACATGCCAGAAGGCTATAAACACTTTTCTAAGACTCGCCCAATGAAGCTGGAACACTTTGATCCAGTAAGAGAATGGTGGAATGAACGTCAAGAAATTCAAGATAAAGATGGCAATTATAAGTCACGTGCTTATACTGCAAAAGAAATTGAAGAGAATGGTTATAGTTTAGATTTGTGTGGCTTTCCAACTAAGGTGGAAGAAGTTTTACCCCCAGAAAAATTGATGGCTAAGTATACGGCAGAGAGAGAAGAACTTAATAGTAAAATTGAAACAACTCTAGATGCAATTAAGGCCTTATTGGAGGAAAACTAA
>LACTIS1119B1_06610 hypothetical protein
ATGACCCCAGAACAGTTGAAGGAATCAATTTTGCAGTATGCAATGGAAGGTAAGCTAGTTAGCCAAGATCCAAACGATGAACCGGCTAGTGTTTTGCTAGAAAAAGCACGCAATGAACTAGATGAAGCAGTAAGAAAGAAAAGAATACGAAAGGAAAAATATAATCGAGCAGTAAAGCCAGAAAATTACCCTACAAATTGGGAGGTAACTAGACTTATTGAAATTTGTGCAAAAGTCAAGGGAGCTATTAAAAGAGGTCCTTTTGGTAGTTCCATTACGAAAGCAATGTTTGTTCCAAAGTCTAAAAACACTTTTAAAGTTTATGAGCAAGGCAATGCAATTAGAAAAACAACAGATTATGGTGAATACTATATGCCCGATTCTGAATTTGAACGTTTGAAGTCGTTCGAAGTTCATGCGGGTGATATTATAATAAGTTGTGCTGGAACAATAGGTGAAGCATTTGTTATACCTAAAACATTTGAGCGAGGGATTATTAATCAAGCTTTGATGAAATTGACAATCGATGAAAACATCATTGACAAACAATTTTTTTTGCTGGTTTTCAAAAGCATAACTGGACAATTACGGGAACATTCAAAGGGATCTGCGATTAAGAATTTAGCTTCTCTAAAATATTTAAAAAATGAAGTTACATTTCCCCTTCCACCATTAGCAGAACAGAAGCGAATTGTTGAAAGGCTTGATCAAATTATGCCTTTAGTAGACAAGTATGCGGAAACATACAATCGTCTACAAGAAATTGACAAAGGAATCGGCGATAGGCTAAAGAAGTCTTTGCTCCAGTATGCAATGGGAGGAAAGTTAGTTGATCAAGACCCAAATGATGAACCGGCTAGTGAGTTACTAAAAAGAATTAGGGCGGAAAAATCTGAACTAATTAAAAAGAGCAAGATTAAGAAGAGCAAGAAGCTTCCAGAAATTACCGAGGATGAAAAGCCGTTTGATATTCCAGATAGCTGGGAATGGGTGAGACTAGGAGAGTTGTTAAAACCCGAAAGTAAAGTAAAACCAACAAAAAACTTCACTTACGTTGATATTGCCAGTTTAGACAATAAGGTACAAAAAATAATTTCACCAAAATATGTAGATGTTTCTAAGGATAAAATTCCTGTGAGAGCGACACAACTTATAAATAGGAATGATATATTATATTCACTTGTTAGGCCTTATTTAAAAAATGTGGCTATAGTTCCTAAGAAGTTTGATGGTGCAATAGCAACAAGTGGCTTTTGTGTATTAAAACCGTTGAAAGAATCATTGACACAATATTTATTTTGGGCGTTGCTTTCGCCATACACTACTGATGAGATGCATGCAAGAATGAAGGGGTTAAATTCGCCGTCAATCAAAAAAGGTGATTTGATTGGTTGGCCGATCCCACTGCCACCATTAGCAGAACAGAAACGTATCGTTACTAAACTCTCAAAATTATTTAAGCAAGTAGATATTCTTCAGAAAGACCTTGAAGCAAAATCTAAGTAA
>LACTIS1119B1_06620 hypothetical protein
ATGCCAAGAGGTGGATTTAGAGAAGGTGCAGGACGCCCGAAAAGCGGTCGTAAAGTGCGCACAATTCGGGCAACTGATGAGGAATGGAAACTAATTAAGGCCTACGCTGAACAATTGAAAGCAGGTAAATCACCAGAAATATTGAAGAGACAGGAAATAAAGCAAGTTGAGGTGCCCAAGCCCGTTATAAAATAG
>LACTIS1119B1_06630 alpha-amylase
ATGGCTAGCGATACCAAGATTGACTTGCGCAAGCAAATGATTTACAGCATTTTGGTCAGAAACTACTCGCCAGAGGGCAACTTCGAAGGGGTCCGGAGGGATTTGGACCGGATCAAGGACTTGGGGACGGACATCATCTGGCTTTTGCCGATCCAGCCGTCAGGCAAAGAGAAGCGGAAGGGGAGCCTGGGTTCACCCTACGCAATTTCCGACTACCGGGCTATCAACCCGGAATACGGGACTATGGAGGACTTCAAGCGCCTGTGCGATGACGTTCACGCCAAGGGGATGAAGATCATCATCGACTGCGTCTACAACCACACTTCCCCAGACTCAGTCCTGGCTAAGGAGCACCCGGACTGGTTCTACCACAAGAAGGATGGCAGCTTTGGCAACAAGGTGGGCGACTGGAGCGACGTTATCGACTTAGACTACAGCCACAAGGACCTCTGGAAGTACCAGGCAGAGACTTTGGTCATGTGGGCCAAGTATGTGGACGGTTTCCGCTGCGACGTGGCCCCGATGGTGCCGGTGGACTTTTGGAAGTATGCCAGAGAAGAAGTGGCTAAGGTGCGGCCAGGGGCTATTTGGCTGGCTGAATCTGGTGCCCCGGACTTTATCCGCTTCTTGAGAAGCAAGGGGGCAGTCGGTGGGTCAGATTCTGAGCTCTATCAGGCTTTTGACATGACCTATGATTATGACATCTACCCAGATTTGCGGGCAGCACTGCTGGGGCAAAAGGATCTGACTGACTACCTGGCTGGCCTGAACCGGCAAGAAGGGGTCTACCCGGAAAACTATGTCAAGGCGCACTTTTTGGAAAATCATGACGTGGTCCGGGCGCACGGGATGATCGATGATCCGGCGGCCTTGCGGGCAATGACGGCCTTCATCTACTTCATGAAGGGGGCCATGCTGGTCTACAATGGGGAAGAAAAGGGGGATGCCCACCACGTGACCCTGTTTGACAAGGACCCGGTTGACTGGAACGGCGATATTGATTTGACGGACCTCTTAAAGAAGATGCATGAAATCAAGCAGCTGCCAATCATGGCTGAGGGCAGCTATGAGGCTAAAGAGGTCAGAAAGGGTGTCTTGGAAGCTGTCCACAGCCTGGGTGAAGGTGGAGAAGAAGAGCAGTTGATCGGCTTGTTTAATACGACCGGCAAGAAGCAGGCGATTCCGACCCAGCTGCCAGAGGGGATCTACAAGAACCTTTATGATGGCAGCAGCGTCCAGGTTTACGAAGGAGTCATGCGGATCGGCGAGATTACCATTATTGAGAAATAA
>LACTIS1119B1_06640 major facilitator superfamily transporter
ATGAAGACTAATCGTTACATTGTTGCTTTGGCGGGGGTCATGCTGCATCTGATGATCGGCTCAGTATACGCTTGGAGCGTCTACACTAAGCCAATCGCGGCACAGACCGGCTGGAGCGAATCATCAGTTGCATTTGCATTTAGTTTGGCCATCTTCTTCCTGGGGATGTCCGCGGCTTTCATGGGCCGCCTGGTTGAAAAATTCGGCCCAACCTTGACTGGGACTGTTTCCGCCATCCTTTACGGGAGCGGGATCGCCTTGACTGGCCTGGCTGTTCAAAGCCAGCAGCTCTGGCTCCTGTACGCTTCATACGGCGTCATCGCTGGTCTGGGCCTGGGTGCCGGCTACGTCACCCCGATCTCAACCATCATCAAGTGGTTCCCGGATAGACGGGGTTTGGCTACTGGCCTGGCCATCATGGGCTTCGGATTTGCCGCTCTTTTAACCAGCCCGATCGCCCAATTCCTGATGTCAAGCGTTGGCTTGTCCAATACCTTCTACATCTTGGGTGCCGGCTACTTCTTGATTATGATCGTATCTGCCCAGTTTATTAAGCGGCCAACTGCTGAAGACCTGGCCAACTTCAAGAGTGAAGACAAGGAAGCTGTTTCCTTGACTGGCGGCCTGCAAATGACGGCCAACCAAGCACTGAAGGCCAAGACCTTCTACCTGCTCTGGTTCATGTTCTTTATCAGCATCACCTGCGGGATCTCCCTGGTCTCCGCTGCCTCACCAATGGCCCAGGAACTGACTGGGATGAGCGCGGCTACTGCCGCTGTCATGGTCGGCATCATCGGCCTCTTCAACGGCTTTGGCCGGCTGGTTTGGGCAACCTTGTCCGACTACATTGGCCGGCCTTTGACCTACAGCTTGATCTTTGTCGTTGACATGGCCATGTTCGTGATCTTGATCTTCACCCACTCACCATTCATCTTCGCTGTAGCCCTCAGCCTTTTGATGTCCTGCTACGGGGCCGGCTTCTCAGTTATTCCGGCTTACCTAGGCGACGTCTTTGGCACTAAAGAACTCGGCGCCATCCACGGCTCCATCTTGACTGCCTGGGCGGCAGCCGGCATGGTTGGCCCGCTCCTGCTCTCCTTCACCCACGAAGTTTTGAAGAGCTACTACGTGACCTTGGCCGCCTTCATCATCCTGGCCGGCATGGCCCTCTGCGTCTCCTTCCTGGTTCAGCGCGAATTTGCCAAGCTGACCGACCTGACTGACGGATTAGATTAA
>LACTIS1119B1_06650 XRE family transcriptional regulator
ATGACCACACAAGCCAAGGTGGCCAGCTGGGAAAACGGCGACAGCGTGCCCGACATATCATACATCGCCAAACTGACGGTTTTATACGACGTGTCAGCTGACTACCTGCTGAAAGACGGCAAGCAAGAAGGGCAGACCATCGAACCAGGCGAAGAGATGGACCGGCCGAACACTAAGCGCCTGGGCAGGATCAATAGCATCTACTGGACCATCGTCATCGCTGTCTACCTGCTGGCCAGCATCGCGACCGGCCGCTGGTCCACCAGCTGGGTCCTCTTTATTTTAGGAGGCGCCATCTGGCTCATCGGGGCTGGTTTTCACTGGATCAATTCGACTAAAGTTTTCACTGGATCAATTCGACTAAATAAGAAAGGAGTTGCTTCTTAA
>LACTIS1119B1_06660 DNA (cytosine-5-)-methyltransferase
ATGAAAAACATACATGCTGATTTCCAAACGGTTGCAACAGCGGATTGGGAGATTGGTGCCATTTATGCCTATGACATTATTCATAATGGCAAACAGGATCTAAGCCCTTATCGTCATCATACTAAGGAAAGTCTGATCAAACAGCTGAGTCGTTTTACCTTGTCGAGTGATGGCAAGACGCCAATGACTGAAAAGGGACTGGGCGCGATGACACCGGTTCAGCTTAAGAGAATCTTGGCAGCAATCAACAGAACCAATAATCTGGTAGACATTACCAAGGTGCATGCCACGGATCTTCCAGACGGTGATATCTTGACCTACTCGTTTCCGTGTCAGGATTTATCTATCGCTGGCAACTGGTATCACAATGAGGGCGGTATCGATAGAAATGCTCATAACAGAAGTACTCTGCTTTGGCAGATCGATCGGTTGCTGAATGAGTATGAAGAATGTGATAAGGATATGCCACGCTTTCTATTGATGGAAAACGTCAGTGAGATTCTTTCAAAGAAGAACATCAAAAACTTCCACGAATGGTGCAGCATACTAAACTCAATGGGATATGAAAACCAGGTCTACACGCTGGATGCCAGAAACTTTGGCGTCCCGCAGGCTCGTGTAAGAACATATATGTTGAGCGTTCTGGCTGATACTCCAAAGCGTCAGACGATGGTAAGAGACTACTTTTTCGGCAATAATCTAGAAATGGTTAAGCTACCGGATAAAGCCGTTCGAACGTTGGAAAACTATCTAAAGCTGGACTACTCAAATGAAGACTACTATGAAGAGGCAGTAACGAGCACACCCAACTTTACCGAGTCTCGTCGCAAGATATATCTGAACAACGATAAATTGGCGATTGATGATCGAATAGTGGGCAGATTTGCAAAAACGATTACGACTAAGCAGGATCGTAATCCCAACTCAGGCATCGTTGCCTATGAAAAGAATCCGCTGGTGTCTTGGAATCATCACTACCGAAACCTAACGCCACGTGAATGCTTCCTGCTGATGGGATTTGATGAAGAACAATTTGATGCTTTAAAGGATAATAACTTTAGCGTTCGTTCGAATAAAAATATGCTGAGCAATGCCAAAATGATTAAACTGGCAGGCAACAGCATCGTGGTGCAGGTCCTTGAAGCGATCTTTAACCAAGTAGTGGAAATTGATCAGATGATGGGATAG
>LACTIS1119B1_06670 hypothetical protein
ATGACTCTGATAGTGAGTGATCTATATGAGCGAATCATGCAGGCCAATGCTGATGAGTTTGATTGTCTACGGGTAATAACCGGATATAGCTCTGGTGATTTTATTAAAAAGGTATTGAGCGACTTTCCCAATCTTAATATTGAACTGTATCTTGGAATGGCTCGACAAGGCGTCTCAATTAGGGATCATGAGTATTATCAGTCCATTACGCAAAAAGGGGGTGCAAAGGTGTGCTATGTCACCGATAAGCCGATGATCCACCAAAAAGTAATGGAATTCTATAGCTCAAGAGATCATATTGGCTACGTCGGGTCAGCAAATTTCTCGTTCAACGGCTTTTTTGAGCAGAGAGAGATTATGGTGGTTGCCGACAACAATCTAGACGCGGTTTTTCAGATGGCCACATCACAATCAATGTCATGTCTGGATGAGCAGATAGAAAATGTGATCCCTTTGGTAGAGACGGCGCAGACTGAAGATTCTTCAGCGAATGAGAATCATTTTGGAGAGCAGAGTGATGTTCGTGAAGAGAAATCAATCGAGGGAGAAAGTGAGTCAGGCTTTGGAGCAGGGGTACAGTGGCAAAATCTGCCATACTATCGATATGATGAATACATTGATATCCCAATCATTCGTAAGGAAGTTGTACCAGAGCAGGCCCCGATCAATGATGATATCCCGTATCTCAGCTTAGATGGTGTTAAGGAATATGGTGCCGTTCTGCCCCCTCATCAAGTATTCGAGCTTAAGACTGCAAGCCAAGTGATAGAAGCTGATACTGAAAGTGAATTTGGTCGCTCGCTTAGATTCCATGACGTAAACATGAAAGAATTAATTGCTCAAAAGCTGCAGATAAGTGCTGATACCCTTTTTACGGTTGAAAGCGTTGGTAACGTCAAGCTGCGCGTCGTCAAGCTTAGAGAAGGGCCTTATTACATGGAGCTGGTCAAGGACAACCAGAAAGGAGAAGAAAAAAATTTTAAAACTGATTGA
>LACTIS1119B1_06680 hypothetical protein
ATGTGTAAGATGAGTATTAGATGGAATGACGTAAACTATGGACAGGCGCAGGCTAAAAATGATTATGAGCGCTTAATCGTTAAAGATCAGAATGTTGTACCAATTGGTTTTGAGGGCGATCCTCAGGCAGCTGAGTGGGAGGCACTAAGAAAACAACTGATAGACGCGCGTGATGAGGTGTTTGAAGAGCACGGCTTTGACAACGCAGAAAAACTGGACTATGACTTTGACGTCGCCTATGGATTCAAACTGCATGAGATTCTTAACGAGAATGTAGGTTTTAATAATCGTGAGGCATCCAACAACGATTTTTGGAACTGGCTTTCGGTGCGAGTTATTCCAGACGTTGTGCATTCACGCTGGGGAGACAATCCAGATCACTACTTCAAGATTTCTAGAAGAACATGGCTCAAGGTCATCTGGTGGTATATCTATATTTGTTGGGATAATAGCGAGGAAGCAACGTATGAGTTGATCAAAAACAATACGACTGATACGATTCAAGGATTGATTGAGCGTCCAGGCATTGGGTACTATGTTGACGTCTATCATGAAATCATGAAGCGGTACAAGGACTATCAAGACCGAAAACTGTTTAGACGAGTCATGAAGCTTAATACGGCCCGCTTGATGACAACGTCTCCTGAGTTGGTAGATGGCGGTATTGAGGCTTATGTAGAAGACCTGTTTAAAAAAGCCAGCGGTTAG
>LACTIS1119B1_06690 hypothetical protein
ATGCCCAAGATTGACCTTTATAGAAAAATAGATGAGAAATACTGCAGTAAGCGAAATGCCGACATCAGAGTAGGCATTCCTTCGTTGTATTATAAAAACGAGCTGGGTGAGATGGTTCAGCTTCCAATTGATGAGGAAACTGAAGAAGAAATCGAGCTTAATGAGATTGAAAAAGGATGGCTTCCAGAAGAATATGATCTTGATTACGTTCAAGAGTTTCACATTGGCAATCCAAGTGCGCTGTTTGGATCATCCGCCATTACAGATTCAGCCAATCAAATCGGAATTGCTGCGCATATCAATTCTCGTGAGGCAATGTTTCAAGAAACGATACCGTTAAAAGCAACCATCAAAGACACTCCGGAGGGACAAGTATTCACATTTAGGCACCATTTCCCAAAAGACGTGCTTCGTGGCGTTATCAAACTGGAATTCTTCTTCTACTTGGCATCGGTTGAGAAAAAACATCCCTTTCAAGCTGATGAGATTGGCATGCGACTAAGTGACAACATCTTCGAGACCAAGCTTGTCATTGATGGCACTGGTTCGACATTCCCAATTACGGAGTCAAGCATTCCAGGTGGGCCATTATGGCAATTGCGCAAGCACTGGGATGACCCAGTTGTTGATCCATTTAGTCCGGCCAGCGTTGAGGTTGAGCTGAATAAGAGTCACCCATTGTTCAAGCAGCTCAGTGACAGTTACGGCAAAAAATCAGGCTTGGGGAAAGCACTAATGAACAGCATCGTAGCACAGGCAATGGCCATGATCATCTATCAAACCGTTTTAGAAATGAACAATACGGAAGGCGATTCGTGGTCGTTTGACATTGCGGAGGATGGATCGATACTGCAGATAGTTGGATATTGGCAAGATACCTTTGAAGTGGATATTCAAGATCTCAGCATAAGCAACGTATTCAACTCGCTTCAACAAGGCTTGGAGAAACTGAACAGAAAAGGATAG
>LACTIS1119B1_06700 hypothetical protein
ATGAAAATTAGAGAAGCTTCGGATAACCTTTTTGATATGAATCAATCGGGGGATGCTATTTTAAGATCGCTGCAAAACGCTGATTTTTCGATTATGGATATTATTGTGCGTGAATCGCTTCAGAATGCTCTTGATGCATCAAAAGCCGGTGTAGACCATACTTTTGTAGACTACCGAACAGGAAAATTTGATACTTCTCGGTTAAACCCAGAATTTGAAAGGATTTCTGATAATCTAAACCGTGCCTATACTGATGAAGCTGAGTTTCTTTCCATCAGTGACCGAAATACGGTTGGTCTTAATGGCCAATATGATCTGAATCGTCCCGATGAGCTGACGAAAAGCAATTTTTTCAAACTGGTATTTGGACTTGGAAAAAATCAAGAAGCTAATGGTGCTGGGGGAAGCTGGGGATTAGGAAAAACCAGCTATTTTAGAATTGGCTGCGGCATCGTAATCTACTACACGCGTATTAAAGCAGAACAAGACTATGAGGAAAGACTAATCGCCTCATTGATTGAAGACCCTCGCTCAGAAAAGAGACTGTTGACTGACAGTAGGCGTGGCATAGCCTGGTGGGGAGAGCAACGCGAGAGTGACAAGGACGACTTCTATCCCATTACTAACCATGAACGGATTGAGAAGTTTCTGGATATTTTCGGTTTGAAGCCATATAGAGCAGAGGAAACCGGAACGACGATCATAATTCCATACTTAAAGGAATTTGAACAGACCAGTAGCAATCCTTGGGGAAGGAACCGCGAACGTGCATTGACTACTGCTATCCAAAGATGGTATGCGCCAAGAATCTTAAATGACGAGTACTCGAAGGGAACCGGCAATGCTGATCTGTACTGTAAGGTTAATGGAGAGCTGGTTGGCTACCCAGAAGTAGAGCAGCCATTTGGTCTGTTGCGTGATCTGTACACGGCGGCTTTGACAGGGAATGCCAGCGATGATATTAAAGTCGAGGATATCAGACTTCCTAGAAGCGGTATGAAGGACAATAAAACCAATGCCGGTCGCGTTGCTTTTGTGATTAAGAACCTTTCTGATGCGGTAACCAGCAATGGATTTACGTATCGTCAATATATCGAAGATACTGATGATCAGACGGAAGAATCATTTAAACTGGTAGCTTTTGCCCGCAAGCCAGGGATGATTGTAAGATATGACTTTGACGATAAGTGGAGCAAGGGTGTAAAAATTGCAGACGATCAATGTCTAATTGCCTTTTTCGTACCAAATTCCAATGGAAAGATCTATGAAAAGTATCGTACTGATAAATACGATACTTTGGAGCAGTACCTTCGTTTTGGAGAAAAAGCTGATCATGCCGACTGGTTTGACCAACGCGGCCAACAGAACATTACACTGGTAGACAGAATTAAGAAAGAGACAGCGCGAGCATTAGCTAATGCAGCTGGATCAGATGAAGACAGACAAGTTTCGCTTGTTTCTGAAAAATTAGCTCATGAATATGCGGGCCTTTTACCACCAAATAATTTTGGGAAAGCCGGTCGAAGTCGTCCCAAGCCTCCTTCAGACGGTGGTCAAAAGCACGAACATGCCTCCTCAATCACTATTAAAAATACTGGCATGGATGAAGACGGCCGCTTGTTCATTGATTTTGTCGCTAGATTTAAGAGATCGGCAGACGTAGATATCAAGATCTCTACTCAAGGAAAAAGCGCAATGAGTTTTAAAGAATGGGCCAAGGATCTGGCTACGTTAGACTTTCCTGTTAAAATCGATAAGGTTGAGATTGATGAGACTGAAGTCAGCGTTGCCATCGCCAGTTCAAGAGCCAGATTCAGCTTAACCAACTCTAATAATGAACGAACAGAAATTATGGGACGACTGAAGCTAAGCCTGTCGTCTAATGAATATCAGCCAGAACTGATAATCAAACAAAACGACTAA
>LACTIS1119B1_06710 hypothetical protein
ATGCCTATAACAAAGCTGGATGTTATTCAGAATTACTATGTTAAGCAGAAGAAGACAAGTTGGAAAGATATGTTATCTGAGTCTGATTACCAAGCTACCAAAATTATATGGGAATTACTTAATGATAGTTCTTTGACGTATGAGGAGTATACAAATTTGGTAAATGACCAGATAGAGAGGACGAGTGTTTCGAAAGTAACGGTTTTTGGTGAAGGTATTAACAATACAGCTGTAAAGCCAACCGGTGATTACAGCAGCTGGAGACGATACAGGAACAAGCTGGTCAACCAAGATCATTGGTCTGACAAATCGGTTGAAAATATTGAAGAATCGGCATTCAATACCTTGAAATATCTGACCATGGATGCCGAAACTGGTCCACACAAGGGATTGGTAGTTGGTAATATTCAATCTGGAAAAACGGCAAATATCAGCGCACTGATTGCAATGGCGGCTGACAATGGCTTTAACATGTTTATTGTTTTGTCAGGAATGATTGAGAATCTGCGTCAACAAAATGCCAAGCGAATCTTCAACGACTTACAGGCAGATGGTCAAGGGGACAATCATTGGAATAATCTTGACAATCCATCGATTAGAAGAGGATTTGCTACGGATGAGTTAAAACTCAAACCTGACTCAAAAGAGAAGTACTTAATTGTGTCGTTAAAGAACGTTTCTCGAATTGAGGCATTATACAATTGGCTGAAACGAGATCATAACAAGCAGGGACAGATGAAGGTTCTGTTTATTGATGATGAAGCAGATCAAGCAAGTATCAATACACGAGACGTCAACAGCGACGAGCGGACGAGTACCAATAAGTGGATCCTCAATATTGTAGAAGACGACAATTTTGGTGCAATGAATTATGTTGCCTATACTGCAACGCCATTTGCTAATGTATTGAACGAGACTGGGGAACATACTCTTTATCCCAAGAACTTCATATCATTACTTGAGCCAGGCGAAAACTATATTGGACCAACGCAGATTTTCGGCTTGGGGGACCCTGACTATCAAAGGGGTATGCAGGATATCGTCAATGAGATTCCGCAGAAAGAAAGTAAAGAGATTCAAGAGGCTCAACGTGATGGAGTAGCGTTTAAAGCGCCAGAAAGCATGCGAAAGTCGATCGACTGGTTTTTGATTGCAACGGCTGCTATGCGATCTCAAGATTATAAAAAGCCAATTTCGATGATGATCCACACAGATTTCCATAAGCAGGCACACAGCCTTGTTGAAAAATCAGTTCAGCACTATTTAAAGGAACTGCAGCAAAAGTATCAAGAGGATCCCGAGCACGTTATAAAGAAGCTCCATGAAGAGTACAAAATGGGTCGCGATGAGCTCTCAAAAGAAACTTTTGAGAAGGTAATGATTGATTATTCAGGCGATGTTAAAGACTATCCAAAATGGGATGCAGTAAAGGATGAGTTGATCAGCCTACTTTCTATTCCAAAAGGCGAGTTTGTTCATCATATTAAAATGACCGATGAGGGTGAGAATATCTATGGCAGAGGCATTCATCTCTGCATCGACAACAGCAGCTTCAACGATCTGAGCGACGAACACATCAGACTTATATATCCAGACGGAAATCAATTGAAGAAGTGTAAAAAAGCTCCAGCATTTATCGTTATTGGCGGTAATACCCTTTCTCGTGGGTTGACAATTGAGGGCTTGGTTTCCACCTTCTTTTTGCGCAGAACCAACCAAGCAGATACCTTGATGCAGATGGCGCGCTGGTTTGGTTATCGACAAGGGTATGAGCTGATGCCAAGAATATGGATGGATCAAGAGGCCGAGGAAAGATATGAATTCTTGACGGAAATGAATGAAGACATGCGAGAGAAGCTGAAGGAATATGCCGATACGGATCTCACGCCAATTCAATCAGCACCAAGAATTCTGCAAAGTCCCAGCTACGTTAACGTTCGAATCACGGCTAACAACAAGATGCAGGAATCAAGGCCGACTGATTTTAACTTTGAAGGACTGAATCACCAGATCATACTGTATAAGAACAAAGAAAAGAGCATGGAAACCAACCTAGAAAATACTAAGGTCTTTTTAGAAGAACTCGGAGAATATGAGGTAAATGGTGCTCATATGATCTGGAGAAGGATAAAGAATCAGAAGGTTAAGGAGTACTTGGGAAGCTATCAAGGCGTTGAGTTGGATAAACAGCTTACCTCAATGCCTCATATTCTTGAATGGCTGTCTGAAAACGGTGAAAACTTCCCAAATTGGAACGTTATCCTTGCCGGTCGAGGAGATGGCGTCCGCGATGCATATAAGAACGAGTGGAGCATTAATGGCAAGACTGTTGATGCAGTTCGGCGTTCAAAGACCGACAAAAGCACCGATGAGATCATTGACATTCATGCTCTGCGTTCGCCACGCGATCTGCTTGCAGACATTTCAGATACCAGTGATGCACCAGAATCTGTTAAAAAGGCAAACATGGGAGCAATTACCAGATATCGTCGTCAAAAGGGCATGAGCGACATCCCACAACTCTTAATATATCGAATTGATAAGGACTCGAAAGCAGACAAAAAATCAAAAGAACGTCGAGACCTGAATACTCCTTATGACTTGATTGGGCTCAACATCTGGCTTCCAGAAAGTGAAAAACGGACACCAAATAAGAATATGGTAGAGTATGTTGCCGTTACAATTAAAGACTACGATCAGCCTTTGAATTCTGGGGCTGAAGTAGACGAGGAAACAAGTGGAGAAGAATAG
>LACTIS1119B1_06720 hypothetical protein
ATGAACTCTACTGCTAATTTTATTGAAAACTTTCTTAATGTTAAAGATCCTTGCCTAAATTTTGTAGATTGCTCTCAAACGATTTACAAGGGGAGAAAAGTAATCATGTGTACAGCCATTGCCGAGCTCGACACATGTCCTAATTGTAAATCCGCTGATGACTATATATAG
>LACTIS1119B1_06730 T/G mismatch-specific endonuclease
ATGGCTCGCGTACACTCAACCGAAGGGAAAGACGAGATTATTCTTCGAAGAATTTTATGGGAAAAAGGCGTTCATTATCGTAAAAATTATAAGGAACTGCCTGGAAAGCCTGATATTGCTATAACTAAGTATAAAATAGCTGTTTTTATCGACGGTGAATTTTGGCATGGTTATGACTGGCAGAACTATCAAAAACATATAAAGCGTAATAGGGATTATTGGATTCCTAAGATTGAGCGCAATATGCGACGAGATAGGGATGTTAATGAAAGACTAGAAGCAATGGGATGGACAGTTCTACGATTCTGGTCTAAAAAAGTACTGAAAAATCCTGAGTACTATGCTGAACTGATAATGATCTATGTTACAGGAGCTAAAGAAGATTCGAATGAAAAAGGGGCTCTATAA
>LACTIS1119B1_06740 restriction endonuclease
ATGGCAAATCTATATTCAAATATTGATCCATTAAACACTAGAGGAAAACAGAAAACAATTCTGAAAGGAATTGAAGAGGGAATTGTAGAGGCAGATGAGGTAAAAATTGCTGTTGGCTATGCAACTAGCAACAGTCTATTTAAGTTGGATGAATTGACTGCAAAGTATAACGTAAAAAAGATTACCCTCATTTGTGGTATGTATCGAAATGGCATTCCGACAGACCTGAAAGATGCTATTAAAGAAGTAAGCAAGAAATGGGATAAAGAGCAAAGAGGCACAATATACTTGGCTAATGACATTGCCTACCATGGGAAGGTTTATTCTTTTATAAAGCGTGGTAAGGTCTTTAGAAGTATAGTTGGATCTGCAAATTTGACCGTGCTTGCACCTAATGCCGGTTCAGAAAACCAATATGAGTTTGCTGTAACCGTAGATGATAATCGGCAAAATCAACAAATTTTGAACTTTATCGATAGATTAACTACGGTTTGTGTTAAAGCTGACAAGATTGACAAATTCCGAGTTGTACAGTATGTGCAACCTGAGGATACAATACCAACAACTGTCCCATACAAGATAGCAGAGGATTACCATTTAAACGAAAGTTATGCGGAAACTTGTCGTAAAAATGTTATTGGCAAAAAAATTGCAATTGAGATAAAGGCTCCCAAAATGTCTGATCTCAAGAATGGAAAAATGAATTTATTAGGGTCAAATATCAATGTCTGCTACGCTAAATCTGAAAAACGAAAGCGACAATGGTATGAGGCACAATTGAATATTAGCAAAAAGGTAGAAGGAGTTCCGCGCAAGAAGCCATTTTACATCGTTGATGATGAGGGAAACTGCTTATACGCAAAAAGAACAAGTTCTGAAGATAAGCAATTATCTGTGAATGGGAGCGACTATGAGTTAGGCAAGTGGCTAAAAGGCCGTATTGTTGGAATGAAACTTGTAAAGCCTTTAGATAGTCCAGAAGAAATCAAAAAGGACAAGGAAAGCTGCAAGTTTGAGGGAGTTATTACCCAGGAAATACTTGAAAAAGCGCGTATGAGGTATCTTGTTTTGCAAAAAACGACTCTTAAAAAAGCAGATGAGGCTAAAGACGATAATGGTAAGCCAACAAATAAAGAGTTAGATGTTTGGTACGCTACGTTTAAAGCATAA
>LACTIS1119B1_06750 putative helicase
ATGAACGTGCAAAAAAATGATTTGACTGATTTTGTAGTCTGCAATGAAAATGAAGAACAAAAATTTAGAGGCCACGGTGATAAGCCAGTTGTAGTTGTCCTCAAGAAGAACTATCGTATTTTAAAGGCATGGGCGGATATCTTTAAAAATTCGGACATGCTTATTGGCAATCCACTTTTTATCATCGATGATGAAGCAGATGCAGAGTCATTAAATACTAAAGTCAATCAAGATAAAATATCTTCGATTAATAATTATTTGCGAGAAATTATTGATACTGCTCAGAGCAGCATATATCTGCAAATGACAGGAACGCCACAAGCATTGCTTTTGCAATCCAGTGATTCAGGTTGGAATCCGTTATTTGTGGATTATTTTGAACCAGGGAAAAACTATCTTGGTGGGAATTTCTTTTTTCCAAAGGACCATATCCCTAGCTTTGTTAGATTTATTGATAAAGATACGTCGGGACATATTGCTCGAAAGGTAGTTATTCGACATTTAGTAGTTACTGCACAGTTATTCCTAACAGGTAGCAAAGTTTCAAACTGCTTGATTCATACAAGTCGTTTGCAGTCTGACCATAGTCGGGTAGCTGCTGATCTTCGTAAAGTTCTTAATAGTTTAGCATATGATCATGATGATCCAGACTTTAGAGATGACTTGCAAAAAGAGTATGAAACTTTAAATCCACAGAAGTCTGAAAAGAAGTCGTTTGACGACATATATCAATGCGTTCAAGATATTTTAAAAAACATGGAATATAGTATTGTAACGCTTAATGGGATGAGTGCTGATACGAGTGAAGACTATGATAGTGGATGTAATTTTGTTGTTGGTGGAACAAATCTGGGTCGAGGCGTGACATTTGGTCAGCTTCATACTTTTTATTATGCTCGTACTAGCAAGCATCCACAGGCAGATACTATGTGGCAGCATAATCGGATGTTTGGCTATGACCGTGATGCTGGCCTAATAAGCTTATTTATTACTCATGAGCTTTACAATCTGTTTTCTGAAATTAATGAAACAAACAATGCTATTGTGGCACAAGCTCATAAAGGAGAAAAGATCACTATCAGTTATCCTGATGATTTAAACCCAACACGGGAAAACGTACTTGATAAATCACTATTAAATATTCTTCCTGGCAACAGCAACCACTTTCCATTTAATCCTCGTAACAATACGTTTGAGGATATTTCGAAAATGGTTGAAAGGTTTAATGGGACGAAGCCACCGCAACCAATATCTTTGAAGTTCATGCTTAAGCTATTGGACAAATTTGAAGATAGCAACTTCAATTTTGACGGATATAAGAGCATGATCCAGTCAGAATTAAATAAGTCGCCTTTGGCACAAGGGATGCTGTTGGTTCGTAGAGATCGTAATATTACGCACGGCATGAGAGCCTTACTTTCACAGAAAGATTGGGCAGATACGAATCAATACAAGGATAAGTTTGTATTGACCTTGTATCAAGTAAATGGTGATAATCCTAATTTAAATTGGCCAGAAAAGAAAAAGCTTTGGGTACCAAACATCAAGTTGCCAGGAACAAAAAACATTTACATGATTAGCTAG
>LACTIS1119B1_06760 hypothetical protein
ATGAGCTATTTAGGCAATTATATAGACCGAATGCGACTAGCTGGAAAGAAAGATTTTGCCGACTCAATAGAAGAAACTGCAAAACAGATTGGAGACGAAGAGCTTTCTAAGTTCGATTATGCGTCACATAGAATGGGACTCCTCTTTGGCAATATCCAATCGGGAAAAACGGGGCATGTTTTTGGGGTGATTTGTGAAGCAGTAGATCTTGGCTTTCCTTTCTTTCTATTTTTAACTACTGATAACACCACTCTTCAGGAGCAGACCTATGAACGTGCAAAAAAATGA
>LACTIS1119B1_06770 restriction endonuclease
ATGTCTGTGTTGTATTCAAATATCTCGCCTATGTTAAAGCCTGAGGGTAAAAAAAGTGTGTTGGATGTATTTAAAGAAAGTCTGGCTGATTCTGATAAATTTGAAGCAGCAGTTGGATTGTTTTCGGTAAAAAGTTTATGCAAGCTCAATGAGCTTGTTAAAGAAAATGGCGTTAAAGACGTAAGAATTGTTTGTGGTATGTATTCTGTTGATGGAATGCCCGGAAGCATTCGCAATGAAATTGAGAGGTTGCATGAGGAGTGGCAATCACAAGGAATTGGAGAAATATACTTTGTCAGAAACATGGACTATCACGGCAAGCTTTATACCTTTTGGAAAAATGGCAAGCCTTTTCGAAGTATAATCGGTTCTGCTGATCTGGATTTTCTAACTCCATCTGGTCGAACTTTGCGCCAATATGAAATTGCGACTACTATCGAGAGTAGAGAAGAAAATGATGAGCTAGCAGACTTTATCTCTGGCTTAATCCAAAAATGCTGTGGATCTGCTGAAAACATTAATACTATTAAGGTGGTTCACGAAAGAATCGAGTTATTAAATTCAATTGAAGGCGTTACAGAATTAACTGATTCGTCGGTTCAAAGTTTTAATAAGAAAGAAAATGGGATTGTAGTGCGCTTTCCAATCAAAGCACCTAAGTTTGAGAATCGCTTCAGTACAGATTCCAAAGACTATGCGAGATCAAATATTAATGTTTGCTACGGAAGTGGGAGAAAGGGACCAAATGGAAAGTCAAAGCCACGTAATTGGTTTGAAACTCAAATTACAGTGAGCGTGGATATTACCCGTTCTCCTGACTATCCAATAGGGAAGCCATTTTTTGTAGTCACTGATGATGGATATATGTTTGAGGCTCATACGACGGCACAAAACCACAAACAGTTTACTGCCTACGGTAATGATCGAATTTTTGGTCGTTGGATAAAAGGGAGACTTGTGGCGAATGGTTTGCTAAAAGCTTTTGACAATGCAGGACAAGATCCAGATCGTTTAGGCATGGTTACAGAAGAGATGCTTGAAAAATCAAATATGAAGGTGCTTGAACTTCATAAGACTAACGAGAAGAGACTTGGCAGAGTCTATGCTAGAAATGATAAGAACCGCCTAGATAAGAAACATTGGACGGAAGAGCCGCTTGATGTTTGGACGATTCACTTTACCAATTAG
>LACTIS1119B1_06780 cytosine methyltransferase
ATGATATTCAGAACTGCAGAACTATTTTCCGGCCCTGGTGGCGGTGCATACGCAGCTAAAACCAGTCATTTTGTCGATGACAAAGGGGAAGAATGGGGCTTTTCACATGCTTGGGCAAATGAATATGACCCTGATACCGTTGAAACGTACAAGTTAAACATCTTAAACAATCCAGACGCTAAAACTGTTTATTGTGAAGACGTACGAAAGTTCAATCTTGATGATGACGAAAAATTAGGTAATATTGACGCTCTTATTTTTGGCTTTCCTTGCAACGACTATTCAGTAGTCGGCAAGCACAAAGGACTTGAAGGAACCTACGGTCCACTATACACCTATGGGGTTCACGTTCTTAAAAGATATCAGCCAAAAGTATTCGTTGCCGAGAATGTTGGTGGCTTAACTTCAGCTAATCAAGGTGAAGCATTCATCAAAATTCTTAAAGCTTTTCAAGATGCTGGCTACACAATCACTCCTAATTTTTACAAGTTCGAGCAATATGGGGTTCCACAGATGCGGCATCGTATCATTATTGTGGGGATTAGAAATGATCTTGCAGAACAGGGAATCAAATTCCATGTTCCAGCTCCAACTACTCCAAACCCGGAGGACTACAAAACTGCTGGTGAGGCTTTGACTGTACCGCCTATTCCAGCTGATGCGCCAAATAACGAAGTTACCCGTCATAATAAGAAGACCATAGAAATGCTTAAATACATTCCTGAAGGCGGCAATGCTTGGTCACTGTCCATCCCTGAAGAATTGCGTTTAAACGTGAAAGGTGCAAAACTATCTAACATTTACAAACGCTTGACCTTTAATAAGCCTTCATATACGGTAACCGGTTCTGGCGGTGGTGGCACGCACATGTACCACTGGAAAGAAAACCGTGCTTTAACAAATCGCGAGCGTGCACGCCTGCAAACCTTCCCTGACGATTTCGTATTTGTTGGTGGGAAGGAGAGCGTTAGAAAACAGATTGGCATGGCTATTCCACCCGAAGGTATGAGACACATTTTGATGGCAGTACTTAAGACTTTTGCTGGCATTGAATACGACAGTGTTACACCTACTGAACGGTTGCAACCAGAGGTCCTTTTCAAGGTAAGCGGGAGCGAAGTAGCAAATCTCGTAAAGCATTAA
>LACTIS1119B1_06790 UDP-glucose 4-epimerase
TTGAGAATTTTAGTTGTCGGTGGGGCCGGCTATATTGGCTCCCACGCTGTTAGACGTTTAGTTGCCGATGGCAACGATGTAGTCGTTTTGGACTCACTGTTCACTGGTCACAAGGAAGCTATTGACCAAAAGGCCAAGTTTTACCAAGTTGACCTTTTGGACAAGGATGCGGTAGCTGACGTCTTGAAGAAGGAAAAGATCGAAGCCGTAATGCACTTTGCTGCTTACTCTTTGGTCGGCGAATCAGTCAAGAAGCCGCTCAAGTACTACAAGAACAATGTATCCGGCATGATCAGCCTGCTGGAAGCCATGGAAGAAACCGGGGTTAAGTACCTGGTCTTCTCATCCAGCGCTGCGACTTACGGCATCCCTGAAAAGCTGCCAATCACTGAAGAAACTCCGCTTAACCCAATCAACCCTTACGGGGAAACCAAGATGATGATGGAAAAGATCATGCACTGGGCTGACAAGGCTAACGGGATCAAGTCCATCGCCCTGCGTTACTTCAACGTGGCGGGTGCTTCCTTGGACGGATCAATTGGTGAAGACCACCATCCAGAAACCCACTTGATTCCTAACATCATGAAGGCTGCCCTGGCTGGCGGCGGTGACTTTACTATTTTTGGCGACGACTACGACACCAAGGATGGTACTAACGTCCGCGACTACGTGCACGTGGTTGACTTGATCGACGCCCACGTCCTGGCTTTGAAGCACTTGATGGAAACTAACCAAAGCGACGTCTTCAACCTGGGTACGGCCACCGGCTTCTCCAACTTGGAAATCCTGAAGGCCGCCATCAAGGTTACCGGCGTTGACATTCCTTATACTATCGGGCCACGCCGCGGTGGTGGCCCGGACTCACTCGTTGCTGACTCAAGCAAGGCCCGGAAGGTGCTGGGCTGGAGTCCGAAGTACGAAAATGTCGACGACATCATCGCCAGCGCTTGGAACTGGCACCAAAAGCATCCTAACGGCTTTAGCAAGTAA
>LACTIS1119B1_06800 dipeptidyl-peptidase
ATGTACGGCTTGATCAATCAACCAGCGGTCTTCATGACGGAAGACGACCTCAAATCCAGAAGCGATGAACTTTTATACGGCTGGGCTGTCAAGGCAACCGGGAAAAAGGAAGACTTTTGGTACGTAACCAGTCATTACGGCTATAAGGGCTACGTGCCAAAGGCCGCGGTAACTCCAGTTAGCCTGGAAGAAATCAAGGCGCGGGAGGTCAAACTCATCCGGCGGCCAGTAATTGACGTCCTGGCTGAGCCCAAGGTTTCAGCCGACATTCTGTTGACGGTTTATAAGGGCAGCCTGCTTAACGTGACGGATGAGCTTGTGGACGGCTATTACAAGGTTAAGCTCTTGGACGGACGAAGCGGCTGGGTTTCCAAGACGGCCTTGGCAAAGCGGCTGGATGAAGATGACTTCTTGTGGTCAGCAGATCCGGAATACTTTTTGCTCCAAGCCAAGCCGGATGAAGAAAGCTTCAGAAAGCAGGTAACGGAGACCGCCAAGGAGTACTTGGGCTGCCAGTACCGGTGGGCGGGCAAGAGCCCCTTGGGGATCGACTGCTCGGGCCTAGTCTTCATGAGCTATATGCTAAACGGGGTCCTGCTCTGGCGGGACGCGGAAATCAAAGAAGCCTGGCCGGTGCACGAGATTGAGTTTGAAGACCTGCAGCCTGGGGACTTGATTTATTTCTCAGGACATATTGCCATGTACCTGGGCCACGGCAAGTACATTAACTCAACTGGCTATAAGGAGCACTTCGGGGTAGCCATCAGCAGCCTTCGTAAGGAAGACCCTGACTACCGGGCCGACCTCTTCCAGATGATCGAGAAGTGCGGCTCCCTGTTTTAA
>LACTIS1119B1_06810 amino acid permease
ATGGAAGAAAAGAAAACACAAAGTACATACAAACGGACACTGACCAATGCCCACATTCAGCTGATTGCCCTAGGCGGGACGATCGGGACCGGCCTCTTTCTTGGGGTCGGCAACAGCATCCAGAAGGCAGGGCCGGCAGTCATCTTGATCTACATCATCGTCGGCCTCTTCCTCTTTTTCTTGATGCGGGCCCTGGGTGAACTGATCTTATCTGACTTAAAGAAGCACACCTATATCGAGTTTATTGAAAAATATCTCGGCAAGGACATCGGCAAGGTGACTGGCTATCTTTACTGGCTCAGCTGGCTGATCCTGGCCATGGCGGAAACGACGGCCTTAGGCATCTACTTCAAGTCCTGGCTGCCCAACCTGCCGACCTGGCTACCCGGGGTGCTCTCAGTCGCGGTCCTGCTCTTGATCAACTTGATCTCTGCCCGCTTCTTTGGGAACCTGGAGTTTGCCTTCGCTATCATCAAGATTTTGATGATCGTCGGCTTCGTTATCTTCGCGGCCTTCATGCTGCTGAGCTCCGGTTCAACCAAGTACGGCCAGGCCAGCTTCAGCAACCTGTACGCTGACGGCTTTTTCAACAACGGGGCAGGCGGCTTCTTGCAAGGATTCCAGATGGTTATCTTCTCCTTCATCGGGGTGGAACTGATCGGGCTGACAGCCGCTGAAGCCAAGGATCCGCACAAGACTATCCGGAGCGCGATCAATGAATTGCCACTGCGAATCATCCTCTTCTACGTTTTGGCGATTATCGGGATTTTGGTGATCCTGCCATGGAACAAGGTATCAACTTTCAGCTCACCATTCGTCCAAGCTTTGATGGGGGCAGGCTTTAAGGGGGCCGGCAACTTGATCAACTTCGTGGTCATCACGGCAGCTATTTCAGCAACCAACAGCTTCCTCTACAGTGCCGGCCGCCTGTTCTTCTCCGTTACTTTAGGCGGGGAAAGCAAGTGGAGCAAGTTCTTCGGCCAGCTCAACCACCGGCAATTGCCAATGAGAGGCCTGGTCTTCTCAGCCTTAATCATCATCTGCGCGCCTTTGATCACCATGATTATGGGGGACGAAGCCTTCAGCTTCATCTCATCAATGGCAACCAGCATGTTCCTTTTGATCTGGATCATCATGACCTTGACCCACCTGCGCTACCGGCAGGTTACGCCAAAGGACCAGCTACATGAATTCCAACTGCCAGCTTACCCATACCTTGACTACCTGCTCTTGGCCTTCTTCGGTGCCATAGTTATCCTGCTCCTCTTCCTTGAGAGCTACCGGGTCCCAATGATCACGGCTTTGATTACCTTCGCTGTCCTCTATGGTTTCAGCAAGGCCTTCAATAAGAAAAAAGAAGCAGCAAAATAA
>LACTIS1119B1_06820 hypothetical protein
GTGACAGACCATTACCTCTGGGTAAATGTCCTTTTTAGGGACAAGAAGCACTATTCCTTGCTCCGGATCGAAAGCGGCATTGATGCTGATCTGTATAAGCTTTCTAAGAAGTCGAAGAAGCTGGTTAATAAGCTGCTTAAGCGTAACGGCCTCTTCTTGGTGAAATACTAA
>LACTIS1119B1_06830 hypothetical protein
TTGCTTTCCAAAAATGGAGCCGCCAGACAATTTGAGATATTTGAGTGCTTGAGGTCGCATACGATTGGCGAAGCCTACGCGGACAAAATGCTCCTGTTGCTGTTAATGCTGGTCAGCCAGTATGAGACACACATTTTTTTGGATCATGATCTGGCTAAAGAAACTTATCCTGACTTGCTTGACCTAGCTGCCTGTGGCTGA
>LACTIS1119B1_06840 hypothetical protein
ATGGCTCAATCAATGAATAAGACCGTTGATCTGGCTGTATCCGGAACTTGGTTCCGGGCCATGACTACCTATGGTAAAGTCATGATCGGCGATGAAGCTTTTGAGTTCTATAACGAGAAGAATGTTGAAGACTATATCCAGATTCCTTGGGATCAGATAACTTATGTAGTCGCGGACGTTCACTTCAAAGGGAAGTACATTCCCCGCTTTGAGATCCGGACTAAGAAGGATGGGAAGTTCATCTTTATTACCAAGGATCCGAAGAAGACTCTGCGGGCGATCCGTAAGTATGTCCCGGCCGACCACATGCGGCAGGCTTTGGGAGTTTGGGATACGATCAAGCTCTTCTTTACTCGCAAAAAGAAATAG
>LACTIS1119B1_06850 mannose-specific PTS system IID component
ATGACTGAAAAGAAAGTAACTTTATCAAAGCGTGATCGTTGGGACGTTATGTGGCACTCACAATTTCTGCAAGGTTCATGGAACTACGAAAGAATGCAGAACGGTGGTTGGGCCTACAGTATGATCCCAGCTTTAAGAAAGCTGTACCCAAACAAGGAAGACATGGCTGCTGCTTTGCAACGTCACCTAGTCTTCTTTAACACTCACCCTTACTTGGCTTCACCAATCATTGGTGTTACCCTGGCTTTGGAAGAAGACAAGGCTAATGGCATTGAAGTTGACGACGAAGCTATCCAAGGTGTTAAGGTTGGTATGATGGGGCCTTTGGCCGGTGTCGGTGACCCAGTCTTCTGGTACACTGTTCGTCCAATCCTCGGTGCCCTTGGTGCCTCAATGGCCATCAACGGTAACATCCTCGGGCCAATCCTCTTCTTCATTCTTTGGAACCTGATCCGTATCGCCTTCTTGTGGTACACTCAAGAATTGGGTTACAAGGCTGGTGCCGCTATCAGCTCCGACCTTTCAGGTGGTTTGCTGAAGAAGGTTACCCGTGGGGCTGCCATGATGGGTATGTTCGTCCTGGGTGCCTTGATCGAACGTTGGGTAAGCATCAACTTCACTCTGAAGGTTTCAGAAGTGCCAATCCAAAAGGGTCGTTACATCGACTGGACCAAGCTGCCAAGCGGTACTGCTGGTATCAAGGAAGCCTTGACCGAACAAGCTGCTGGTCTGTCCTTGACTAATACCAAGGTTACTACTCTGCAAGACAACTTGAACATGCTGGTTCCAGGTTTGGCAGGTCTGCTGCTTACCTTCCTTTGCATGTGGCTCTTGAAGAAGAAAGTTTCTCCAATCGTTATCATCTTGGGGATCTTCGTTGTTGGTATCCTCTTCCACGTATGGGGCTTGATGTAA
>LACTIS1119B1_06860 mannose-specific PTS system IIC component
ATGGACTTAAATGCTATTCAAGTCATCCTGGTGATTGTGGTAGCTTTCCTGGCCGGGATGGAAGGTGTCCTGGATGAATGGGAATTCCACCAACCATTGGTTGCATGTACTTTAATCGGTTTAGTTACTGGCAATCTTACCTTGGGTATTATGCTCGGTGGTTCTTTGCAAATGATCGCTTTGGGTTGGGCCAACATCGGTGCCGCTGTCGCACCTGACGCAGCCTTGGCCGCTGTTGCCTCAGCCATTATTTTGATCAAGGGTGGTCAAGGTACCAAGGGTATCGGGACTGCCACTGGCTTGGCCATCACTTTGGCCGTTGCCGGTCTATTCTTGACCATGTTGGTCCGGACTATTTCAACTGCCATCGTTCATATCATGGACAAGTACGCCGAAAAAGGTAACTGGCGCATGATCAACGTATGGCAATGGATCGCTGTCTGCTTGCAGGGTCTGCGCATTGCTATCCCAGCTGGCTTGTTGCTTGCTATTCCAACTGAAACTGTTAGAAGCGCACTGGCTGCTATGCCAGCCTGGCTGTCAGCTGGTATGACCATCGGTGGTGGTATGGTTGTTGCCGTAGGTTACGCTATGGTTATCAACATGATGGCCAGCCGTGAAGTATGGCCATTCTTCGCCATTGGTTTCGCTTTGGCCGGCGTTAAGGACTTGACTTTGATTGCCTTGGGTGCGATTGGTTTATCTATGGCCTTGATGTACCTCGCTTTGGAAGAAAAGGTAAGCAAAGGCTCTGGCGATGCTGCTGCAGCTGGTACTGGTGACCCGCTGGGCGACATTATTGATGACTATTAG
>LACTIS1119B1_06870 mannose/fructose/sorbose-specific PTS system IIAB component
ATGGTAGGAATTGTTTTAGCTAGCCATGGCGGTTTCGCGGACGGTATTGCCGAATCCGCGCAAATGCTCTTTGGCCCACAAGACAATTTTGCCCATGTCATTCTGAAGCCTTCTGAAGGCCCAGATGATATTAAGGGTAAGATGAATGAAGCGATTGCTTCTTTTGCAGACCAGGAAGAAGTTTTGTTCCTGGTTGACCTGTGGGGTGGCACGCCTTTCAACCAGGCAAACGGTTTGCTCGACGGTCACGACAAGTGGGCAATCGTTTCCGGTTTGAACTTGCCAATGGTAGTTGAAGCCTTGAGTCAAAGAATGATCAATGACAAGGCTACCGCGAAAGACATCGCAACTGCGATCATTAAGCCAGCTAAGGATGGTATCAAGACCAAGCCTGAAAGCTTAATGCCTGCAGAGGAAAAGGCAGCTGCACCTGCAGCCGCAGCTGGCGCTCCTAAGGAAGCAATCCCAGAAGGGACTGTTTTGGGCGACGGTCACATTAAGATCGTTGGTGCCAGAATTGACTCACGTTTGTTGCACGGTCAAGTTGCAACTGGTTGGATTCCAGCACTTCACCCAGACCGGGTTATCGTGGTTTCTGACAAGGTTGCCAAGGACGACCTGCGCAAGAGCATGATCCGTGAAGCTGCTCCAGCTGGTACGGTAGCCCACACCGTTCCATTGAAGAAGATGAAGGAAATCTCTGAAGACCCGCGTTTTGGTACTACGCGCGCCTTCTTGTTGTTTGAAAACCCAGAAGATGCTTTGCAAACGATTAAGAACGGCGTAGACATCAAGACTTTGAACGTCGGCTCCATGTCATACAGCAAGGGCAAGGTTAACGCCAACAACGTTCTGTCCATGGATCAGACTGACGTCGACACTTTCCGTGAACTCGAAAAGATGGGCATCAAGTTCGACGTCCGCAAGGTTCCTTCAGACACCCCTGAAAACATGGATTCAATTCTGAAGAAGGCACAAAGCCTGCTCGATGAACAAAAGAAGAAGGCACAAAGCCTGCTCGATGAACAAAAGTAG
>LACTIS1119B1_06880 Na+/H+ antiporter
ATGAACAAACAAATCAGTTTTAAAGAAGCAGTAACTATTCTTATTTTGATGCTGGTCATGCTGGGCTGGGGCGTCATCGGCTTTGGCATGTCCCCGCAGATCCCGGTCTTGACTGTCATCGCCTTGCTCATCTTCTGGCTGCAGATCCGCGGCTTTGAGTGGGAAGAAGTCATGAAGGGGATCAGCCAGGGGATTTCCACGGCCATTGTCCCGATCTTTCTCTTCCTTTTAATTGGGACCTTGATTGCTGTCTGGATCCAGGCCGGGATTATTCCATTCTTGATGGTCCTGGGCTTTCATATGATCAGCAGCCACTTCTTCGTTCCCTCGGTCTTCCTGGTCTGCTCTTTGGTCGGCCTAGCCATCGGGTCCGGCTTTACGACCGTGTCCACCGTCGGGATCGCCCTCTTTGGGATGGGGAGCACTTTAGGCATCAACCCGGCTTTGACGGCTGGGGCGATTATCTCCGGCGCCGTCTTCGGCGACAAGATGTCCCCTCTGTCTGACTCAACCAACCTGGCTTCCGCGGTAGCCGAAACTGACCTCTTTGAGCATATCAAGAATATGATGTGGTCAACCATTCCCGCCTTTATCGGCTCTTTGCTCTTTTTCTTCTTCCTGGGCCAGAGCAATAAGGCAACTTCCTTAGCCGGCATCGCTGCCGTAGAAAGCAGCCTCCGCCAAAACTTCTCAGTTTCCTTCTGGTCAGCCTTGCCGATCATCTTGATGTTCGCCTGCGCCTGGAAAAAGGTGCCAGCCATTCAAACGCTTTTTGCCAACATCTTCTTGTCCGTTGCCATGATTTTTGTCCAAAATCCGGGCTTCAAGATGCAAAAGCTGGCAACGCTGATTGAATCCGGCTACGTTTCAAATTCCGGCAACAAGACCGTTGACGCCCTCTTGACCCGGGGCGGGATCTCCAGCATGATGGGGACTGTTTCCTTGATCATCATGACCCTGGCCCTGGGCGGAATCTTGATGCACCTGGGCATTATCGACAGCGCCATGAAGCCTCTGGTTGAACGCCTTAAGAAGCCGGGCCGGCTGATCTTGACGACAATCATGGCCGGGATTGGGATCAACCTCTTCGTCGGTGAACAATACCTGTCTGTTATCCTGCCGGCCAACGCCTTTAAGCCTGCTTACAAGCGGATCGGCCTTGACCCCCTGGCCCTCAGCCGGGCCCTGGAAGACGGGGGCAGCGTCATCAACTACTTGATCCCTTGGGGGGTGGCTGGTTCCTTTGTGGCTTCAGCCTTAGGCGTACCAGTTCTGGATTTCCTCCCCTTCACCATGTTCAGCCTCCTGTCACCTGTCTTCTCTATCCTCAGCGGCTTTACCGGCATCGGTCTGAAGTGGAAGCAGGAAAAAGTGGCTTAA
>LACTIS1119B1_06890 hypothetical protein
TTGATAAGACGGGTTTTGATCATGGAAGTTGGATCAGCCTTTCTAAAAAACAAAAACAATAGTCCAAAATGGAATATAGGACATAAGGAATACAAGAAAAATTATGTGAAAAATGAAAAGGATTTGATAACTGTACCAGGGAAGAAAAAGTGA
>LACTIS1119B1_06900 hypothetical protein
ATGATCAAAACCCGTCTTATCAAGCAGCTGGGCTCTTCCAGCCGCTACCTCAGCCAATTCGCCTATGCCTTTCTGGCTCCCTTGACCCTGTTTGCCGTCTTGGTCAAAATCGACGCCCCGGCCAGCATCTTCCTTTTTTGTGCCGTGCCCGTGATCCCCATCGTCATCATGGTCGTCATGCTGGTCGCCCAAAAGATCCTCAGCCGCTACTTTGCCATTTACCACCAGCTAGCCGATACCTTTTTGGAAAAAATGCAGGGCATGACTACTTTAAAGCTCTACCAAAATGATTCCGCCGCTGAACAAGAACTGGCTGAAGAATCGGAACACTTCCGGCAGATCACTATGAAAGTCCTGACCATGCAGCTGCTCAGCACCGTGGTCATGGACACCGTGGCCTATGGCGGCGCTGCCTGCGGGATCGTCATTGCCCTTAATAACCTACGGCAAGGGCAAGTAAGCCGGCAAGGTGCCATCATCTTGATCCTTTTGGCCGCCTCCTACTTTCTTCCCATGCGGCAGCTGGGCAGCTATTTCCATATCGGCATGAAGGCCAGTGACCAGATTTTTGCCTTCCTGGACCTGCCGGAAAAAGCTGCTGGGCAAACTTCCCTGCCGAAAAAAATGGCCTGGACCGTCAGTGACCTTTCCTTTACCTACCCAGACGCTGACCAAGCCGCTTTAAACCAAATCAACCTGTCTATCCCCGCCCCCGGCTTCACTGCTATCGCCGGCCTGTCTGGATCGGGTAAAAGCAGCCTGGCCGCCCTCTTAGCCGGCCGCCTCACTCCAAGCAAGGGGCAAATCACGATTGCCGGCATCCCTTTATCCGCTCTTTCCCCTTCCGCCTGGCAAAAAGCCGTCACCCTGGTCACTTCCGACAGCTACCTTTTCAAGGGCAGCATCAAAGACAACCTGCTTATGGCCGGGCCAGCCAGTGACAGCGACTTAATCGCCGCTTTAAAGGAAGTCCGCCTCTGGGACTTTTTGGCCAAAAATTCCGGCCTAGACTACCAGCTGACAGCCGGGGCGACCAACCTCTCCGACGGGCAAAAGCAGCGGCTGGCCTTAGCCCGGGCACTTTTAAAAGGACGAAATCACTGCCAACCTCGACGCCTTAAACGAAGGCATCATCCTCAAAGCCCTCAAGGAAGCCCGGGGCGGCAAGACCGTGGTCCTGGTCTCCCACCGGCTCAGCACCCTGGCCATCGCTGA
>LACTIS1119B1_06910 Fe-S cluster assembly protein SufB
ATGACCGCTGAAAAAGATGAAACCTTACAGGCCCTGGACCAGGACTACCAGTATGGCTTCAAAGACGAGATCGAACCCATCTATACCACGGGGACAGGCTTAAGTGAAGAGGTGGTCCGGCAGATTTCCGTAGCGAAAAATGAGCCGGACTGGATGCTGGACTTCCGCCTCAAGGCCTACCAGACCTACCTCAAAATGCCCCTGCCGGCTTTTGGCCCGGACTTGACCAAGATTGACTTTGACCACTTGAACTACTTCCGCCGGGATGCCAAAAAGGCGGTCCGGGACTGGGACGAGGTGCCGGACAAGATTAAGGAGACCTTTGAAAAGCTGGGCGTTCCCCAGGCCGAGCGCCAGTACCTGGCCGGGTCGTCGGCCCAGTATGAGTCAGAAGTCGTTTATGAAAAAATCAAAGAGGACCTGGCCCGGCAGGGCGTTTTGTTCATGTCAACCGACGCCGCCGTCCAAGTGGTGCCCGATTTGGTCAAAAAGTACTTCGGCAAGCTGGTCAAGCCGGATGACAACAAGATGGCGGCCCTCAACTCCGCCGTCTGGTCCGGGGGGACTTTTATCTACGTGCCCAAAGGGGTCCAGGCCAAAGTCCCGATCCAGAGCTACTTCCGGATCAATGCCGGTAATTCCGGCCAGTTTGAGCGGACCTTGATCATTGTCGATGAAGGGGCCAGCGTCAATTACGTGGAAGGCTGCACGGCACCCAACTATTCAGCTGACAGCCTGCACGCGGCGGTCGTGGAAGTCAATGTCTTAAAAGACGCCTACTGCCGCTACACGACCATCCAAAACTGGTCAGACAATGTCTACAGCCTGGAAACCAAGCGGGCCCAAGCGCTGGAGAACGCGACCATGGAATGGGTGGACGGCAATTTAGGTTCCAAAGTTACCATGAAGTACCCTAGTGTCTACCTGAACGGCCGCCGGTCCCGGGGGACCATGCTGTCGATTGCCTTTGCCGGCTGCGATTCAAATGGCCAGGGGATCGACTCCGACACTGGTGCCCGGATGGTCCACAATGCTCCCCAGACCACCAGCTCCATTGTCTCCAAGTCCCTGTGCAAGGACGGGGGCCGGGTGGACTACCGGGGGCAGGTCCGCTTCAACCCGGACAGCGACGGCTCTTTGGCCCATGTGGAATGCGACACCATCATCATGGACGACAAGTCGGCCAGCAACACGATTCCCTACAATGAAGTTTTGAACGGGAACGTCTCCATGGAGCACGAGGCCAAGGTGTCAAAAATCTCTGAAGAGCAGCTCTACTATTTGATGAGCCGGGGGATTTCAGAAGCCAAGGCCACGGAAATGATCGTGATGGGCTTTTTGGAACCATTTACCAAGGAACTGCCGATGGAATACGCGGTGGAACTGAACCGCCTGATCAAGTACCAGATGGTGGGCTCGATCGGGTAA
>LACTIS1119B1_06920 nitrogen fixation protein NifU
ATGGCACTAGATGATTTAAAGCAGGTCTACCAGGCAGTCCTCTTAGATTACGCGGCTAGCCAAAAATACCGGCAGCCTTTAGCCAGTCCTACAAAGGCGGTCAGTCTGGTCAATGAAAGCTGCGGGGACCGGCTGACCTTGCAGGTCAAGGTCAAGGAGGGCAAAATTGAGCAGGTTGCCTGCCTGGCCGAGGGATGCACGATTTCCCAGGCTTCAGCGGCGATCATGGCCGGCCTGGTTGACCAAGCCCCGCTTGAAAAAGCGGCCGGTCTTTTGCCGATTTTTTGGTGGATGCTTGAAGGAAAAGAGATCAGCCAGGAGGAAGAAAAGGAGCTGGGCGACGCGGCACTTTTACAGGGCGTTTCCCGCTTTCCGGCCCGGGTCAAGTGCGCGGGTCTGGCCTGGCAAGGCTTGAGTGAAGCAATAGAAAGGAAAAATTAG
>LACTIS1119B1_06930 cysteine desulfurase
ATGGACAAGAATTGGAATAAGCTCCGGCAGGATTTCCCCATCCTGGCTGAAAAAATGAACGGCGAGCCCCTGGTCTACCTGGATAACGCGGCCACCAGCCAGAAGCCCAAGAGTGTGATTGAGGCAATTACTGCTTTTTATCAAAAAGAAAATGCCAATATCTACCGGGGAACTTATGCCCTGTCGGCCAAGGCAACAGAGGCTTATGAAGGAGTCCGGCAGAAGGCAGCAGATTTTATTGGTGGTGAGGCCAGCGAAATAGTTTTTACCAAGGGGACGACTTCGGCTATCAATTTGGCGGCCTTTGGCTATTTTTTGCGGCATTTAAAAGCGGGAGACGAGATCGCCTTAACTGCCGCTGAACACCACAGCAATCTGGTCCCTTGGCAGCAAGTTGCCGCCCTTACCGGGGCCAAGCTGGTCTTTTTGCCCCTGGACAAAAAGGGCCGGGTTGACTTAAAGGAAGCAGAAAAAGTCATGTCTGACCGCCTCCGCCTCTTAGCCCTGGCCCAGGTTAACAATGTCTTAGGGACTGAGCAGCCGGTCAAAGAGCTGGCGGCCTTGGCCAAAAAGCGCGGGGCCCTGGTTTTAGTCGACGGAGCCCAGGCAGCGGGCCACTTGCCAGTTGCCGTCAAAAAATTAGGCGCCGACTTTTACGCTTTTTCCGCCCACAAGATGCTGGGCCAGACCGGGACCGGGGTCTTGTACGGCCGAAAAGAACTCTTGGACCAGACCCAGCCTTTGGAATTTGGCGGGGAGATGATCAGAGAGGTCAGCAAAACTACCGCGACTTTCAAGCCGGCCCCGCAAAAGTTTGAGGCCGGCAGTCAGAACGTGTCCGGCGTAGTTGCCTTGGGGGCAGCGATCGACTATTTGAATGCAATTGGCTTAGATGCTATTAAAGACAGAGAAACAGAATTAGGCCAGGCCATGGCGGAAGGCTTGAAAAAAGCAGGCGCCAGGGTTTACGGGCAGGGGGGCGGCATCGCATCTTTCAACCTGCCTGGCGTTCACCCCCACGATTTAGCGACGGCCCTGGACGCCCAGGGTATTGCCATCCGGGCCGGCCAGCATTGCGCCCAGCCCATGATGGACTGGTTAGGAGTCAAGGCCGTTGCCCGGGCCAGCGCGGCTTTTTACAACAATGAAGCTGATGTGGAAGCCTTGATTAAGGGAGTGCAAGCGGCGAAGGAGTTTTTCAATGGCACTAGATGA
>LACTIS1119B1_06940 Fe-S cluster assembly protein SufD
ATGACCGCACAAGCATGGTTTGCAAAAATGCAGGCAGAAGCCGCTGCCGCTTTGCCGGACTTGCCTAGGCCCGACTTTGCCAAGGTGGACTACCGGGCCTGGCCCCTGTCTTTGACCCGGCCCTTGCAAAAGAGGGCAACTTTTTCCATTGAAGCTGGGGCAGAATTTTGGGCAAAAGGCTGCGTCGCCTGCGACTGGGAGACGGCTTTAGCTGAGCACGGGGACCTGCTGGAAAAGTACTTTGGCCGGGCGGCAAATTTTAAGGAAAACCGCCTTTTAGGAGAAAACGTGGCCAAGATGGAGCAGGGGCTCTTTGTTTATGTGCCAGACAATGTGGCCTTGGCAGAGCCATTGACGGTAACTTATTTGCAAGACAGCCAAAAGCAAGAGGACTTTGCCCTGCACGTCTTGCTCGTGGCCGGGAAAAACGCGGCTTTTTCCTATTTTGAAAAAGTGGCCAGCCAAGGAGATAAGGAAGCAACAGCCAACCTGGTGGTGGAGATCTGCGCCTTAGCCGGCTCCCGGGTTAAGTATGCCGCTATCGACCGCTTGGGCAAAAACACGACCGCCTACTTAAAGCGGGTAGCCTGGGTCGGCCGGGACGCCAAGGTGGATTGGGCCATGGGGATGCTGAGCGACGGGAAAATTCTGGCTGACTATGACTCTGACCTTTACGGGCAGGGAGCCAGAGCCAAGATGAACGTGATCGCCATTACCATCGGCGACCAGGTCCAGGGCCTGAACACCGTTGTCAATAATTACGGCAAGAAATCAGATGGCCGTATCCTCCAGCATGGGGCGATCCTGCAGAAGTCCTGCCTGGTCTTCAACGGGATCGGCCATGTCATGAAGGGGGCAAAAGGGGCCAATGCCCAGCAGGAAAACCGGGTCTTGATGCTGTCCAGGTCGGCCAGAGGGGATGCCAACCCTATCCTCTTGATTGACGATAACGACGTTTTTGCCGGGCACGCGGCCAGCGTCGGCCGGGTTGACGACCAGCAGCTCTATTACTTGATGAGCCGGGGCCTGCCTAAGCCTTTAGCTGAGCGTTTAGTCATCCGGGGCTTTTTGGGCCCGGTTTTGACCAAGATCCCGGAAGCCAGCCGGCAGCCTTTATTTGAAATGGTAGAAAGAAAGCTGATCGATGGACAAGAATTGGAATAA
>LACTIS1119B1_06950 Fe-S cluster assembly ATPase SufC
ATGTCAGAGTTAGCAATTACTGATTTGCACGTAGAAATTGCCGGCAAGGAGATTCTCAAAGGGGTTAACTTGCAGCTGAAAACCGGGGAGATCCATGCCATTATGGGACCAAATGGGACGGGGAAGTCGACCCTGTCAGAAGCCATTATGGGCAACCCGGCATATAAGGTAACCCAGGGGTCAGTCAAGCTGGATGGGCAAGAGCTGCTGGATTTGCCAGTTGACGACCGGGCCCGGGCCGGCCTCTTTTTGGCCATGCAGTACCCGGCTGAAATCCCTGGCGTCAGCAACGCTGAATTCATCCGGGGGGCTTTGAACGCACGCCGGCCGGAAGGCGATCCAGTCCCGGCCCGGGAATTCCTCCAGGAACTGTATGAAAAGATGGACTTTTTGGACATGAAGGCCGAAATGGCCCAGCGCTACTTGAACCATGGCTTTTCCGGCGGGGAAAAGAAGCGTAACGAGATCTTGCAGATGCTGATGATCAAGCCCAAGTTCGCGATTTTAGACGAAATCGACTCCGGCCTAGACATCGATGCTTTGAAGGTGGTCTCTAAAGGGGTTAATGACCTGCGGGGGCCAGACTTCGGCGCCTTGATGATCACCCACTACCAGCGCCTTTTGGACTACGTGGTGCCTGACAAGGTCCACGTTATGATGGGCGGCCGGGTCGTGGCTGAAGGCGGGCCGGACCTGGCCAAGCGCCTGGAAAAGGAAGGCTACACCAAGCTGCGCGACGAGCTGGGCCTGGACATTGAACTGACGGATGAAGACGTTTAA
>LACTIS1119B1_06960 GNAT family acetyltransferase
ATGGAAAGGATCCTGTCAACCGTGAAAAAACGTCAGAAAAACGACTTCAGCAAAGAAATTCAAGTCAAACATTTTAACGAGCTCTCTGCCCGGGAGGTCTTCTGCCTGTCCAGAATCCGCGATGACGTTTTCGTTGCCGAGCAGGAAATCACGGTTCCTGAACTGGACAACCAGGACCTTTCCGCCTACCATGTCTTTCTTTTAAATGAAGACCAAAGCAATGCCCTGGCGGCCGCCCGCTTCTTCAGCGAAGAAGGCCGCTTCTACATCGGCCGGGTCGCCGTGCAAAAGACTGCCCGCCACCGCGGGATTGCTAGCCAGCTGTTAGGCGCCATTGAAAACTACGTTTTGGCAAATAGCTTAACCAAAGAACTTTATCTACACGCCCAAGCCAATGCCCGGGACTTCTACCTGGCCAATGGCTACCACGATATCGGCCCCGTCTTCATGGAAGCCGGCATCCCCCACCAAATGATGGCTAAAAGCCTCGCCTAA
>LACTIS1119B1_06970 glucose specific PTS system IIA component
ATGTTTAATTTCTTTAAAAAGTCCAAGTCAAAAGGCAATGAAGTCAAGGCGCCCATCAAGGGCAATCTGATTCCTCTGTCCGAAGTCAGCGATGACGTCTTCTCCCAAAAGATGCTGGGCGACGGTTTTGCCGTTAAGCCGACCGGCCAGGAAGTAGTTGCCCCGGTTTCCGGGACCATTACCACCCTGTTCCCGACCAAGCACGCTATCGGCATCAAGACGGCCGAAGGGCTGGAAGTCTTGATCCACTTGGGGATCGACACGGTGGAACTGAAGGGGGAACCCTTCAAGCTCTTCGTTGAGCAAGGCGATTCAGTCAAGGCTGGCGACAAGCTGGCGGAAATGGACATTGCCGACGTGGCTGACCACGGCCTAGACAACACGGTCATGGTGGTGTACACCAACATGGACCTGCTTAAAGAAGTCAAGGATGTCGACCCGCGCCCTGTAGAGGCGGGCGACGACGCGCAGGAAATTGCCTTTACCTAA
>LACTIS1119B1_06980 hypothetical protein
ATGCAGGAGAAAGCTTTGAATTGGCTAGACAGGTTGACTAAGTCTGCCCGTCTGACGCCGAAAAGAATATTAAGGATCTACACCTTCGTCCTCTTTTTTGCCCCGCTGGCCTACCTGCTGCTCTTGCAGCTGCGGGCCGGGGCGGCCAAGCAGACGATCACTGACTTCATCGCGGCCAGTCCCGCGACCACGGTGTCAATCATCGTGGCAGCCGGTGACTTTCTCTTGGGTTACCTCTGCTGGATCGACGGCGGGGCGCTCTTGGCCGACCGGCGCCAGTACATGAAGTTCATGAAGCTGCAGCTGTGGACCCAGCTGATCGTTGGCAACTGGTTCTGTCTCCTCTTCGCTATTTTTGCCCTGCGGCGGGGAGAGGATTTACCTGAAGAGAGCAAGGTAAAGCCGAGCCAGCTGCTGTCCTTGACCTACTTGATTGCTTCTTTATTCGTAATTTGTTTTGTGTTCTATGTAGTTCTCGCCTTTAGAGCGGTGAAAGGTTGA
>LACTIS1119B1_06990 RpiR family transcriptional regulator
ATGGCAGGACTAAAAGCACGAATCGTGGAAAAATCAAGTTATCTGAATCCATCGGATAAGAAGATCTTGAATTACTTGCTGAACAATGCTGCTGAATGCAGCGAACTCAGTCTGGCGAAATTGGCCAAGAAGCTTTATGTTTCAGAATCGGCCATTTTTCGCTTATGCAAAAAGATCGGTCTAAGTGGCTATAGCGAATTGAAATACGAGCTGGCAGATTTTTCCAAGGGAGAGAAGCGGATGGTTAAGCAGCAAGATACCTTCGCCGAGCGCCTGGTCAAGAATCTGCGCTTAGAGCTCAGCTATTTCAGGACACTGGATTTTGAAAGCTTTTATTCGACCTTAAACCAGACAGAAAATATCTACATTTACACCACCGGCTGGCAGCAGGCGTCTATCGCCAGCTATCTCTCCAACCAGCTCCTGGTGAATGTGGGCAAGCCGACGGTTGTCATGCCATCAGCGATTAGCGAATTGAAGATGTCGAAGAATTGGCTGCAAGACCATGACCAATTGATTGTGATTTCCTTTTCCGGGGAAGATCCTGACTTGTGCCAGCTCCTGGATGAGCTGCACCTGCTCAATGAGCATTTGACGATTACTTCGCTGACGACCATCAAGGAGAGCCGGCTGGCCAGTCTGTCTGACTACAGTCTCTTTTTCCAGCCAAGTCTCTTCCATGAGAACATCAGCACCAAGAACTGGGCTTTTAGTCCGGCTTACACAATGATTGATTTATTGATTAACGGCTACTGCGAGTGGCTGAGAAAAGAGGATGAATAA
>LACTIS1119B1_07000 alpha-glucoside-specific PTS system IIBC component
ATGCTCTTCGTGGTCGGCCTGCCAATCGGGCTGGCTAAGAAGGCCCACGGGCGGGCAGCCATGGAAGCCATCGTTACCTACTGGACTTTCAACTACTTTATCGCTGGTTTCCTGACCCACTGGGGTGCCTTCTTCGGCCTTAAGGACTACGTTAATACCCAGATCGTGGCCAACTCAGCCAACAATGGTTTGACCATGATTGCCGGGATCAAGACCCTGGACACCAGTATCGTTGGTTCCCTGGTCATCGCCGGTATCGTGGTTTGGCTGCACAACCGCTACTTTGACAAGAAATTGCCGGACTTCCTGGGTACCTTCCAGGGTTCAGCCTTCGTTGTCATCTTAGGCTTCGTGGCCATGTTCCCAGTTGCCTTCCTGACCTGCCTTATCTGGCCAAGGGTACAAATGGGCATCATTGGTTTGCAGGAATTCATGGCATCCAGCGGCTTGATCGGGGTTTGGATCTTCAACTTCCTGAACCGGGTCCTGATTCCAACTGGCCTGCACCACTTGGTTTACATTCCGTTCCAATACGGCCCGGCCGTCGTTGCTGGGGGCTTGCAACCATGGTGGCTCAAGCACTTGACTGAATTTGCCGAAAGCACTAGGAGCCTGAAGAGCCTGGCTCCAAACATGGGCTTCATGCTTTACGGGAATGAAAAAGTCTTCCTTGTGCCAGCCATCTGCCTGGCCTTCTACCACACTGCCAAGAAGGGCAAGAAGAAGCAGACTTCAGCCTTGCTTTTGCCAGCTGCTTTGACTTCATTCCTGGCCGGGATTACTGAACCTGTTGACTTTACCTACCTCTTCGCGGCTCCAATCCTCTGGGTTGTCTACTCAGTTCTGGCCGCAACCATGAACACCACCATGTACATCTTCGGCGTTGTCGGCCAAATGACTGACGGGGCCATCGGGATTGCTTCCATGAACTGGCTGCCGCTGTGGGCTAACCACTGGCACACCTACATGGCCCAATTCATCATTGGTCTGATCTATGCCGTGATCATCTACTTCATCTTCCGCTTTATGATCGTCAAGTTCAACTACGCTACTCCAGGCCGGGAAGCTGACGACCAGGAAGTCAAGCTGATGAACAAGAAGCAATACAAGGAAGCCAAGGCTGCTGAACAAGCTGCTGAAGCTGCCGGGCAAAACTCCTCTGACCCATACATCGCGAGAGCTACGGCTTACACGACTCTCTTGGGCGGACCGGAAAACATTGCTGAAATTACGTCCTGCGCAACCCGTTTGCGGGTAACTGTCAAGGATCCTGACAAGGTCAGCGCCGACGCTGCTTTCAGAAAGAACCAGGCAGTCGGGGTTGTCCGTCACGGTTCAGCCACCCAGATTATCGTTGGTCTGGACGTTGCCCAAGTTCTGGAAAGAATTGAAGATATTATTGCCGACAGCGGCAACACCGTTGCCAAGACCGAAGCCGATCCTGATGAAGAAAAGGCCACCGGCTACCTGGACCTGCTGGGCGGCAGAAGCAATATTAAAGAACTGACTTCCTGCTCAACCAGAGTAAGAGTCCACGTCTTTGACACTAAGAGGGTTGCCGGCGAAGCCGACTTCAAGAAGTTCGGGGCCAGCGCCGTTGAAAGACGGGATGACCAGGAAATCGACATCGTGGTCGGCCTGGAAGCTGAACGGGTTGTCGACAAGATGAAGGAAATTATGTAA
>LACTIS1119B1_07010 hypothetical protein
ATGATGCAGAAACTACAGAAATTCGGGGCGGCGATGTTCGTGCCTGTCCTGCTTTTCTCTTTCGCCGGTATCGTGGTTGCCTTAACCAGCCTGTTCAACAACCCGTTGATCTTTGGCTCACTGGCAAACACCAATACCTTCTGGTACGGTCTGTGGGACACCACACCGTTCAACAAGGTGGCTGGACCGTCTTTAACCAAGTTGATATGCTCTTCGTGGTCGGCCTGCCAATCGGGCTGGCTAAGAAGGCCCACGGGCGGGCAGCCATGGAAGCCATCGTTACCTACTGGACTTTCAACTACTTTATCGCTGGTTTCCTGA
>LACTIS1119B1_07020 6-phospho-alpha-glucosidase
ATGTCAGACAAGAAATTTTCAGTAGTTATTGCCGGCGGTGGCAGCACCTTCACCCCTGGATTTGTTATCAGTCTCTGTGCCAATCAAGATAAGCTTCCCCTGCGGAAACTGAAACTGTACGACATTGATGCTGACCGGCAAAAGAAGATCGGTGACGCCTGCGCCATCATCGTCAAGGAAAAGGCACCGCAAGTCGAATTTGAATATACGACTGACCCGGAAGAAGCCTTCACTGACGTTGACTTCGTCTTGGGCTCAATCAGAGTCGGCAAGTACGAAATGCGCAGCCAGGATGAAAAGATTCCTTTGAAGTACGGGGTCAACGGCCAGGAAACTACCGGCCCTGGAGGCATGGCCTACGGTTTGCGGTCAATCCCGGCCATCATTGAAATCATCGACTTCATGGAAAAGTACTCGCCAAACGCTTGGATGGTCAACTACTCCAACACGATCGCGATTGTTTCTGAAGCCTGCCGGCGCTTCCGCCCGAATGCCAAGATTGTCAACATCTGCGACATGCCAATCGATGACATGGGCAGAATGGCGGCCATTGCCGGGCTCAAGAGCTTCAAGGACCTCGACTTTACCTACTACGGTCTGAACCACTTTGGCTGGTGGAAGAGCGTTACCAACAAGAAGACCGGGGAAGACCTAATGCCGCTTTTGAAAGAATATGTCAAGAAGAACGGCTACTACGTGGGCGGAGACTTCGACAAGGAAACCGAAGCCAGCTGGGTCGCAACTTTCAAGAAGGTTGCTGACTGCTACGCTTTGGACCCGACGACTCTGCCAAACAACTACATGCAGTACTACTACTTCCCGCAATACGAAGTGGAAAACGCCAACCCGCACTACACCAGAACCGATGAAATCCTGGAATACCGGCAAAAGATCGTCTTCGGTGAGTGCGCCCGGATCGTCAAGGAAGGCACGGCCAAGGGCAACCTTTGGGAAAGCGAAGTGCACTCCAACTACATCATTGACATCTGCCACGCGATCGCCTTCAACACCCACGAGAAGTACCTGGCCAATATTCCGAACAACGGGGCCATCTGCAACTTCCCAGACGATGCTATCGTTGAAGTGCCTTGCCTCTTTGGCTCAAACGGCGTGCAGCCGCTGGTAGTCGGTGAAGCCGGCCGCTTCCAACTGGGTCTGATGATGGAACAAGTAACCTGCGAAAAGCTGGTTGTCGATGCTTATGAGCAAAAGTCCTACATCAAGATGCTGCAGGCCTTTGCCTTGAACAAGACTGTTCCAGACGCTAGCGTGGCCAAGAAGATCCTGGACGACATGATGGTCGTCAACAAGCCTTACTGGCCGGATTTGAAGTAG
>LACTIS1119B1_07030 hypothetical protein
ATGGGGTTTTGGATTATGCTTTTGTCTGGCTTGATTGGTCTGGCTTTGGTAATCTACGCTTTCAAAAAGGAGCTGCCAAAGGGGCAGAAAATTGCTTTTTGGTTGATCGGCGCTGCTCTGCTGGTCTTCGCTGTTGCCTTGGCTCTGCCAAATGGCCTGCAGCTTTAG
>LACTIS1119B1_07040 antimicrobial peptide ABC transporter ATP-binding protein
ATGTATTCGGTGAGAATTACAGAGCTTGAAAAAGAATTAAAAAATGGCAGGAAGATTTTTTCCGGATTAAATCTGGAACTTGAAGAATCGTCTTTGACAGCCCTAGTTGGCGCGTCAGGTGAAGGTAAAACTACTCTTTTGAACGTGATCGGTCTTCTGGATACGGATTACTCCGGGCAAGTTGAATTGTTTGGCCAAAAAGTCAACGAGCTTAACCAGACTGAAATGGCTCGCTTGCGGAATCAGCAAATTGGCTTTATCCTGCAAGAGCCCTTGTTGATCAAAAATATGAGTGTTAGGGACAATATTTTGCTGCCAACCGTATACTTGGACAAATCACTGCGCAAGAGCAAAGACTACTACCTTGCCAGAGCCGAGCAATTTGCCGATCAGTTAGGAGTCAGTCAAGTTTTTGATCAAAAGCCGGCAACCTTATCAGGTGGACAAAAGCAGCGGGTGACTGCAATCCGGGCTTTGATTAATGACCCACAGCTCATCTTGGCGGATGAACCAACGGGATCGTTGGACGAAGAAAACGCGAAAATCATCATGGACCTGCTGAAGAAACTCAGCCGGGAAGGGAAAACCGTCTTTACGGTTACGCATGATTCGCATATTGCCAGTCAGCACGATAGGGTGCTGCAACTAAAAAACGGAAATATTACTGTAAAGGAGAATTGA
>LACTIS1119B1_07050 hypothetical protein
ATGAATTTGACTGCTGCGCAGTTGCTTGCCGCAGCCCAGGACTTGATTATTTTTGACAGCAGCCGGACAGAATTGAACAAGTTGACAAGCAAATTTAATCAAGGGGATTTTTTTAAGATCCGTTTTATTTCAGTTGAGAAAAATATTTCTGACTTCTATGACAGCTATAGAGGTACTGCCATCATGTTCGCGATTTTTTCATTGGCAATCATGGTGATTGCAGTTTTGATAATCGTTTGGAACACGTGGAATTGTTTGAGTGAGGAACAGAGTGAGATCGCGCTAAGAATTTCGTTAGGCATGCGGCAAAAAGATGTACTATCAGCAGTGATCATCTACCAATTGCTGATTGATATTTTAGCTATCGTACCAGTATTGCTATATGCAGGTTCTTATTCTAAGATGCTGGCTGACAGCTCGGTTGGGAGCAGTTCGCAGATAGTGTTGAACGGTTTGTTACCACGAGCTGAAACAGCAAGCTTGCTGATTTCTTTTGTCTTGATGTTATTGATTACTGTTCTGGCCATTGCGTTGGTAGCTGCTCACTTTAATGGGAAAACACTCGCGCTGCGGATGGGAGACGAATAA
>LACTIS1119B1_07060 hypothetical protein
ATGAAAAAATTGACAAGAAATCCTTTCAGCTTTTTAGCATTGATCGGATTGTTACTAGTTGAATATCTCAATTTTCTTTATTTAGCTATTTTCAGCTTGGTAAGTCAAAAGGCAGCGAATGCTCGGGTGAATTGGGCGATCAAGAATCTGTTAGAAGATTCTGCCAGTTCTTTTTCAATTCTCGCTTTTGCCAGTATTGCCTCGCTCTTGGTGATTTACCATTTATGCAAAAAAGGGCAAAAAGAAAGAAGGATTAGAATTATCGTCGGTTCTACTTGCCGAGAGCAGTATTCGGTAGGGGAGGTCATGATATTTCTGGCTGATCTTCTGACCTTTGCCTTGGCATTTTTTGGAATGAGATATTTGACTGGTCAGAACGAAGGGGGAGCTTTGCGAGAATTCGTTTTAGCCAGTATGTTGCATACCGTGGTTTTACTGCTGTGGTGGCCGCTTTTGGTTAAGGTGATTGATCGCTAA
>LACTIS1119B1_07070 hypothetical protein
ATGACAACTCTATTTTTTACCATGCTGACTGCATTAGCGTTAGTTCCAACTGCGACTGTATTAGCTGGTACTACTAAGTTTGGGACTGCTCATCGTGGTGCTTGGAGTACTGAAACTATGCAAATTCACTACAGTGGCGGCGTATTTTTCTACCCACATTATGCTACTCATACTCATGTGGGTTATGCAAAATATACTAGAAATGACAAGACTGTTGCTTCCAAGTGGACAACCTATGTGAAAAACAACTCAAAGTATTCAAGTAAAACTAAAATTGAAGCCAATGTAAGTTGCTGGGATACTTTGAATCCAACTGCACCTAAGACGAAGTTCCATTACGGATTTAATTGA
>LACTIS1119B1_07080 SsrA-binding protein
ATGAAACAAAAAGCCAAGGATGAAAATGTCCTCGCGCAGAACCGGCAAGCCCGGCATGATTATTTCATCAAGGATACTTATGAAGCCGGGATTGCTTTGACGGGGACGGAGATCAAGTCAGTCAGAGCCCGGCACGTGACCTTGCGTGACGGCTACGTGCAGATCATCAACGGGTCGGCCTTCCTGGAAAATGTTCATATCGATGAATATAAGGAAGGCAACCGCTACAACCATGACCCGCTGAGAAGCCGCAGACTGCTTTTGCACAAGAAAGAAATCGCCAAACTGGCCGATGTGAAGGCCCAAAAGGGGATGACCATCGTGCCGCTCAAGGTCTACTTGAAGCACGGCTTTGCCAAGGTTTTGATTGGCGTAGCGCAGGGTAAGAAGGAATACGACAAGCGCGAAACGATCAAGAAGCGCGACCAGGACCGGGAACTGCGCAGAAAATACAGAATTTAA
>LACTIS1119B1_07090 exoribonuclease R
ATGGCGCAAAACGAGACTGTATTGGCGGGCGTGTTGGAGATCTTCCGGCACAACCCGCAAAAGCAATTCAGCGTTGACCAGATCGAGCGGCAGGCCCGCCGGGACCGCTTGGGCAACTTTACCGACCTGGTCAAGGCCCTGGCCTACCTGGAGCAGAAAAAGCAGATCATCACTGACGGCAACGGCCGCTACCAGCTGGCCCAGGAAAATACTGAAGTCGAAGGGGTCTTCCGGGCCAACGACAAGGGCTTTGGCTTTGTCCGCTTAGATGATGAAGAAGCCGATGACGTGTTCATCAACTCTGACGCTACCAAGCTGGCTTTGGACGGGGACCGGGTCAAGGTCAAGATCACGGCCGGCGGCAACCCTTGGAACGGGAAGGGGCCGGAAGGGCAGGTTGAGGAAATACTGGAGCGCGGGGCCAGCAGCATTGTCGGCGAATACACCCCTTTGGAAGACCTGCAGGCCAAGATCAGCCACTTTGCCGGCTACGTGATTTCGACCAACAAGAAGTTCAAGAAGTACCGGGTCTATGTATCTGAAAACGGCTTGATCCCACAAATGGGGGACATGGTCAAGGTATCTCTGAAGACCTATCCGACCGAAGACTTGCCAGACCAGATGACCGGGGCAGTTGTCGAAATTATCGGTAACAAGAACGACCCGGGCGTGGACATCATGTCCATCGTAGCGGAACACGACATCCGGACTGAATGGCCAGAAGACGCCTTAGAGCAGGCCAATGCCATCCCGGACCACGTAACTGAAGAAGAGAGGCATGAAGCAGGCCGGCGGGACATCACCGACCAGCCAGCCGTCACGATCGACGGGGATGACTCCAAGGACTTTGACGACGCGGTCGTTTTGTGGAAGCTGGACAACGGCAACTACCACCTGGGCGTCCACATAGCTGACGTGGCCCACTATGTTAAAGAAGGAACGCCTTTGGACCGGGAAGCTTTTGCCCGGGGCAACAGTACCTACTTGGTCGACCGGGTTATTCCAATGCTGCCGTTCAGACTGTCCAACGGGATCTGTTCTTTGAACGAAGGTGTTGACCGCTTAGTTCTGTCCTGCGACATGGAAATCACCCCGGAAGGTGAGCGGGTATCTTACGATATCTATCCGGCCCTGATGCGGTCCCACGGCCGCTTGACCTACAATAAGGTCAACCAGGCCTTGCGCGCTGACGTGCCAGACAGCGACTTGGAAGACAAGTATGTTAAGGTGCGGCCAATGCTTAAGGACATGGCAGCTCTGCATGAAGTCCTGTATAAACAGCGCCACGCCCGGGGGGCCATCGATTTTGAAGAACCGGAAGCCAAGATCATCGTGGATGAGAAGGGCAAGCCGGTGGACATCGTCCTGCACAGCCGGGGGACGGCCGAAAAGATGATCGAATCCTTCATGCTTTTGGCCAATGAAACGGTAGCGGAAGCCTACTACAGAAAAAAGGTGCCTTTCCTTTACCGGGTGCACGAAACGCCGGAAGCTGACCGGATCAGCAGATTTTTTGAATTCTGCAGTGCCTTCGGCTTGAACGTCAAGGCAGATCCAAACGACATCAAGCCGCTGGACTTGCAGAAGGTGGTTACCAAGACTTTGGGCACGTCGGAAGAATCGGTTGTCCAGATGATGATGCTGCGGAGCTTGAAGCAGGCCCACTACTCAGAAGATCCGCTGGGCCACTTCGGGATCGCGGCCAAGTACTACACCCACTTTACTTCCCCAATCCGTCGGTATTCAGACACCATGGTCCACCGGATGATCCACGCCTACCTGGAAGAAGGAATGGGGGATGATGTCAAGGAGCACTTTAAGGAAGAACTGTCGGAAGCAGCTGATCAGACTTCAATGCAAGAGCGGCGGTCAATCGATACGGAACGGGCAACCAACGACTTGAAGATGACCGAATACATGGCTGACCAGGTCGGCAACAAGTTTGAAGCGGTTGTTTCATCAGTAACCAGCTTTGGGATGTTCGTGCAGTTGGAGAACACGGTGGAATGTTTGATCCACATCTCCAACTTGAAGGACGACTACTACTCATACGATGAAAAGTCCATGACATTGACCGGCCGGACAACCCACAAGAAGTATAAGGTAGGGATGCCGATCAAGGTTGTTTTGGCCAATGCTAATGTTGAGCAGCACCAGCTGGACTTTGAAGTTTACGATCCAGATGCCAAAAAGCGGCCCCATAATGACCGCGGGATGGTCAGAAGAAACGGGGACCGGAACTTCAAGGGCCGGCGCAATTACGGCGGCCGCGACAAGAGCGGTGAACGGCGTCACAAGCCAAGCCGCAGCAACCGCGGCCAGCGGCTGGGGCAAAGTGAAAAAGGCAACCGCCGGCGGCCAAACCGTTAA
>LACTIS1119B1_07100 preprotein translocase subunit SecG
TTGTACAACTTTATTATGACGCTGTTGATCATTGTTTCAGTGCTGATCATTATTGCGACAATGATGCAACCACAGAAGCAGCAAGATGCCTTGAACGCTTTGTCAGGCGGCGCCGTCTTTAGCGGCCAGACCAAGAAGCGGGGCTTTGAAGCCTTTATGGAAAAAGTGACGTCAGTTCTACTGGTATTGTTCTTTGCTTTTTCGATTATTTTGGCAATCCTGTCTTCTAAATAA
>LACTIS1119B1_07110 alkaline phosphatase
TTGGGCAAAAGCATTGCCGGCATCCTCAAGGGCAGCGACTTTTTAGCCTTTGCTGACCCCTTGATCCTGCTGGGGCTTTTGCTGGGGAAGTTTTTCAAAATGGACCTCTACGCCCAGTCCTGGAAAAGGAAGGTCGCCATTGAACTGACGGCCCTGCTCTTGATGGGGGGCAACCTCCTCTTGTCCCAAAAGGACCGGTCAGGCCTGCTCACGCGGACTTTTGACAGCAACTACATCGTCAAGTATTTAGGGATCAACGAATATGCCCTTTATGACGGGATCAAGACGGCTCAGACCAACGCCCAGATGGCTAATGCCAAGGTGTCGGATTTGAGTTCTGTTAAAAAGTACCTCAATGCCAACTACGTCCAGCCAAATTCAGCTTATACGGGTGTAGCCAAGGGGAAAAACGTCATCGTTATCCACCTGGAAAGCTTCCAGCAGTTTTTGATCGGCTACAAGTGGAAGGTCAAGGAAGTCACGCCTAACTTGAACAAGATCTACCATTCCAAGCACACTCTGGCTTTTGACAACTTCTTCAACCAGGTGGGGCAGGGGAAGACCTCTGACGCGGAACTGATGCTGGAAAACTCCCTCTTCGGGGTCCAGTCGGGGTCAGCCATGTCGACTTACGGGACCAGCAATACTTTTGAATCCATGCCGGCTATTTTGAAGCAAAAAGGCGGCTATACTTCCGCCGTTATGCACGGGGGGACGGGGTCCTTCTGGAACCGGAACAATGCCTACAAGTCTTTTGGCTATGATTATTTCGCTTCTTTGAACTACTACCAGTACCAAAACAGCTGGTACCTGGGCTATGGTTTAAAGGACAAGATCTTTTTCCAGCAGTCGGCCAAGTACATCTCTGAACTGCCCCAGCCTTTTTACTTGAAGATGATTACGGTCACCAACCACTATCCATATACCTTGGACAAGCAGAACCAGTCGATCAAGAAGACCACGACCGGGGACAACACGGTTGACGGCTACGTGCAGACGGCCCACTACCTGGACCAGGCGATCGGCGAATTCATGACCTGGCTGAAGAAGACTGGTCTGGACAAACAGACCCTCCTGGTCTTCTACGGGGACCACTACGGGATTTCCAACAACCACAACGAGGCCATGGCCCAGCTGACCGGGAAGAAAAATTACGGGGAGTTTGACGACCAGCAGCAGCAAAGAGTGCCGCTCATGTTTTATTCAAGCAACTTAAAAGGCGGCATTAAGCATACCTACGGCGGGGAAATCGACGTGATGCCGACCCTGTTGAACCTGCTGGGGATCAAGAGCAAGGACTTGATTTTGTTTGGCCATGACCTGTTAAGTAAAAAGAACCCGCAAGTGGTGGCCCAGCGGAATGGGAACTTTATTACCCCGACCTACACCAAGGTGGGGAGCAGCTACTATTACACCAAGACGGGCAAGAAGGTCACCGGCGCCAAGGAAAAGAAGGCCTGCCGCTTGATCGCCAACCAGGTTTTGACCCAGCTGACCCTGTCTGACCGGGTCGTGACCGGGAACCTGCTCCGCTTCTACCACCCCTCCTGGTTTACTCCGGTCAAGACCAGTGACTATGACTACAATAAGACTGACTCTTTAAAGAAGCTGGCAGAAGCCGGTAAGAGCAAGACCAGCTTAAAGAGCCAGCTGGGCAAGAAGGACGTAAGCAGTCTTTATAAAACTGACGCGCCCGAACTGAAAAAAACTAAGACAAAGTAA
>LACTIS1119B1_07120 hypothetical protein
ATGCAGAAAATCAAGGCCTTTGGGACCTGGCTGCGGACGTCGAAGAACGGCTTCTTTACTCTGGCGGTCTTCGGCTACTGGCTCAAGTGTTACCTAATATATCTGACCAAGTTTACCCTGGGGGCGACGGGCCCGTTGCAGGGCTTCCTCTTGCTCATCAACCCTATTCCGTCGGGGATGCTGATCCTGGGTCTGGGGATGCTGATGAAGGGGCGCAAGTCCTACTGGACCATGCTTGTTCTGGACTTCCTCCTGGCTACCTGGCTTTTCGCCAACATCCTTTACTACCGGGAATTCTCCAACTTCCTCTCTTTTTTCCCTGCTGCAGAATTCGGGCAGCGCTTCGGAGAATTTGGGCAAAAGCATTGCCGGCATCCTCAAGGGCAGCGACTTTTTAGCCTTTGCTGA
>LACTIS1119B1_07130 membrane protein
ATGAATAAGAAAAATCTGTGGGGAGTCCTGATCGTCTTATTGATCAGCTCCCTTGTTTTGTACTTTGACCTCCGGGCCACGCCAATGGCGACTTTAAAGGCGGCAGCCGGGCAGATTATTCCCTGGCGCCTGGTCCTGGTCTTTTTGGCCATGGCCTTGTCCTATGTCTGTGAGGCCTTGATCCTCCGTCTTTTGGCCAAAAGGCCGGGGACAGCCAAGCGGAGCTTCTGGTCTTATCTGCGGATTCCGCTCATCCAGGCCCTTTTCAATGGGATCACCCCGATGGCCACCGGCGGGCAGCCGTCGCAATTGGCGGCCATGGTGGAAATGGGCATGTCCGGCGGCCGGGCAACTTCGATTTTGATGATGAAGTTCATCTGCTACCAGCTGGTTGTCTTATTTGCCTATTTGACGGCCTTTATCTTCGGCTTTCACTTTGTGGCCGGCAAGTTCTCGGCTTTAGCCATCTTTATTTTCCTGGGCTTTGCCCTCCACGTCTTCTCCATCATCCTGCTCCTGTTAGCCATGTTTGTCCATAACTGGACGGTTAAGGCTGTTAAAAAGGTCATGAAGCTGTTGGGGCGGATTTTTGGCCAGGAAAGGGTCCAGGCTTGGGAGAAGTCGACCCTGGAGCAAGTGGAAAGCTTCTACAAGGAAAGCCAGGCCCTTAAGGCTGAGAAGAAAAAGCTCTGGGGCGTGGTCCTCTTGACGGTTGGGCAGCTCCTGTGCTACTACTCGGCTCCTTACCTGACCTTGCGGGCCTTGGGTCAACCAGTTGACTATGTTCAAGTGACCTTGATGACGATCTTGATCATCATGTTCATGGCCGTGATTCCTTTGCCTGGGGCCAGTGGCGGGGCGGAATTCAGCTTCCAGACCCTCTTTGCCAGCTTCATCAGCCAGCCGGGGGTAGTCGTTTTGGCCATGTTCTTGTGGCGGTTCGCGACCTACTTCTTCGGCATGATTCTCGGCATCTTTGGCTGGTCCTTCAAGCCGGCTAAGTTGCGGGACTGA
>LACTIS1119B1_07140 glycosyl transferase
ATGATTAGAATCAACATGTTTTCCCAGGCGGACTCAGTTGCCGGCCAAGGGGTCGGGGCAGCCTACCTGGAACTGATCCGGCTTCTCAGGACCCACCTGGTCGATGATTTCTACGTGACAATCAACAAGTACGGCAGAAGCGACTTGACCCACTACCACACCATCAATCCGACCTACTTCGCCAACAGCTTTTCACCAGCCAGAGGCCGCAAGATCGGCTATGTCCACTTTTTGCCAGATACCCTGGAAGGGTCAATCAAATTGCCAGGGGTGGCTAAAAAGGTCTTCTACCAGTACGTGATCGACTTTTACAAGCGGATGGACCAGATCGTGGTCGTCAACCCGATCTTCATCGACAAGCTGACTGAATACGGCCTGGACAGAAACAAGATCCGCTACATTCCGAACTTCGTGGCCAAGAGTGAGTTCTATGAACAGACTCAGGCCAAAAAGAACGCCACCCGGCAGGAATTAGGCATCCCGCAGGACAAGTTCGTTGTCTTTGGCGACGGGCAGGTCCAGGCCAGAAAAGGGGTCGACGACTTCGCCAAGTTGGCGGAAGCAAACCCCGACTACCAGTTTATCTGGGCAGGCGGCTTTTCTTTCGGCAAAATCACGGACGGCTATGACCACTTCAAGCAGCTGGTGGAGAACCCGCCCAAGAACCTGACCTTTACCGGCATCATCGACCGGGAAAAGCTGGTTGACTACTTGAACATGGCCGACCTCTTCCTCTTGCCGTCCTTTGACGAACTCTTCCCGATGTCAGTTCTGGAAGCCTTCAGCTGCGGGACCCCGGTCTTGCTCAGAGACCTGGACCTCTACCGGGCGATCATTGACGGTTACTACCTGGCCGGAAAGGACTCTGCTGAAATGAACGAACAGCTCCGCTTCGCGGCTACCCATCCGGAAGTCCTGGCCCGCCAGCAGGAGCTTTCCCGCAAGGCCAGCCAGCAGTATTCTGAAGACCACCTGGCTGAAATCTGGCGGGACTTCTACCAGGAGCAGTACCAGCTGGGCCGGGAATTGGGGCAGATCAGCTATGAATAA
>LACTIS1119B1_07150 glycosyltransferase
ATGAATATCGGTTTGTTTACAGACACCTACTTCCCGCAAAACAGCGGGGTAGCGACGTCGATCAAAACCCTTAAAGAAGCTTTGGAGGCCCAGGGTCACAATGTCTTCATCTTCACGACAACTGATCCCAACGTCGACAAGGACATGGTTGAAGCTAACATCTTCCGCTTCAGCTCCGTGCCCTTCATTGGCTTCTCTGAGCGGCGGATTGCTTTCCGGGGTCTGTTTGAGGCGGTCAAGGTGGCCAAGGAGGTCAACCTGGACATCGTCCACACCCAGACCGAATTTTCCATGGGCTTAATTGGCAAGTACGTGGCCCGGCAATTGGGCATCCCGGCTATCCACACCTACCACACCATGTACGAAGACTACCTGCACTATGTCTTAAACGGCCACTTGCTCCGGCCAGTTCATGTCCAGCAGTTCACCAAGAGCTACTTGAAGAATATGGACGGGGTCATCGCGCCCAGCCAGCGGGTAGCGGCTTTATTGGCCCGCTACGGGGTGGAGATTCCCATGCGGGTGATTCCTACCGGGGTTGACCTGGACGCCATCAGTGGCCCGGACAAGGCGGATCTGCGGGAAAAACTGGGGATTGCCCCGGATGCCCAGGTGATCCTCACCCTGGGCCGGGTAGCCGCGGAAAAGAAGATTGACCGCATCCTCCGGGTCATGCCAGACCTGTTGACCGAATTCCCTAAGCTGGTCTTTGTTATCGCTGGCGACGGCCCGGACGCGGATGTCTTAAAAGAGCAGGTTGAGCGCCTGACTTTGGAAGACCATGTGATTTTTGCCGGCAATATTCCCCATGACCAGGTCGCCAGCTACTATAAGATGGCCGACTTCTTCGTCTCAGCCAGCGACACAGAAACCCAGGGGTTGACTTATATCGAAGCCCTGGGCAGCGGACGCAAGTGCGTGGTTTACAAGACCGACTACACCGACCAGGTCTTCAATGACCCGGCTTACGGCTTGACTTTTGAAAGCCTGCGGCAGATGAAGGAAGAAATCGCGGCTTACTTGCGGCAGGGCCGGCAGGAGATTCCGCCCCAGCTCCTGGCAAAAAAGCTGGAAGAAATTTCCGCCAGCCACTTTGCCAGCGAGGTCTACAAGTTTTACCAGTACGCGATTGACAACTATCAAGTGAAAAAAGAGGACAGCAATGATTAG
>LACTIS1119B1_07160 hypothetical protein
TTGGCAGCCCTCTTCCAATTCATGTGCATGATTTTGGCTGGCTGGCAATCAGTCTTGGCTATTTCCTTGAGTTACATCCCAGGCCTGATCGTTTATTACCCAGGCGTCCGTGAACAAGGCAGAAAGCTCAACAAGAACGAAAAGATCACCTTTATCTTTATTGCAATTCTCTGCGTTCTGTCTATCGTACTGATTGCCAACAAGAAGATCAACATTATGTAA
>LACTIS1119B1_07170 arginine/ornithine antiporter
ATGGAAGAGAAAGTAAACAAAAACGGGATAGGCCTTGTCGGCCTGACCGCTTTGACCGTCAGTTCCTCCATTGGGACTGGGATCTTCGGTATTACCAGTTCCATCGCCACATCTGCCGCTCCAGGGCCCGCGATTTTGTCCTGGCTGCTGGTTGGCTTTGGTTTCTTGATGCTTGTTCTGTCATTGAACAATTTGACTGAGAAGAGATCCGACCTTAAAGGTGGTATCTTCGCTTACGCCGGGGCCGGCTATGGCCCTATGGGCGAATTCATTTCCGGCTGGGCCTACTGGCTGAGTGCCTGGCTGGGCAACCTGGCCTTCGCGACTATGCTGATGAGCGCGATCGGGACCTTTATTCCGGTCTTCAAGGGTGGCTCAAACCTGCCTTCAATCATCGTGGCTATCATCTTCTGCTGGGCCTTGACCTTCCTGGTTAACAACGGTGTTGAAAGTGCCTCATTCGTTAACACGATCGGTACTTTCTGCAAGGTTGTGCCATTGATTATGTTTGTAATCATCTGCATCGTTTCCTTCAAGGGCGGGATGTTCACCGCTGACTTCTGGGGCAGAGTTGCCAACAACCTGTCCAAGGGGACCACTACTGGCGGCCTTTGGCCACAGATGAAGGGGACTTTGATGACCCTGATCTGGGTATTTATCGGTGTTGAAGGGGCCTCAGTCATGGGGTCACGTGCCAAGAGCCTGAATGAAGCGCAACAAGCAACCATGCTTGGTTTCGTCCTGCTTTTGGTCTTCTACATGATGATTTCAATCCTGCCATACGGCTCACTTACCCGGGCCCAATTGGCCAGCGCTGCACAACCAGCTTTGGGTAACGACTTGAAGATGATCGTCGGCGACTGGGGCATGATGATCATCAACATTGGTTTGATCATTTCCACTATCGTTTCCTGGCTGTCATGGACCATGCTGCCAGCAGAAACCATGCTTTTGATCGCTGAAGACGGTGCCGCTCCTAAGTTCTGGGGCAAGCTGAACAGCAAGAAGGCGCCAACCAACGCCCTGTTCACTACTGCTATCCTGCAGACCATTTTCCTATTCTCCTTGCTCTTCACTGACAAGGCTTACGAATTCTGTTACACTTTGGCTTCAAGTGCCATCTTGTTCTTATACCTGTTTGTCGGCTTGTACCAAATGAAGTTCAGCCGTGAACACAAGGAATGA
>LACTIS1119B1_07180 arginine deiminase
TTGACAAGTCCTATTCATGTAACTACAGAAATTGGTAAGTTGAAGACAGTTATGCTGCACAGGCCAGGGCGCGAAATCGAAAACATCACGCCGGATTCAATGGAACGTCTCTTGTTTGACGACATTCCATACCTGCCAATCGCCCAGGAAGAACACGACTTCTTCGCACAAACTCTGCGCGACAATGGTGCCGAAGTTATCTACACCGAAGACCTGGCTGCTGAAGCTTTGGCAGACGAAGCTGTCAGAAACGAATTCATTGAAAGACAAGTTGTTGAAGCTGGCTTTGTTGCCGGCGTAGCCCATGACGCCTTGGTTGAATATTTGAAGGCTCTGACTCCAGCTGAACTGGTAACCAGAATCTACGAAGGTATCCGCAAAGACGACCTGGAATTGACTACCCTTGACTTGGCTGCAGTGTCCGAAAACACTGAATGGCCATTCTTGATGGATCCACTTCCAAACGCTTATTTCACCCGTGACCCGCAAGCTTCAATCGGCGACGGGATGTCAGTCAACAAGATGACTTTCCCAGCTCGTCAGCGTGAATCAATGATCACTGAATACATCTTGAAGTACAACGCTCGCTTTGCAGGCAAGGTTAAGGTATGGCGTGACAGAAACCACGCAAGCCACATCGAAGGTGGTGACGAACTGGTATTGAGCGACCACGTAGTAGCAATCGGTATTTCACAACGGACTACTGCTGACGCAATTCAAGACATCGCTAAGAGCTTGTTCGCAAACTCTGACTACGACACTGTAATTGCCATCTCAATTCCGCACAACCACGCGATGATGCACATTGACACGGTGTTCACCATGATCAACTACGACCAATTCACTGTTCACTCGGACATCTTGACTGAAGATGGCAAGGTTGACAACTGGGTACTGCACCCAGGCAAGGATGGCGAAGTAACCTTCGAACACCACACTGATATCAAGGAAGTGCTGAAGAAGGCACTGGGCAAGTCAGGAATCGACTTGATCCCAACTGGTAACGGTGACCCAATCGTAGCTCCGCGTGAACAATGGAACGACGGTTCAAACACTTTGGCAATCGCTCCAGGTGAAGTTGTAACTTACAACAGAAACTACGTCTCCAACGCTTTGCTGAGAGAACACGGGATTCTCGTTCACGAAGTTCGCTCAAGCGAATTGTCAAGAGGCCGTGGTGGTCCACGTTGCATGTCTTGCCCAATTGTTCGTGAAGACATCTAA
>LACTIS1119B1_07190 carbamate kinase
ATGTCAAAAGTTATTGTAGCATTGGGCGGTAACGCCCTCGGCAAGTCACCAGCCGAACAATTGGAATTGGTTAAGAACACAGCTTCCTCACTGATCGGTTTGATCAGCACCGGCAACGAAGTAGTTATCAGCCACGGCAATGGCCCGCAAGTTGGCCAAATCAACCTGGGCATGAGCTACGCTGCTGAACACGGCCAAAGCGCTGCCTTCCCATTCCCTGAATGCGGGGCAATGAGCCAGGGCTACATTGGCTATCATCTGCAGCAAAGCCTGCAAAACGAACTCCGCAAGCGCGGCATGACCAAGGATGTGGCAACCATCGTAACGCAGATCGTTGTTGACCCGGCTGACACCGCCTTCCAAAACCCAACTAAGCCGATTGGGGCCTTCTACACTAGGGAAGAAGCCGACTCAATCGCCGAAGACAAGGGCTACATCTTCAAGGAAGACGCTGGCCGCGGCTGGCGGCAGGTTGTTCCTTCACCGATTCCAAAGAGAATCGTTGAATTGAGCAGCATCAAGACCTTGATTGAAGCAAATGAACTCGTTATCGCCGGTGGTGGCGGCGGGGTGCCTGTAGTTGAGACCGAAGAAGGGCTCAAGGGCGTGCCAGCCGTTATCGACAAGGACCGCTCCAGCGCATTGTTGGCAGACAATGTTGGCGCGGACAAGCTGATCATTTTGACCGCTGTTGACTACGTAGCCATTAACTTCAACAAGCCAGACCAAAAGAACCTGGAAAACATCTCTGTTGAAGAAGCCAAGAAGTACATTGACGAAGGTCAATTCGCGGCCGGCAGCATGCTTCCTAAGGTTCAAGCCTGCATGTCATTCGTTGAAGGCCACCCAGAAAGAGAAGCCATCATTACTTCTCTGTCAGGCTTAGACGCTGCTCTTGCTGGACAGTTGGGGACTGTTATCCACGCATAA
>LACTIS1119B1_07200 ornithine/putrescine carbamoyltransferase
ATGGCTTTTAATTTACGCAACCGCAGTTACTTGACTCTCGCAGACTTTAACACTCGTGAAATGGAATACCTGCTTGACTTGGCAGAACAACTGAAGAAGGACAAGTACGCTGGTGTTGAACAACCTAGCTTGAAGGGCAAGAACATTGTTTTGATCTTCGAAAAGGACTCAACCAGAACCCGTTGTTCATTCGAAGTTGGTGCCCACGATCAAGGCGCTCACGTAACTTACCTTGGGCCAAGCGGCTCACACTTCGGTCACAAGGAATCAGTTAAGGACACTGCTCGCGTATTGGGCGGCATGTTCGATGGTATCGAATTCCGTGGCTTCTCACAAGAAGCAGCTGAAACTTTGGCTAAGTACTCCGGTGTCCCAGTTTGGAACGGTTTGACTGACGCTGACCACCCAACTCAAGTCCTGGCTGACTTCTTGACTGCTAAGGAAGTTTTGAAGAAGGAATACAAGGACATCAAGTTTGCCTTTGTTGGTGACGGTCACGACAACGTATCCAACGCTTTGATGATGGGTGCCGCAGTTATGGGTATGGAATACCACGTTGTAACTCCTCCAGAACTGAATCCAAGTAAAGAAACTTTGGCAAAGGCTAACGCAATCGCTAAGGAAACTGGCGCCAAGATCGTTGTTTCAAACGACATTAAGGAAGGCGTTAAGGGCATGGACGTAATCTACGGCGACGTTTGGGTATCAATGGGTGAATCCGACGACAAGTGGAAGAAGCGGATCGAATTGCTTTCACCATACCAAATCACCATGGACGTTCTTAAGGCTACTGAAAACCCTAACGTTATCTTCGAACACTGCCTGCCAGCCTTCCACAACCTGGAAACTGAAGTTGGCCGTGAAGTTTACGAAAAGTTTGGCTTGAAGGAACTTGAAGTAACTGACGAAGTCTTCGAAAGCAAGCACTCAGTTGTCTTCCGTGAAGCTGAAAACAGAATGCACACTATCAAGGCTGTCATGGTTGCTACCTTGGGCGACTAA
>LACTIS1119B1_07210 chemotaxis protein CheY
ATGCACTTTTATATCACAAGCAAAAACACCAAGAACTTACAACTAATTAGTGACGCCCTGGAGCGGAACTTCGAAAACATCATCGTGGGCCGGTCAACTGATGCCCAAAGGACCTTCGATGATCTCCGCCAGCTCAGAGTTGACGTATTGGTGGTCGACTATGACCTGGCTCCTTTTGACGGCCTGGCTCTCTTAAGGCGGCTCAAGCAGGCCAACATCTTGCCCCGGGTGATCATGACGGCCAATACGCCGTCAGAATCCTTGATTACGGCTGCCTACCAGAACGGCTGCGATTTTTTTATCCACCACCAGCTCAATTCTGAAGAGATTGCCCATATTTCCAAAATCATCAGCACAACCCTGCAGCTTTTGAGTAACATGCGGGTGATTAGCGAGCTCTCCGGCAGCTTGAACAATCCATATGGCCGCCAGCAAACCACCCACCACCAGCAGATCGACCATGTTACCGACACCCTGCGCTTTTTGGGCATTGCATCAGAAAAAGGCTATGATGACATCATGAAAATTATCCGCTTGATGGTCGACAAGGATATGAGCTTTGACCAGATTGACCTGGAAGAAAGCTTCGGCATCAACAGCCGGGAGAAAAAGGTCATCTACCAGCGGATCCGCCGGACCCTGCACATCGGGATCGTCAACCTGGCCACCATGTGCATCGACTACCCGGACAACGAAATGCTGCTGGACTATGCCAACAACCTCTTTGAATACCAGAACATCCACGTGGAAATGCAGCACCAAAACGGCAAGGAGCTGGAGCGGGGGCAGATTTCCCTGCAGCACTTTTTTGACGGCCTCCTTCAGGAAAGCTACCGGGTCAAGCGGGACAGCAACAATGAGCTCTGGTAA
>LACTIS1119B1_07220 B3/4 domain protein
ATGTTAGGAAAAGTTACCGTTGACCCAAGTTTTTGGGAACTCTTCCCTAACGCGCAAGTAAACATCATGCTCGTCAGCGGCATCGACAACCATGACACTGATGACAATTTAGCCCGCCGGCGCAAGTTGCTCAGAGAAGGCAGCGAAAAGGCGGAAGACTTCCTGGGTGCTGCGGCTTTTGCCAAGAACCCAGTTGTTGCTGAATGGCGGCAAGCCTACCAGCAATTCAAAAAGAAGAAAGGCGTCCGGGCTTCCATCGAAGCGCTCTTGAAGCGGATCGACAAGGGCGAGGACTTGCACCCGATTTCACCATTGGTTGACGTCTACAACTCAGTTTCCCTGGCTCATGGTGTCCCAATCGGCATCGAAGACCAAGATAAATTGGCCGGCACCATGCACCTGGGCCAAGTCCACGAAGGCCTGCCCTTCCAGCCAGTCGGCGCTGACAAGGACGAACCGACCCTTGAAGGGGAAGTTGCATGGTATGACGACCAAGGTGCCGTTTGCCGCTGCCTCAACTGGCGGGATGCCCAAAGAACCATGCTGGATGAAGATTCAACTAAGGGCGTAATCGTAATTGAATCAGTCAACGCTGACCAGGCGCAGCGAGCTAACGAAGCCATGAGCGACTTGGAAGAGCTTTTGGGAGAATTCTTCGGCATCAAGCCGGACAAGTCCGTCATCTTGGCCAAGGACGCGCCAAGCGTGGACGTTGACTAA
>LACTIS1119B1_07230 hypothetical protein
ATGGGCGACGCGGCCATTCAGCGGGTGATCGACGTTTGCCAGGATCTGGATCCTTGGCTTGAAGGTCAGCCGTCAGTCAGAATCGAGCACGCTTCACTTTTATCCGACTCCATGCTCAAGGAGCTGAAGGGGGCAAAAATTGGACTGGCTGTTTCCACCCAGCCGATCTTCTTCTTCGCCGAAGAAGATTCCTACCGGCAGTTTTTGTCAGCGGACCAGCTGAAAATGGCCTACCGGATCAAGAGCTTAGACAAAGAAAATATTCTTTTCAGCCTCAGTTCTGATGCCCCATGCACCCCATGGGCGGAACCGGACAGTCCTTTTTACGGAATCTACGCGGCAGTGACCCGGCACACGGCAGCAGGCGGTTTTATTAATGAAGATGAAGGTATCCCAGTAGTCCGGGCCATCCTGGCTTATACCAGAGACGCGGCCAAGATGGGCGGCTTCGTCAATAACGGAATCTTGATCCCGGGCAAGGACGCCGACTTTGTTATCTTGGAAAGAGACATCTTCAGTCAAAAGGCAGAGGACTTAGCCAAGGTCAAGCCGGCGTCGACTTGGATTGGCGGAGAAAAGGTCTGGAGCCAGGAAAAGAAGTAA
>LACTIS1119B1_07240 anti-sigma factor
ATGAAAAACACTGACTTAATGGATGCAATGGGCGGAATCAAGACTGAGTACATCGTGGAGGCAGCAGCCAGCCGGGGGCAAAAGAAGGTTATTCCTTTGTCAGCCAAGCGCAAGCCGGGGGTCCGCCTGGTGGCAGGGATCGCGGCCGCGGCTGCTTTCAGCGTGGCTTTGCCAAACACGAGTCCGCAGGTGGCTAATGCCATGCAGAACTTGCCAGTTGTGGGGAACTACTTCAAGCTGGTGACCTTCCGTGATTACCACTATGAAAGCCGCAAGCATTCAGCCGATATTTCTGTTGATAAAGTTGCCGTCAGCGGGGTAACCGGGCCGGCAACCAAGGAGGCCAAGAAGAGCAGCCAGGCAGTCAACCGGGAAATTGCCCAGGAAACTGACCGTTTGACCAAGGAATTCAAGGCATCTCTGAAGAAGGGCGGCTATGGTTCTTTGAGGGTCAAGACCAAGCAAGTGACTAACAACCGCTACTGGTACGTGGTCAAGCTGACAGCCGTGCAAACGCAAGCTGACAGCGGGGAAAGTATCCGCTACTACGTCTTCAGCAAGGCTAGCGGCAAGCAGGTCAAGCTGGGGGACTTGTTCAAGAGCGGCAGCAACTACCAAAAGGCCATCAGCCAGAACATCATTAAGCAGATGAAGCAGGAAATGAAGGCTGACAAGAACAAGAGCTACTTCCTCAAGGAAAATGGCGATCCGGACGGCTTCAGCCAGATCAAGAAGGACCAGCAGTTCTACATCAACAAGAAGAACCAGGTGGTTATCGTCTTTAACCAGGGCGAAGTTGGCCCAATGTCCATGGGCAGCCAGAGCTTCGTTTTGCCAAACAAGCTGGTTGCCAAACTGCAGAGATAA
>LACTIS1119B1_07250 DNA-directed RNA polymerase specialized sigma subunit
GTGAGAGAAACTGAAATCATCGGGCAGTTCTTCGCCAGAGACGAAGCTGCGCTCACTTCAGTCCAGAGTGAATATGGGGCATACTGCTCAACGATTGCCCGCAACATCTTGTGGGATAAGGAGGACGTTGAGGAGTGCCTGAACGATACTTGGCTGAAAGCCTGGAACACGATTCCGCCGAAGCGGCCGCAGAGCCTCTTGGCCTACCTGGGGCGCGTCACGCGCAACGGAGCCTTGAACATGGTCCGCGACCAAAACCGGCAGAAACGAGCTGGGGATCAATATACCACCTCGCTGGATGAAATTGGAGAGTTATCCGGCGCGGTCCAGGGGCAGGCAGAGCTGGAAGGGATTGAGAGCAGCGCTTTGACGGAGATCATCAATGATTTTCTGGCAGGCCTGCCAAAAGAAAAAAGAATTATTTTTGTTCAGCGGTATTTTTACATGGATGCTATCAGCGATATTGCGGCAGCTAACGGGATGACCGTGTCGGCTGTCAAGGTATCATTATTGCGGATGCGCCGCAAGCTGGGCAAAAAGCTGCAGGAAGAAAAGTATATTTAA
>LACTIS1119B1_07260 seryl-tRNA synthetase
ATGCTGGATATTAAGGTCATTCGCGAGAATCTTGACTGGGCCAAGGAAAAGTTGGCAACTCGGGGCATCAAGCCTGAGCAATTGGATGAACTGGTAGCTATCGACGCCAAGCGCCGGGAAGCTATGGTGCAATGTGAAAACTTGAAGGCAGAAAGAAACGAAGTTTCAAAGAAGATTGCTGCCGCCAAGCGGGAAAAGGCAGACGCCAGTGAAGCCATCGCCAACATGCGTGAAGTCGGCGCCAAGATCAAGGAATTGGACAAGGAAGTTGACGAATTGCAGGAAAAGCAAGAATACATCCTGCTCCGTTTGCCAAACTTCCCGGCTGACTCAGACCCAATTGGCCCTGACGAAAGCTACAACGAAGAAGTCCGCCGCTGGAACGAACCAACCAAGTTTGACTACCAGCCCAAGGCTCACTGGGACCTGGGCACTGACCTGAACATCCTGGACTGGGATGCGGCAAGCAAGGTTTCCGCAGCCCGCTTCGTTTACTACAAGGGTGCCGGCGCTTTGCTGGAACGGGCAGTTTACAACTTCTTCCTGGATGAAAACACCAGCGAAGGCTACACTGAAGTCATCACCCCATCCTTGGTCAACAATGACTCAATGCAAGGGACTGGCCAATTCCCGAAGTTTACGGAAGACGTCTACACTATTGTTGACAACGACGACCCGGAAGTAGCCCGGAACCTGACTTTGATTCCAACTGCTGAAGTTCCTTTGGTCAACTACTTCAGAGGTGACATCATTGATGGCAAGAACCTGCCAATCAATGTGACTGCTTTGTCACCAGCCTTCAGAAGTGAAGCTGGTTCAGCTGGCCGCGACACCCGGGGCCTGATCCGGATGCACGAATTCCGCAAGGTGGAAATGGTCAAGGTGGTTAAGCCAGAAGACTCCTGGAAGGAACTGGAAAACCTGACCCACAACGCTGAACACCTGCTGCAAAAGCTGGGTCTGCCATACCGGGTTGTAGCCTTGTCAACCGGGGATGCATCCTTCACCAGTGCCAAGACTTACGACTTGGAAGTCTGGATGCCAGCCCAGGACACTTACCGGGAAATCTCATCCTGCTCCAACTGTACTGACTTCCAGGCCCGCCGGGCACAAATCCGTTACCGTGACGAAGACGGCAAGGTTAAGCTGACCCACACTTTGAACGGGTCAGGCCTGGCCGTCGGCCGGACGGTTGCCGCTATTTTGGAAAACTACCAAAACGAAGACGGCACGGTTACCGTACCAGAAGCTTTGCGTCCATACATGCACGGCATGACCAAGATCACGCCAGAAGTTAAGTGGCACTAG
>LACTIS1119B1_07270 N-acetyltransferase
ATGGAGAGTGAGCGGATATATTTGCGGCCGGTCGGGCCGGAAGATGCTGAGCTGCTTTTGTCTTGGGGGCAGGATCCCTATTACCAGGAGACGGCAGGCTTTGCCCATTACCGGAATCTGCCAGAAGCTGAAGAAGGGGCCTTGGCCTACCAGCAGCGGCCGGCCAGCTACATGATTTGCTTGAAAAAGGGCCAGGCGATCGGTCTGCTGGAGCTGTACCCCCGGGATGGCCAGTCCCGGGAGCTGGGCTTTTTACTGGATAAAAAGTACCAGGGGCAGGGCTACATGACTGAAAGCATCAACTGCCTCTTAGGGGAGGCTTTTAAAGATCCGGAGATCAAGGAAATCTGGGCCGGCTGCCGGGCAAACAATTTGCGGCCCCAGCATTTATTGCAAAAGCTGGGCTTTCGGCAGATTTATGAAGTCGATTACCGGCAAATTCCGCCTTTTTTGGATTTTTCAGCCAAGTATTATTTGCTAAAACGGAGCGAATAG
>LACTIS1119B1_07280 membrane protein
ATGAGTTACGAACAAAGCCGCAAGCTGATCAACCGGCTGACCATTATTTCAACCATCGTGATCATTGGCCTCTGCATCTACTGGTACCAGCTGGGGATTTTTACCAGCCAGGCCAAGATGAGCGCCTATCTGGCTGACAAAAAGATCCTCGGCCCCTTCATCTTTGTCTTGATCCAGATCATCCAGGTCGTGATCCCGATTATCCCCGGCGGGGTCTCCCTTTTGGCCGGGGTCGTCTTCTTCGGCGCCGGGCCCGGTTTTATCTACAACTATATCGGGATCGTCATCGGCTCCTTGATCAACTTCTTCCTGGCCCGCTACTACGGCAAGTCCTTCATCTTGCACATCGTGTCAGAAGAGAGCTTGGAGAAGTATACCAAGTGGACTAAGAACCAAAAGAAGTTCAACTGGTTCTTCGCCATCTGCATCCTGGCCCCGGTTGCTCCGGATGACCTGCTCTGCCTTTTAGCGGGTTTAACGGAGATGAAGCCCTGGACCTACTTCTGGATTATTGTTCTTTGCAAGCCTTGGACTATCGCGGCCTACAGCCTGGGCCTGGTCTACGGGGCTCGCTGGATCATGAGGCTGATGTGA
>LACTIS1119B1_07290 esterase
ATGGTTGTGACTCTTAACAATATCGCTTATGACCTTAAGCATGGTCTCAAGACCGACATCTACTATCCCAACGATACCGACTCACAGACAAAAATCCTCATCTTCTGGCACGGCGGCGGCTGGTTCCGGGGGAGCAAGGAAAACATTAGGGACGTAGCCATCGACCTGGCCAACGCCGGCTTCATGACCTTTGTGCCCGACTACCGGCTGGCTCCAGCGAACCACTTCCCGGCTGCCCACGAGGATGCCCTCAACTTCGCGGCCTGGCTTTTAGCTTCAAACTACACCGACGAAGGCGATGAAAACAATATCGTCCAGATCGGGGCCAGCAGCGGCGGCACCCTGGCTTTGAAGGTGGCCGGCATGTACGGCTTTCCAACCGTCACCTGGTCAGCCCCGGTCGACTTCAGCAGCTGGCTGGCCAACCACCAGGAGGTCAAGCCATCAGTCAATGCTAAAGAAGAACTGGGCTTGACCAAGCAGCAGGCCATCAATGAAGCCTTTTACAAGTACTTCGTCTTGACCTATGCCGGCAGTGAAGACTCCGACCTTTTGGCCGACCTGGACGCTCAGAGCTACGACTACACCAAGTTGGGCCGCCTGCTCATGCTGAATTCCGCGGCTGAACTAACCGACCTGGCCGGCGTTACTGACTTTGCCGGCCGCCTGGCCGGCCGTGGCCACCAGGTTGACCTGGAAATCATCCCCGGCCACGGCCACGCCATGGACTACGGCCGGAAATATCTCCGGGAAAGCATGACCTATCTCAACTATGCCCTCAGTCTGAAAACAGGAAGCGAATAG
>LACTIS1119B1_07300 Cro/Cl family transcriptional regulator
ATGATAAACATTGAAAAATTCATCAAAATCCGCAAGTCACTCAAACTCTCCCAAAATGAGCTCTGCAACGGGATCTGCACCCAGTCAACCCTAAGCAAGTTCGAAAACAACGGGCAAATCCCCTCTTTCAAGATCCTCAAGCAGCTCTGCGAGCGGATGAACATCTCTTTATCCGACATCATGCTGACCAGCACGGAAAGTGAAATTGCCCAGAAGCTTTTTTCCGCGGACTTCTACTTTATCACCTACGACTATGACCAGGTCCGCAAGATCCTCAAGCAGGTCAATGAGAAAAAGATCCGCGACAAGCAGGACCTTCTGCACTACAACTACCTCTGCGGGCAGCTGGCCCTGGACGGGGACCACAACGATGTTTCAGCTCTCTTCTATTTCAACAATATCTTGACGACGGACAACCTCAAGGCCGACAACATCTACCGCCTCTTGGCCCTTAAGGGCTGCAGCCAGGTTTACGCCAGCCAGGACATGGACAAGGCCTCTCACTACTTTGACCAGATCCTGGGCCAGATCAAGAAAGTCGAAATTAAGGACAGCCTAAGAGAACTCCAGGTCATGTCCATATTGACGGCAGCCGGTGAATTCTATGGGCAAAACGGCCAGTACAAGCACGCTGACGACCTGCTCAACTACGCCTACGAACTGGCATCGAGCCACCATGTGGTCTACTTTTTAGCCCGGGTCGTTTACCAGCTGGCTCTGGACGACTTGGCCCAGAAGCGGTCCCTAAATACTGCCCTGGAGCACTTGCATGACTCCCTGGCCTTCGCCCGCCTGAACAAAAACGAGGTCATCCTCAAAGAAGGCGGCAAGCTCCTTAAAGAACTTGAAGAGAAAGCATACGAAAACGGTCAATCGCGAGATTGA
>LACTIS1119B1_07310 nucleoside 2-deoxyribosyltransferase
ATGACGGCAACAGCACGTATTTATTTAGGTTCATCTTTTCACCGTGACCACCATCAAGCCCGGGCCAAGCAGGTCCGCGAATACCTGGCGGCCAACCCGACGGTTGAACATGTCCACTTTCCCTTTGACCAGCAGGTAACCGACCCGGCTGAAGACCCGAATGTCGGCTTTGGCGACGAACGCAGCCTGCTTTGGAAGCAGCAGACCTACCAAAACGATATCAACGGCCTGTCCATGGCCAACTGCGGGGTCTTCCTCTACGACATGGATGAACTGGATGACGGCTGCGCCTTTGAAATCGGCTTTTTGCGGGCGCAGAACAAGCCGGTCATCATCGTGCCTTTCACTAACCAGCCGGAAAAGAAGCCAATCATGAACTTGATGCTGTCTGAAGGGGCAACTGCTTTTATCAAGGGTGACCAGGAACTGGAACTCTTAAAGACTTACGACTTTAACAACTGCCCATGCCGGCTGCTGACTGGCTACGGCACTATTTAA
>LACTIS1119B1_07320 glutamine amidotransferase
ATGCGGATCAACGTTTTGCAGCACACCCCGAATGAGGGGCCAGGGGCCATCAAGGCCTGGGCCGAAGACCGGGGCAATAAAGTCTATGTATACCATCCGGAAACTTTCGGCATCTTCCCGAAAGCTGATGAAACTGACATGCTGGTCGTTTTGGGCGGGCCGATGAGTCCGGGCGATGACCTGCCCTGGCTGGAAGAAGAGCGGCAATTGATCAAGGACTGCCTCAAGCAACACCTGCCGATTTTGGGCATCTGCCTGGGCGCCCAGCAAATTGCCATCTGCTTAGGCAGCAGCGTGTACCCGGCGGCCCACAAGGAAGTCGGCTGGGCTCCGGTCTACAAGCAAAATGACGCTATTGCCGGTTTGCCAGACAAGCTCCTGGCCCTGCACTGGCACCAGGACATGTTTGAAATGCCGGCTGAAAGCCACCTGCTTTATTCCAGCGACCTCTTGGCCAACCAGGTTTTTTTGGTCAATGGCAACGTGATCGGCCTGCAGTTTCACTTAGAGCCTTTGGCTGACAATGTCCGCGAAATCGTCATCAATGACGGCGCCTACGCTGAAAGCGGCAATGACTTACACCAGACTCCGGCTGAGATTCTGGCCCAGCCTTTGCCAAGCGCCAACAAGCGCGCCATTTACACCATGTTAGATTATTTAAGCGTCCACTAG
>LACTIS1119B1_07330 succinate-semialdehyde dehydrogenase
ATGGCAAAATACGAATCAGTGAACCCATATACCAATGAAGTCTTCGCCAGCTACGAAAACCCGACTGACCAGCAGATTGAAGAATCTCTGGCCTTAGCCCACGCCCTCTACAAGAAGTGGCGGCATGAAGAGCCAAGCAGCCGGGCCGCCATTTTGAAGGACATCGCGGCCAAGTTTCAGGAAAAGGAAGAAGAAATGGCCAAGACCATGACCCTGGAAATGGGCAAGAAGCTCAGCGAAGCCAAGGAAGAAGTTGAAATCTGCATCGGCATCCTCAACTACTACGCCGACCACGGCCCGGAGCTTTTAAAGCCGGTCGACCTGCCTAACCCATACGGGCGCGCCTACTACTTAAAGCAGGCCACCGGGGTAATCATGGCCTGCGAACCATGGAACTTCCCTCTTTACCAGGTCATCCGGGTCTTTGCCCCGAACTTTGTCGTAGGCAACCCGATGCTGCTCAAGCACGCCCACAATGTACCAAGCTCTGCTGCCCTGGCGACCAAGATCGTCAAAAGCGGCGGGGCGCCGGAAGGCAGTTTGCTCAACCTCTACCTCAGCTACAGCCAGCTAGACCAGGTCATCGCTAATCCGCGGGTACAAGGTGTCGCCTTGACCGGGTCTGAAAGAGGCGGGGCTTCCGTAGCCGAAAACGCCGGAAAGAACTTGAAGAAGTCCACCATGGAACTGGGCGGCAACGACGCCTTTATCGTCTTGAGCGATGCTGACCCGGCAGTTTTAAAGGCAGCCTTGAGCGACGCCCGCACCTACAACAACGGCCAGGTCTGCACCTCATCCAAGCGGATGATCGTTTTGGCTGACCGCTACGAAGAAGTCCTGGCAGACATGAAGGAGATTTACTCCGGCCTTAAGTGGGGCGACCCGCTGGAAGACTCCACTACCCTGCCGCCGATGAGCTCCCAAGCCGCCAAGGAAAAGCTGGCCAAGCAGGTGGAAGCGGCAGTTGCCGGCGGAGCCAAGGTCTACTACGAGTACCCGGAAATTGATGCTCCAGGCGCCTTCAGCCGGCCAATTATTCTGACCGACATGACTAAGGACAACCCAATGTTTGACCAGGAAATGTTCGGGCCAGTCTGCGTGGTCTACAAGGTTAAAGACGAAGCCGAAGCCATTGCCTTAGCCAACGACTCCAGCTACGGGCTGGGTTCATCCGTCATCTCCAGCGATATCAAGCACGCTGAAGAAGTCGCCAGCCAGATTGAAACCGGGATGACGGTCATCAACGGCCGCTGGATTACTGACGGCAGCCTGCCATTCGGCGGGGTCAAGAAGTCCGGCTACGGCCGCGAGCTCAGTCCTTTGGGCCTGGACGCCTTCGTCAATGAACACCTGGTGATCGACTTTACTGACCAAAACCAGCAATAA
>LACTIS1119B1_07340 membrane protein
ATGAAAAAGTGTCCCAACTGTGGCCAGGCTCTGACTGGCCAGGAAAAGGCCTGCCCGAACTGTGGATTCAATGTGGAAAAATACCGCCGCGACTACTTTACAGAAGAAGCAGTAGAAGAAAATGTTGAAAGAAGAGAAGCTAAGCGGGAAGAAGCTGACCGGTCTTTAGAAAAAGAGCCAGTTGACAAGCTCAGCCGGTCCGCCTACCAGCAAAAGCAGGAACGGAATGCCTTTACAGGCAACCTAACCGCGGAAAAAATGCTCCAGTGGATGAGAGACAACACCACGATCGCCTTCTTGGTCGGCGTGGGTCTTTTGATCATCATGAGCTTCTCCCGGCCCCTGGGCTGGACGGCTTTTGCCGTCTCCATGGCTCTACTCATCTGGACCGGCCACCGGGACTCCCAGGGCGAATACACGGCTGACCGGAACTTGACTGAATATATCCGGAACGGGGCTTCTAAAGTCTTCAATGCCTTTGACGACAAGGAAAGCGAAATTGAAGAGAAGAGTGAAGACTTCACCCAGGCCCACCCGAAATTTGAAGCCAAGGTGGAAAAGGCGAAAAAGAAGACCAAGAAGCCCCGGAACTTCGGCATCATCCAGCTCTCCATCCTCTTGACCAGTTTGATCACCCTGGTCCTGCTTTTCCTGGGGACAGGCTTCGTGACCTCCAGCAGCAAGCTGACCGTGGCCAGCGTCTTCTTTGAAGTCGCCAACCGGCAGATCGCGGCGGGTAAGATCGTTCCCGCCTTGATTCTCTACCTCTTCCTGGCCATCTTCCTGATCTTGCCAGTCTTCATCATGCTGGCCGTCAGCCAGAATACCCGGGTCTCCCGGGTCCGGGCCTTTGCCTTGTCCCTGGTCGAAAGCCTGGTCTTGATCTACCTCTTTTACCAATTGGCCCAGACAACTAGCGCGGCCAGCTACTTAAGCCAGGCTGTTTCCAGCTTGAAGAGCTATGCCGTGGCCATCGGCATTTCCGGCTACCTCTTGATCCTGGTCAGTTGCCTGACCACGGTTTTGGCCGGTATCAACATGTTCCAGCCAATGGTCAAGCCCGGGCAAAATAGTGAAGAATAG
>LACTIS1119B1_07350 membrane protein
TTGAAGAAGTTACTGAAGAACCATCTCGGCGCTTTGATCGCCTGGGTGCTCATTCTGGTGATTTCTTTGGTTGCCTTGCCAAACGTTGAATCACTGACGAGAGCGCACAGCGAAATCTCCCTGCCAAGCAACGTGGAAAGCGAAGCAGCCAAACTAATCAAGAACGAATGGGGCAGTAAGAAAAAGAATACTTATGAAGTCGCGGTTGTTTTCAACAAGAAATCCGGTAAGCTGACCGAGACCGACCAGGGCAACATCGAAGCCTCAATCGACCGCTTGACTAGCAACCAGAAGAAATACGGCATCAAGGACTACCTGGCGCCGCAAGACAACATCGCGACCAAGAAGCTGCTCAAGTCTAAAGACGGAACGACTTGGGTCATGCAGATGAACATCGCCAAGAGCCACGGGACCATCTCCCAGGTTAACGACGAGATAAACAAGGCTGTCAAGACCAGTGGGGTAAGAACCTACGTCACTGGTGCAGACGTCCTCAACAATGACTTTACCAGCTCGATCCGAGAAGGGATCAAGAAGACGGAACTGATCACGGTGGTTTTCATCTTCATCGTGTTGATCATCGTCTTCCGGTCACCGGTTGTCCCGCTCGTGTCACTTTTGACGGTTGGGGTTTCCTTCCTGGTTTCCTTCTCAATCGTGACCAACCTGGTCAACCAGGTGAACTTCCCGTTCTCCAACTTCACCCAGGTCTTCATGGTGATTGTTTTGTTCGGGATCGGGACCGACTACAACATTCTGCTATATAACCACTTTAAGGAGGACCTGGGCAATGGCCTGGGGGTGGCTGAAGCCACGAAGGACTCGATCAAGAAGGCCGGCCGGACTATTCTTTACTCCGGCTCCTCAATTCTGATCGGTTTCTCCGCTTTGGGCTTAGCCAACTTCTCCGTTTACCGGTCTGCTTCCGGCGTTGCTGTCGGCGTTCTGGTCCTCTTGATCGTCCTCTTGACTTTGAACCCCTTCTTCATGGCCACTTTGGGCAAGAAGATGTTCTGGCCAAGCAAGGAAGTCGCCGGGGAAAACCCAAGCAAGATGTGGCATGGGATTTCCAGCGCTACTTTGAAGCGGCCCGTTGTCTTCTTGGCAGCTGTAGCGGTTGTCGTTACACCATTCTTCGTTACTTACTCTAACGTTTTGAACTACGACGACACGGCGGAAATTTCAGATTCAGTACCTTCCAAGCAAGGGCTGAACCTGGTGCAAAAGCACTTCTCTAAAGGGATGGCCATGCCGTCATACCTTTACATCAAGAGTGATCACACGCTCGACAATGAGAAGGACTTGAAGCTGATCGACGAATTGACGCGGAAATTGCGTAATTCTGAAGGCGTGGACAAGGTTATGTCCGCGACTGAGCCATACAACGAAAAGATCAAGCTGCTCTACGTTAAGAAGCAGCTGAAGTCAGTTACCGACGGGACCGCCAAGTTGGAAAAGGGTGTCGGCAAATTGACTAAGGGCAGCGAGCAGGTGACCAGCGGGGCCAAGAAACTGGCTAACGGGGCTGACCAGCTCGACGAAGGCACTGGCACTTTGAGTGACGGGGCCAAGAACCTGTACACGGGGACGGTTAAGCTTTACAACGGTTCAATCGCTCTCTACGACGGGGCAGGCACCCTCTTTAACGGGACCAAGACCCTGTCAGTTGGGGCAGACGCCCTTTACTCCGGCACTAGAAAGCTGTCCAGCGGGGCCAACACCCTGTCTGCTGGTACCCAGAAGCTGAAGAGCGGGACCAGCTCCCTGGCCAGTGGTTCACAGACTCTGGCTAACGGGACCGGCTCTCTGGCAACAGGTGCCCAAAAACTTTACACTGGTACAAAAACGCTGACCCGTGGAGCACAAGACTTGACTGATAATATGTCTAATCTGGTGTCTGGTCTTGACCAGCTAAAGAGTGAACTGTCAGCCGAATCTGGTTCATTGGACACTAGCAAGCTTGACCAATTGTCAGAAGGTTTGACTAAACTAAACACCGGCCTGCAACAGTTAAATGGCGTGGTTAGTCAGATCAATGTGCCAAACATTGACACTTCCAAGATCTCCAGTCTGGTTAGTGGTCTGCAAAGCCTGCAAGGACAAGTCTCAAACTTGAAAAAAGGCTTGACTGATACACAGTCAGGTCTGACTACTGCTGGTACTGGCTTGGGAACTGCAAGTGCCGCAGCTGGCAGTCTGGCAAGCTCAATCAGCAAGGTTTCAGACCCAACTTTGAAGGCAGAACTGCAAAAGGAATTAGAAACCCTTAACAGTGGTCTGTCTTCTACCAAGAGTGGTTTGGGTACTGCAGGCAGCGGCTTGACTACTGCCGGTACTGCCGCAACCAACATGAATAGTGCCGCTTCCGGCATTCAAAGTACCGCCGGCAGTCTGGGCAGCAGCACTTCTGCAGCTTCCACGGCCGACTTGAGCACGGAAGTTCAGCAATTGCAGGCAATTGTGTCCCAGCTTGCTTCGGGCTCCAATGATTTGAGTACTCAAGCAGCCAGTGGGATCACGAGCCTTAAGTCTGGCTTGAGCAAGATTGGCGAGATGCAGTCGGGAGTTGACGCTCTTGCAGCTGGTGCTCACAAGCTTTACACAGGTTCAAATTCACTCTACAGTGGATTGAGCGAGGGTATGGCTGGTGCTTTAGCTCTTTCACAAGGTGCTAACCAAGTCAACTCTGGTGCTTCTGCTGTAGCCAGTGGCGCCAGCCAAGTCAACTCCGGCGCTGGCCAGGTTAACTCCGGTGCCGGCCAACTGGCTACTGGTTTGGCCAGCGGCGTCAGCGGCGCGGCTCAACTGGCTAACGGCGCAAGCCGCTTGACCAGCGGTGCCGGACAACTCCAATCTGGTGCCAGCCAATTGCAAAACGGTCTGGCGCAAGGCGTCAACGGCTCCAGCCAACTGGCTGAAGGGGCTGACAAGCTGCAGTCCGGTACCAGCCAGCTTTCCAGCGGCGCAAGCAAGCTCGCTGAAAAGACGCCAGCCATCACCAGCGGCTTGACTGCAGTCAACAACGGTCTGGTTTCCGCCGGCTCATACTTGAACGGCCTGCGCAAGTCCAAGGCCTCTGACACCTTCTACGTGCCAAGCTACGTTTTGAAGCACAACGCCGACCTGCAGAAGTCCCTCAAGGTCTTCCTCAGCCCGGACAAGAAGAGTGCCATGATCATCATCATCCTGGACAGCAACCCAAGTTCTGAAAGTGCCGCAAAGCACTCACAAGCTTTGAGCGCTATGGCTCGCAAGTCCCTCAAGGGGACCGACCTGGGCAAGGCTGAAGTCGAAATGGGCGGGCAAAGCTCAACCATCGAAGACACCAAGAACACGGCCAGCGGTGACTTTACCAGAACTATGGCAATCATGCTGATCGGCGTCGGCATTGCCTTGATCCTCATCACCCGGAGTCTGCTTCAGCCGATCTACATCCTGGGGACTCTGCTTTTGGCCTACATCAGTTCTCTGTCAATCACCCGCTGGGTTGTCAGCGGCGTGATGGGCCGGAGCACCCTGGCTTGGAACGTGCCGTTCTTTACCTTCATCATGTTGATCGCCCTCGGGGTCGACTACAGCATCTTCGTCATGATGCGCTACCGTGACAGCGATCCGCATGCCTTGCCTAGCGCAAGAATCCTGAAGGCATGTACGGCTATCGGGACGGTTGTCATCTCAGCCGTCGTCATCCTGGGTGGTACTTTCGCGGCCTTGATCCCATCAGGCGTGCCAACCTTGATCGAAGTGGCCATCGGTGTCATCATCGGTCTGGCCATCCTGATCTTCCTGATGCCGATCAACCTGTCTGCTTCAACCAAGCTGACCTACGAAGGCTTCCCATGGCCTAAGTGGGCAGGCCGCAAGAAGGGCCTCAGTTTCGGCAAGAAGTCTTAA
>LACTIS1119B1_07360 TetR family transcriptional regulator
ATGACTCAAAAAAGAACTTTGGACTTGGACAAGGTCCTGGCCAAAGCCACGGAAATGATTGAAAGCCGGGGCTTAAGCGAGATGACCATGCCAAATCTTGCCAAGGCTCTGGGCGTTCGCAGCCAGTCACTCTATCATTACGTGAAGAACCGCTCGCAACTTCTGTCGCTGGTCGCGGCCAGCCGGATCCGCCTGCTCTACCAGGACCTGCTCAAGCAGCTGGTCGGTTTGTCAGGCCACGAAGCATTGTTTAAGTTTGCTGACGTGGTCCGCGACCGCCTTTTGGAAGACCAGGCCCTGGCGACCCTCCTTTACCACGTGGATGAAATTTCTGATAATTTAGAAGTGGTTAAAGAGGTGGTCAAGATCCTGGACTTAGGGGACCAGCTGCAGGTGGACACTGAACACGTGGTTTCCCAGCACGCCTTGGTTGGCGCGGTCCTGGGCTACGTCTTCCTGGACCGGTTTATAGATGGCCAGGAAAAGGTGGAAAGTCCGCGAGAAGCAGAGGAGAACTATCACGAAATGATCTGGCGGCTGGTTTCGCCCAGCGTCCAGCAGTCAAATGCCTAG
>LACTIS1119B1_07370 hypothetical protein
ATGAAAATGAAAATCTGGTGGTTCGCAAACTTTTACTGGTTCAGTTTACTGATTTATCTAAATGTTTTCATGTTCAATTTTCATTACGCTGACGGCAGCAGCATCAATCCTTTCGTAACAACCTTCCTGCTGCTGGCTATCTGCATTATGGTCGGGGAATTCCAATTCGTCTGGTATATGTGGCTGGCCAAGAAAACTTATAAACCACGTAAACGCAAGAAAACACAAAACGACTCTACTGTCTGGCTGTAG
>LACTIS1119B1_07380 beta-lactamase class A
ATGAAGAACAATATTGTAGTCGGGGCTTTGATCGCCTCCCTACTGGCTTTTGTCGTGTACACCAGGACCAACAAGGATGCTGAAATGCGGAAAGTCACGGTGGTGCAGGTAAAGAAGTCCGGAAAGGTCAAAAAGATCATTTCTTCCACTGACAAGGAACCGAATGTCAATTCCATTGAATATGACAACCAGGTCAAGAGCAGCAAGGGCAGTGACAAGCAGTTGGTCAAGGCAATTAAGAAGGCTATGGGCCAGGACGTCAGCTACCAGGTGGCGGCTTATGACTTGAATAAGAGCAGCCATTTCGCGGAAGTGACCAACACCAAGAGCGGCCAGGATTCCCAGAAGATTTTTTACCTCTATCTTTTGATCGCCCTTTACGCCCAGGAAAAGTCCGGCAAGATCGGGGCCAGCACGACTATCAAGGTTACCAAGGCTGACAAGGCCGGGACAAGTACGGCAATCGCGGTCGGGATCAGCTATGGGCCAAGCTACTTGCGCGAGCAGATGCTGAAGGGCAACAAGACCGCGGCTAACGCGCTTTTGCGGACGATCGGGACTAAGCAGGTCAACAAGACCCTTAAGCAGCTGGGGGCCAGCCAGACTAAGCTAACGGGGACCTTCTCTAAATCCGTGGTCGGCAAGACGACAGCCAGTGACCTGGCCAAGATCATGGCTTCCATCTACCAGGGCAAGTTGGTCGGCAGCTACAACCAGCAGGTTCTGACTGCTATGACAGGGAAGACCAAGCTGGCCAGCAAGGCCAAGGGGACTATCTACCAGTATGCTGATGGCAGTTTAGAGGTCGCCTTGATCAGCAATAATGGCCACAATTACGTGGTTAGCGCCTGGTCCAGCAAGACTGATGGCTTTGCTTCCTTGGGGCAAGCCGTTAAGCAAGTCATGGAAAAGTAA
>LACTIS1119B1_07390 magnesium and cobalt transporter
ATGATTAAGCAACAAATTTTTCCAATTGAAACAGACTTTAACTGGTATGACGTCAATGGCTTGAACGAAGCTGACAGACGGCGCCTGCAGACAGAGTTTTATTTTACACCGGAAATCATTTCCTACGTTTCCGACCGGCATGAACGGCCCCACTACGACTACGACCAATATACCGACACCCACCTGCTAGTCTATGACGTGCCAGTCTGGCCAACGACGACCATCAAGCACTTCACTTCCCGGCCAATCACTTTTTTGCTACAGGACAAGAACCTCTTTTCTTTCCATACGATTGAGACCAGCTATGTTTTTGACGAGTTCAATGATCCCAAGGTTTTGCGCCGGCTCTCACACGCCCAGGATGTGACGGAACTGCTGGTGACTTTTTTGATGTATGCTTCCCAGTACTTCCAGCGGGCCATCACCCAGCTGGATGCTGAACGCAACGACCTAGACGTCAAGCTGAGCGATGACATCGACAATAAGGACCTGGTGGAGTTGTCCAATATTGAAAAGAGTCTGGTCTACCTGTCCAGTTCAATTCAGACTGACCAGATGATGCTGCGCAGCCTGCAGCACTCCCGGCTGACTTTTTCCAAAGCGGCCAAGGAAATGCTGGACGACGTTTTGATTGAATCCAGCCAGTCTTCAGAAATGGTGCAGATTTCCCGGCAGGTTACCAAGACTTTGTCATCGACTTCCAACAACATGATGAACAACAACCTGAATGACACCATGAAGTTCCTGACGGTCTGGTCCATCGTTTTGACCATCCCGACCATTTTGACTGGTTTTTACGGGATGAACGTGAAGCTGCCGGTTCTCGGGTCCAGCTATGACTGGATAATCATTATTTTGATCACCGTCCTTTTGATGGTCTGGCTGATCTCCTTCATGCGTAAGCACCATCTTTTCTAA
>LACTIS1119B1_07400 prolyl aminopeptidase
ATGCAAATCACAGAAAAATATCTTCCATTTGGAAATTGGCAAACCTACTGCCGGATCGTGGGCGAGGCTACTGACCGCGCCCCGCTCCTCCTTCTCCACGGCGGGCCCGGCAGCAGTCACAACTATTTTGAAGTCCTCGACCAAGTCGCTGAAAAAAGCGGCCGCCAGGTCATCATGTATGACCAATTAGGCTGCGGCAACTCCAGCATCCCCGACGACCAGGCGGAAACGGCCTACACGGCCCAAACCTGGGTAAAGGAGCTGGAAAATGTCAGAGAGCAGCTGGGCCTTGACCAGATCCACCTTTTGGGGCAAAGCTGGGGCGGGATGCTGGCTTTGATCTACCTGTGCGACTACCAGCCTAAAGGGGTCAAGAGCCTGATCCTCTCCTCCACTTTAGCCTCCGCCAAGCTTTGGAGCCAGGAACTGCACCGCTTGATCAAGTACCTGCCCAAGGGCGAGCAGGCCGCTATCAAGGAAGCTGAAACAACTGGCAACTACGACTCCCCGGCCTACCAGGCGGCCAATGCCCACTTCATGGACCAGCACGCCATCAAGCTTACGCCGGACCTGCCGGAGCCAGTTTTGCGCAAAAAAAAGGGCGGCAACCTGGCCTACTTGACAGGCTGGGGCCCTAATGAATATACGCCGATTGGCAACCTGCACGGCTATGAGTACACTGACCGCTTAAAGGACTTGGACTTGCCGGCCTTGATTACCAGCGGCACTGACGACTTGTGCACTCCCCTAGTGGCTAAAAGCATGTACGATCACTTGCCAAATGCCCGCTGGGAGCTCTTTGCCGGCTGCGGCCACATGCCTTTTGTCCAGGAAAATGCCAAGTATCAAGAGCTGTTGTCTGACTGGTTAATCAGCCAGGACTAG
>LACTIS1119B1_07410 GNAT family acetyltransferase
ATGACAGAAGTAAAAATTGTGCAAGTTAGTGAGAAAGATTTGCCAGAGTTGATTGCCATCAGCCGGGAGACTTTCGCGGATACTTTTGGCAAAGACAACAGCCCGGAAGATATGGCCAAGTTTTTGGAGAAAAACTACAATGAAGACAAGCTTGGGGGAGAAATAGCAACTCCGGGCAGCTTCTTTTACTTCTTGAAGGTGGACGGGGAAGTTGCCGGCTACTTGAAGCTGGACGTTGACGACGCCCAAAACGAAGAGGTCGACCCAAACGGCCTGGAAATCGAGCGGATCTACCTGCGGAAAAGTTTCCAGCACCGGGGCCTGGGCAAGCAGCTCTTTGAGTTCGCGGAAGAAAAGGGCCGGGAATGGAGCAAGTCTGTCCTCTGGCTGGGCGTTTGGGAGCACAACGAAAACGCCAAGAACTTCTATGCCAGCCGCGGTTTGACCCGGTTCAGCGAGCATGTCTTCGTTCTTGGCGATGACCGTCAGACAGATTTTTTGTTAAAGAAGGCTCTGGTCTAG
>LACTIS1119B1_07420 putative esterase
ATGGAAAAAGAGATGACCTTAATCAGCGCCAAGGGCAAGTTAAAGGGAATTTGGGGCGAAGCCGTCAACCCGATCGAAGGGATGACCCCTTTGGTAATTTTGGCTAAGACCGGCGATAAGGACCAGGCCTATTGGCTCAGCCGCTACTTAAACGACGCCGGCATCCTGACCTTCACCTTTGAAGCAGAAGATACAGCCAGCGCCATCAGCGGCTACCACCTGGCCTTTGACGAACTTAGAAACGATGACCGGGTGGCCAGCGAATACATCGTCTTTGCCGGCTACGGGGAAGCGGGCAACGCTGCAGCTGTTGCGGCTAGTGAAATCGGCCGGTCAGTCCGGGGGATCTTTTTAATGTCACCAGTCATCAAGGACTGGGACAAGATCAAGGGCTACCAGGGCCGCAGCTACATTGTTGCCGGCAGCGATGACGACCAGGCGCCTTTGGCCAGCCTGGAAATGATGGCCAAGCAGCTGAAGCAAGGCGAACTTTTGCAAATGCGGGGCGCTGGCCACGACTACCGGGAAGAAGACTGGGAAAGAGCAGGGACGCTGCTCAGAACCTGGGTCTTGACCGGCCTTAACTAA
>LACTIS1119B1_07430 hypothetical protein
ATGCGCGACAACTGTACAACCATGCTGGTGGGCAAGAAGGCCAGCCTTGACGGGTCCACGATCGTGGACAGAGATGAAGACTACGACCAGGGCTTTAACGAAAAGTGCTTTGTCTACTATCCAGCTAAAAATTATGATGAGCTCTTTGTCTCCAAAGGAACCGGCGTTGAAATTCCCTTAAAGGGAGAAGGCTGCGGCTTCACCGCCGTCCGTGACGCCGTAGAAGACTACGGCCGCTTTGACGAGCAGGGGATCAACAGCTACAACGTGGCCATGAGTTCAGCGGAAAGCGAAGCCAGCAATCGCCGGGTCTTTGACGGAAGCCAATGA
>LACTIS1119B1_07440 DNA-entry nuclease
ATGGCAAAAAAACGCAGGCGCAAGAAGCGTCAAAATACCAGCCTGCTGTCGGTCGCTATCGCCGCGGCGGCAATCATTTGGGGCGTCTACACCAAGGGCGGCCAGGGAAATTTAACTAGTTCCAGTTCGAATACCAGTACTTCATCAAGTGCGGTCAGCTCGGCCCAAACGGCTAAAACCGTCTACGGGGGATTAGCCAAGAGCGACTACCAGAAATTAGCCCAGGAAACTTTTAAATCCGGAGGCAAGGGCTGGCACTATGTTAACAATAACCACTCCACCTTGGTGAAAAGCGCCTGGAAGGTCAACCGGGTCATTTACTCCAACCTGGATAGCCAGAACCGGACTTCCAGCTCCAACACCGCCTTTTTGGAGAAGCGGAACGTGGCTAACGACTCTTTAAGAGTCAGGCAGTACGTCCAGCCAACCGGCTGGCACTCCAACCGGCAAAACGGGACCCAGATCTACAACCGGGGCCACCTGATTGCCTACTCAGTTTCCGCTGGCATCGACCAGGACGGCAACTACAACCCCAAGAACCAGTCCGGTGACCAGAACAACCCCAAGAACCTCTTTACCCAGTCAGCCTTTTCTAACCAGAAGATCCAGACGATTTTTGAAAGCAAGGTTCGGTCAGCTTTAAGAAGCGGGAAGAAGGTCATCTACCAGGCAACGCCAATTTTCAGAGGCCGGGAACTCATGGCCCGGGGGATCAACCTCCAGGCAGTTTCCACCGACGGCAGCCTGGATTTCAACGTTTATATCTACAATGTGCAGCCGGGCTATCAGTTTGACTACGAAACCGGCCGGGCAAAGATCGACCGCGGCATGCAGGTCAGCGAATAG
>LACTIS1119B1_07450 2,5-diketo-D-gluconic acid reductase
ATGGAAGAATTCAAGCTAAATGACGGAAACCAGATTCCAAAGATTGGCTTTGGCACATACAAGATCAAGGGCTACCAAGGGGCCCGGGCCATCAGCCAGGCGATTGAAAATGGCTACCGGCTCCTGGACTCAGCCGCCCGCTATGAAAACGAAGGGGCCCTGGGCAAGGCAATCAGAAGCAGCTCTGTTGCCAAAAGCCAGCTCTTCGTGACCTCAAAACTGCCGGGAGCCCACCACGAATACAAGGCCGCGATTAACGAACTGGAAGAAGGGCTTTTAAGAAGCGGGCTGGACTATTTTGACCTCTACTTGATCCACTGGCCAAATCCTTTGGAAGACCACTATGTAGAAGCCTGGCAGGCCTTGATCGACGCGCAAAGATTTGGCTTGGTCCGGTCGATTGGGGTGTCGAATTTTGAACCAGGGCATATCGACCGCTTGATCAAGGAAACCGGGGTTACGCCAGCTGTCAACCAGGTTGAGCTGCATCCCTACTGGTCCAGCCGCGCCGTCCGGGCTTATGACGATGAGCATGGGATCGTTACGGAAGCCTGGAGTCCGCTCATGCGGGCCGGGGAAGTTTTCCAGGAAGAATTGATTCAAAAGCTGGCCGCCAAGTATGGCAAGAGCCCGGCTCAAGTAATTTTGCGCTGGGAAGTCCAACTGGGGGTAGTGCCAATTCCAAAGGCTTCCTCCAGCCAGCACCAGTTGATCAACCTGGACATTTTTGACTTCAGCTTAACTGAAGAAGAAGTGACCGCCTTGACGGACTTGGACAAGGCAGATGGCCGCCGGCCCGACCGCGACCCTAACCAGCACCAGGAATTTTAA
>LACTIS1119B1_07460 hypothetical protein
ATGACAAAAACAGAAAAAACTTTTTCAACGATAATCAAGACCGTCAACTGCTTGATGTTCCTGGCCGAAGCAGTTTTAATCTGCTTCATGGGCGCGGAACTGGTCGGTTTTCAAACAAAAGCCAAAGATCTGACCATTGGCTGGTCACTAATCATTGCTTCCGTTGCCCTCGTATTGGCGGCCATCCTAATCTGGACAAGCAAGTTTTCCGTCCTCTTCTGGATCACCGAAGTTGCCTTGCTTGCCAGCTTCATCATTTTAACCATTTTCCAGATCATGGATGTTGGTACAGCCTTTGACATACTTGGTTCGGCCGCGATTCTCGCCCTCATCCGCTATGGCAAATTTACCAAGCCCTACATCGGGCCAATAACAAAACTGAGCTCACATTAA
>LACTIS1119B1_07470 hypothetical protein
ATGATGCAAAGGGTCAACCAGGAGCTGGGCAATGAAGACCTTGCTGACGGTTTGGCGGCTTTTGCAGCCATCAAGTCCGGCAATGAAGAGGCAGGCAAGATCTTCCGCCAGTACTGCTTGGATGTAGCCGTGATGATTTTGAACCTGCAGACCGTGATCAACGGGGAAAAGGTTGTGATCGGCGGCGGGATCAGCGCCCAGGAAATCTTGATCGAGGAGATCCGCCGACAGTTCGGGGAAATCTTGCAGGACAACCCGATTTTGGGCCAGCAGGTAATTCCGCCGGAAATCGTGGCGGCCAAGTTCAGAAATGATACCAACCTCTACGGTGCTCTCTTTGCCTTATTGCATGGGATGCAAAAGTAG
>LACTIS1119B1_07480 hypothetical protein
GTGAAGTACGCCTTGATGGATAATGAAGGGCAGCTGCTGGAAAAGGGGAAGCGGCCAAGCGCGGACAATCTGGACGACTTTGTCGCCGCCCTGTATGAAATCGGCGACCAGTACAAGGGCAAGTTTACCGGGATCGCGGTCTACGCGCCAGGGAAGATCGACACGGAGAAAATGATCATCCACTATGGCGGGGCTTTGACCTTTTTGGACGGCTTAAACCTGGAAGAGACGCTGGGGTTCAGATACGGGGTAGCGGTTAGCGCGGAAAATGATGCAAAGGGTCAACCAGGAGCTGGGCAATGA
>LACTIS1119B1_07490 oxidoreductase
ATGGCAGAACCAAAATGGCTGCAGGACATGAACCCTGAAGAATATTTGAAGGAAGATTTTGAAGCAACTGGCCACAGCCGCTACACTGTTGACGGCTTGGAAAAGAACGACCCTGAATGGCTGGACAAGGCAGCTGCCAAGGTTAATGCTGCTGAAGGCGATGACTACGTTAAGCTGGACTCAGGTTTGCTGACGGTTAACCAAATCAACTGGATGCTCCGCAACACTTTCGGTGAAATGACTTACGTGGACGACAACAATCAATTCCTGTGGTACAACCGTCCGCAAGACCCTAACTACAAGATGAAGGCCCGCCGTGTGCCAGCCCAAGTCGGTGATACTATGGGCGCCGTTCACCCGGACATCCGTGACGTTATCCCAAATGCCAAGAAGGTTGTTCACGCCCTGCGGACCAAGGAAGGCGGCCATGATGCAGTTTGGATGCCAGTACCAACTGGTAACTTGACTGAACTCGTTTTGCACTACTACAAGAGAGTGGAAGACGAAGAAGGCAACTACATGGGTATCTACGAATGGGTTCAAGACATCTACCCATTCGTGAAGTACTTCTGCGAAGTAACTGGCCAGAAGCTGGTTGTTGACCCAGACGCTGCAACTGGCGCAACTTACCGCCGCAACTCTGACCCAGACGCTAAGACTGGTCCTTCAACCAAGGCAGATGCTGCCAAGGAAGAAGTAAAGGCAGCTGAACCAGAAGCAACTAGCGGTGCATCCCACCACTAA
>LACTIS1119B1_07500 multidrug ABC transporter ATP-binding and permease protein
ATGTGTCTCAAATACGCACGGAAAAGCCAGGTAGCCCTGTTCAGCTTCCTGGCCGCCATCAAGGCCTGCAATGTTTTGTTCGTGGCCTACATGCTCAAGGTCATGCTGAACATTGCCTCTTCCGGCAAGGCTGATTACGGCCGCCTGGTCGGCTTTGCGGCCTTGACGGCCGGGGGCCAGCTTTTGTTCATGGCCAGCAATTTCTTCTATGAAACGACTAAAATGAACATCATCAGAAGCGTGAACATGACCTTGAAAGAGGCCAACCTCCGCTACCTGATCGACCAAAACAGCCTGGACACCAAGGACGGGCTGAGTTTCATGACCAACGACTTAAAGCAGATCGAAACCAACCGGGTCACGGCCCAGCTGGACATCATCTACCAAAGTTTGACCTTCGTGGGCTCTTTGGCCTTTGCTTTATATAACTCCTGGGAAATGACCCTGATCTTTATCGTGGCGACTCTGGCTCCGGCCGGCGTGCAGATGATTACCAGCAAGATCATCACCAAGAAGTCCAAGATCTGGACCCAGAAGAATGCCGTCTACACTCAGTACGTGTCTGACAGCTTGAACGGGGCCCAGTCAGCCCGCCTCTACAACGTCCGCACTAATATCGTCAAGCGGGCGATGGGCGCTGCCGGGGACATGGAAACGGCCCTTCGGAGCATGACCTTGACCCAGGCCTGGGCCCTGGAATTGATCTACTCAGCAGCGGAACTTTTCTGCTTCATCATTCCCAGCACGATCGGCGGGATCATGATGATGCAGGGGCGGCTGGCGGTTGGGACCCTGGTTATGATGGTCGACTTGGCCATCAACTTCATCAGCCCGGTGGTCACCTTGTTTAACGAATTCAACCAGGTCAAGTCAACCGTGCCGATGTGGCAGAGAACCCAGCGGGCCCTCAACTACGTGCAAAAAGACGATAATTACCCGGTCGACCACTTTGACGGCATGGAAATCCGGGACGTGGCCTACGTGACCAAGCACAGCAAGCGGCAGATTTTTGAACACGTGAACATCAAGGTCAAGCCAGGGGAAAAGATCCTCTTGATGGCGCCGTCCGGCTGGGGGAAGACCACCCTCTTGCGCCTCATGCTGGGCATCTACACGCCAAGCCATGGTGAAATTTTAATCAACGGTGAAGAAGTGACGGGGGACTGGTACAAGGCCCACAACTTCTACTCCTACGTCAACCAGAAGCCTTTCATGTTTGACGACACCCTCCGCTTTAACGTGACTCTGGGCCGGCAGGTGGATGAAGAACAGCTGCTCATGGCCTGCCATGAAGCGGGCCTGGATGACCTGATCCAGGAAAACGGCCTGGACTACCCGGTCGGGGAGAACGGCAACAACCTATCCGGCGGGCAGATCCAGCGGGTGGAAATTGCCCGGGCCCTCTTGTCTGGCCGGCCGATCCTGCTGGCTGACGAAGCCACCAGTGCCCTGGATCCCCGCCTGTCTTTGGAGATCCATGAGACTTTGCTGGGCAATCCGAAGGTAGCGGTGATCGAAGTCGCCCACAAGATTTCGGACGTGGAAAAGGCCATGTTCGACCAGATTATTGTTTTAGACAAAGTTAAGCCAGCCTAA
>LACTIS1119B1_07510 prolyl aminopeptidase
ATGAAACAAGGAACGACGATTTTGACTTTGGACAATGGCTACCATCTTTGGACCAACACCCAAGGGACAGGTGATATCCACCTGCTCTGCCTGCACGGGGGCCCGGGCGGCAACCACGAATACTGGGAAGATACGGCTGAACAATTAAAGAAGCAGGGCTTGAACGTCCAGGTCCACATGTACGACCAGCTGGGCTCCCTTTACTCTTACCAGCCGGACTACAGCGACCCAAAGATCGCGGACAAGTACCTGACTTACGAATACTTCCTGGACGAAGTTGAAGAAGTCCGGCAAAAGCTGGGCATCGATAACTTCTACTTGATCGGGCAAAGCTGGGGCGGCCTTTTGGTCCAGGAATACGCGGTTAAGTACGGAGACCACTTGAAGGGGGCCATCATCTCCTCCATGGTTGACGACATCGACGAATACGTGGCCGCGGTCAACCGCCGCCGGCAAGAAGTCCTGCCGCAGACCGAAATCGACTTCATGCACGAATGCGAAGCCAAGAACGATTACGCCAACCAGCGCTACCAGGACGACGTGCAGATTCTGAACATCAATTTTGTTGACCGCAAGCAGCCTTCCAAGCTCTACCACCTGGGCAACCTGGGCGGCACGGCTGTCTACAATGCCTTCCAGGGCGACAACGAATTCGTCATCACGGGCAAATTGAAGGACTGGCACTTCAGAAGCGAACTGCCAAAGATCAAGGTGCCAACCTTGCTGACTTTCGGCGAAGTGGAAACCATGCCTCTGGAAACGGCCAAAACCATGCAGAAACTGATTCCTAACTCCCGCCTGGTCACTACTCCTGACGGCGGCCACCACCACATGGTCGACAACCCCGATGTCTACTATAAGCACCTGGCTGACTTCATTAGGGAAGTTGAAGCCGGCACTTTCCAAGGCGAATAA
>LACTIS1119B1_07520 LysM domain protein
TTGACAATCGGTAAAGAACTACAGAAACAGCGCCGCGCCAAGCAGCTCAGCCTGGAAACCGTTAGTCAAACCCTGCGGGTCGACCAGGCGACTCTGCAAAAGATTGAAGCCGATGATTTTCAAGGCTTAAACCCGGTCATGGTCAGAAGCTGCATCCGGCAATATGCCAGTCTGCTGGGGTTAGACGGGGCACAGCTGCTCGACCAGTTTACTGAGCCGGCCGCCGCCGGCAAGGACATTCCGGCTGCTAAGCCAGCCAGTCCAGTTAAAGAGAAGGTAACTGAAGTCCGGGCTGCTAATCCGGCGCCAGTTAAGGAGGCCAGCCCGGCCGGCAAGGCCAAGGAAATTTTGGACAAGAGCAAGGTGCCGCATGGCTTCAAGGCAATTTTTAAATTCTTTGACGCCATCAACTTGGACAAGCTCTTAAAGATCGGGATCTGGGTCATCCTAGGCCTGGCCGTGGTCGGGTCCGTAGCCGGCGGCTTCAATGCCCTGGCTTCTAAACCCACCAGCATTTCCCACTCATCCAGCTCTTCCAGCTCCTCGTCATCATCATCTTCTTCTTCATCTAAGCCAGCTCAAGATGATTCCGCTAAGCCTGATGAAAACAAGCCAAGCCATGATGACCAGCAGAGCCAGCAGAGCCAAAGCCAAAGTAATGAAAAGCAGGTCAGCTCTTCCAGTGAAGCCAGCTCTTCTAGTTCCGTGGCCAGCTCATCTAGCCAAGAACAGAGCAGCCAGGCCTCTTCCTCTAGCAGCCAGTCAAGCACTGACACGACGACTGATACAAACGAATAA
>LACTIS1119B1_07530 translation elongation factor P
ATGCAAGCAATTGAATTGAAAAAAGGCATGATTTTTGACGATGGCGGCAAGCTGATGCTGGTTATGGCGGCTAACCACCACAAGCCAGGCAAGGGCAACACCGTTATGCAAATGGACCTGCGTGACGTCCGGGCCGGCAGCGTGATCCACAAGACCATGCGGCCAAGTGAAAAGATCGAGCTGGTCGAAGTCGTCAAGAAGAACGCCCAATACCTGTACGCTGAAGGCGACAGCTACAACTTCATGGACACGGAAACCTACGAACAATACGCGATTTCCGGCGACCAACTGGGTGACGACGTCAAGTACCTGATGCCAAATATCGAAGTTATCCTGGAATTCACTGAAGACGGGGAACTTTTGGCTGTGCAATTGCCATCAACTGTCAACATGAAGGTAGTAGAAACCCAGCCAGGCATTAAGGGGGCAACCGCAGCTTCCGGCGGCAAGCCAGCCACTATGGAAACCGGCCTGGTTGTGACTGTGCCTGACTTCATCAACGAAGGCGATGAACTGGTCATCAACACCCTGGAAGGGACTTACAAGGGCCGGGCTTAA
>LACTIS1119B1_07540 pantothenate kinase
ATGCGAAACTATACTGAATTCAGCCGGCAGGCCTGGGCGGCTTTAACCCCCAAGACCAAGCTGGCGGTGACTAATGAAGAGCTGGCCAAGGTCAAGTCTTTGGGCGACCAGCTGGACGTCAAGGACGTCGATGAAATCTACCAGACCCTGCTGAACTATATCCACCTGGCCTACCAGGCCAAGCAGGCGACAGCCGCTAAGAAGGCAGAATTTTTGCAGCTGCCGGAAAGCAAGGTGCCTTATATTATCGGCATTTCCGGCTCAGTTGCCGTGGGTAAGTCCACGACTGCCCGCCTTTTGCAGCTGCTCTTGACCCGGTATTACCCGGACTTAAAGACCCAGATGATGACCACTGATGGCTTCATCTACCCCAACCAGGAGCTGGAGAAGCGGAAGCTGATGCCCAGGAAGGGTTTCCCGGAAAGCTACAACATGCAGATGCTCAGAGACTTCCTCCAGGACGTGGTTAGCGGAAAAAATGACGTCGTTTATCCCCTGTATTCCCAGGAATTAAGTGACATCGTCCCGGGCCGCTATGGCCATGTGGAAAAGCCCGACATCTTGATCATCGAAGGGATCAACACCCTGCAGCTGCCGGAAAGCGGCCAGCTGGTGACCAGCGACTTTTTTGACTTTTCAATTTATATCGATGCGGAAGAAGACTTGATTGAAAAGTGGTATATGCAACGCTTCAAGAAGATCATGAAAATGAAGAAGAATGACCCAAGCAACTTCTACTACAAGCTGGCCAACGGGCCGGAAGACGAGGCCCTGCGCCTGGCGGAAGAAACCTGGCAGATGGTCAACCTGGTCAACCTCCGCCAGTACATCGCCCCGACCAAGGAGCGGGCCAATTTGATCCTGCATAAGGTTGAGGGGCACTTGATTGATAAAATTTACCTTCGCGGCTTTTAA
>LACTIS1119B1_07550 esterase
ATGAAGAAAGTCGTGCTTTTTGGCGATTCAATTTTTAACGCGTATGACGGGCAAAAGGATACCGACCGTTTGACCAAGGCCTTGGCCAAGCGGCTGGGAGACGCTTACGAGGTCGTGAACATCTCGGTCAGCGGTGCCTGCGCCCAGGACGTCCTGCCCAGAGTCGGCAGTCTGCCTGCCTGCGACATTTTGGTCGTAGAGTACGGGACCAACGACGCCGCCAGCTGGGGCTGCAGCGCCTATGACTACCAAGAAGGGCTGGAAAGCTTGATCAAGCAGGCCCAGAAGGTAACCGGGGCCAGCGATACCCTGGTTTTAGCTCCGTCCATGCCGGATTTGACGAACCCGGAAATGGCCGCGGCCTACTCCTTGGAGAAGCTGGACGAGTACGTCGACATCGCGCAAAGAGACGCCGGCAAGACCAACTCCTTCTTCTTCGACTTGACCCACAAGATGGAAAAGCTGAAGGACCTGCCTTCCTTCATGATTGCAGACGGCCTCCACTACAGCGAAAAAGGGATCTCCTGGCTGGCCGATGTCCTGGCTGACCAAATCAATAAGATGACATAG
>LACTIS1119B1_07560 LytR family transcriptional regulator
ATGCAGGTAGAGTTTAAACAAGACAAGCAGCTAAAAGAAGATCAGCTCATCATCAAGGCCAAGAAGCTGACGCCGGAAATCGAAGCGGCCCTGGCCTTTTTGGAAAAAAAACTGGCCCAGAAGATCACGGTCTATCAAGGCAGCGATGAAATCATCCTGCCCCTAACCAGCATTCTCTTTTTTGAGACCAGTGACCGGCACGTCTGGGCTCATGACCGGGAAGGCAGCTACCTGGTCAAGCAGACCTTGCGGCAGCTGGAAGCCAGCCTGCCCAGCGACTTTGACCGGGCTTCCAAGAGTGCCCTGGTCAACTGCCGGCAAATCAATGCCGTCAAGCGGTCCATTACGGGCTGCGAGCTTGGCTTTACCGCTTCTTACAAGAAGATCTTCATCTCCCGCCGCTACTACCAAACCCTGATCAGCCATTTGCACGAAATGAGGTAA
>LACTIS1119B1_07570 hypothetical protein
ATGAACAAGAACAGAAAGTCCGCGGTCAGATGGGGCTTGATCCTGATCGCTATCGCCATCCCCTTGATTTTAAGCCAGCTTTTTCCAGACTACTTTACCCTTTTTAAGCTCTTCAACTTAAGTTGGGGCCAGGTCTTCTGGGTTCTCCTCTTAGCCTGGATCGCCTGGACCAGCTTCAAGAACCGGGCCCTCTTCTTTGGAATTTTTACCAGCGGCTTGATCGTCAAAACCATCAGCGAAGCTAGCCACTTCTTTAAATGGACCGGCTACATGTACCTGGCCCTCTTCCTAATCGCCCTGGGCTGCCAGCTTTTGGCCGGAGGAAGCCAGCTGGAGGTCAAGATGAATGTAAAAACTGGCAAGAAAGACGATGACGGCACTAGCCTTAGCTACAGCGAATCAATCGGCGAAAATGGCGAAAAAGTTTCCATCGAATCCGTCTTCTCCAAATGCGTCCGCTACGTTCACAGCCAGGCCTTGCGCAAATTATCCGTCTCCACCGTTATGAGTCCGGTAACCATCTACTTGGACCAGACCCAGCTCAAGGATGGACGCGGCAAGCTAGATTTGGATGCGGTCTTCTCCAAAGTTGATATCTACATTCCCAGAGAATGGGAGGTCCAAGCCGACGCCAGCCCGGTCTTCTCCCGCTTCACCGCCCTTAACCCCAGCGGTTTAACAGCGGATTCACCCCTTTTAAAAATCGATGCTGACCTGGTCTTCAGCCAAGTCACCATTCACCGGGTCTAA
>LACTIS1119B1_07580 amino acid ABC transporter substrate-binding protein
ATGAAATGGTTTAAGAGAATCCTGCTGCTGGGCCTGGTCTTGTCCTGCTTTTTGACGACAGCCTGCAGCAATTTAACTAAAGAAGCCAACCAAAAAGACACCTGGGCTAAAATTAAAAAGCGGGGCAGCCTGGTGATCGGCTTGGATGACACCTTCGTGCCCATGGACTTCCGGCAAAAAGATGGCCAACTGGTCGGCTACGACGTCGACTTAGCCAAGGCCGTGTGCAAGAAGCTGGGCCTTAAGGCGGACTTCCAGACTATCGACTGGTCCATGAAGGAAACGGAGCTGCGAAACGGGACGATTGACGTTCTTTGGAACGGCTACAGCGTGACCAGCCAGCGGAAGAAAAAAGTTGCCTTCAGCCGCAGCTACTTGCGAAACCGGCAGATTTTGGTCGTGAAGAAGTCCAGCGGGATCAAGTCTTTTGCCCAGATGAAGGGGCAGGCAATCGGGGCCCAGAGCGGGTCAACCGCCCAGATCTGGCTGGATGGCAGCCAAAAGGTCATTAAGCCGAAGAGCAAGGTCCTTTACGACACTATTCCGTCAGCCTTCCTGGACCTCAACGCCGGCAGAATCAAGGGGATCCTCCTGGATGAAACCTACGCGGAATACTACATCAAGCACGAGGCAGACTCAAAGTCTTACCAGGTCATCTTGAACAAAGAGGTGCCAGAGGACTTGTTCGCGGTAGGGATGCGGAAGGGCGACAAGAACCTGAAAAAGAAGATCAACCAGGCCCTGGCGGAGCTGCAGGCCGACGGGACTTTGGCCAAGATCAACCAGAAGTGGTTCGGACAAAAGTCAAATTACTTGGGCAAGGTTGATTAG
>LACTIS1119B1_07590 amino acid ABC transporter ATP-binding protein
ATGCTTGAAGTAAAAAACTTAGCCAAGTCTTTTGGCAACCGGCAGATTTTGCAAAATATGAACTTCAGCCTGAAGGACGGGGAAATCCTCACGGTGGTTGGTCCTTCCGGGGCCGGGAAGACGACCCTTCTGCGGATCGTGGCCGGCCTTGAAACAGCTGACGCGGGCAGCATGAGCCTGGACGGGGAAAAATACGAGCTTAGCCAGGAAGAGCGGGGCGCCGTGGGCGTGGTCTTCCAGGACTTTAACCTTTTCCCCAACATGTCAGTTTTGGAAAACATCACCCTGGCTCCCCAGCTGGCGCTAAAAGAAGACAAGGCAACAGCGGAAGCCAAGGCCAAGGAGCTTTTGGCGAAGCTGCAGATGGCGGACAAGGGCGGCCTTTACCCTTACCAGCTCTCCGGCGGGCAGAAGCAGCGGGTAGCCATCGCCCGGGCTTTGGCCATGCAGCCGAAGATGCTCTGCTACGATGAACCGACCAGTGCTTTGGACTCGGCCTTGCGGGACCAAGTGGCCGACCTCATCTTGAGCTTGAAGGAGTCAGGCCTGACCCAATTGATTATCACCCATGACATGGACTTTGCCAAAAAGGTGGCTGACCAGGTCCTAGAGGTTAAGCCATTGGAGGGTTAG
>LACTIS1119B1_07600 amino acid ABC transporter permease protein
ATGAAATACGTTATGGAAATACTTCCCTCCCTTTTCAGCGGGGCGGGGATGACCTTGCAAATCTTTTTTGAAACATTGATCTTCTCCCTGCCTTTGGGGATCCTGGTCTCCTTCGGCTTAAGCAGCCGCTTTGCCCCATTGAAGTGGCTACTCAACTTCTACGTTTGGCTGATGCGGGGGACCCCGCTTTTGCTGCAGCTGATCTTTGTTTTCTACGGCCTGCCGATCGTCGGCTTGACCTTCCCCCGCTATATGGCGGCTTTGGTGGCCTTTGTCCTGAACTACACGGCCTACTTTGCTGAAATCTTCCGGGGCGGCAACCAGGCCATCGACCGGGGACAGTTTGAGGCAGCCAAGGTCCTGCAATTGACTTACGGGCAGACCCTTAGAAAGATCGTTATTCCCCAGGTAATAAAAATCGTCCTGCCCTCAATCGGCAATGAAGTGATCAACCTGGTCAAGGACTCCTCCCTGGTCTACGTGATCGGTTTGGGCGACTTGCTCAGAGCCGGCAACCTGGCTACGGCCCGGGACGTGACTTTAGTGCCGCTGGTTCTGGTAGCCTTGATCTACCTGTTTTTGATCGGCCTGTGCACTTTGCTTTTGCGGCAGCTGGAAAAGCACTACTCATACTACAGATAG
>LACTIS1119B1_07610 ATP-dependent DNA helicase
ATGGTAGAAAACTCAGACCGCAAAGCAGAACAAGCCCACCTGGACCAGGTCCTGCAAAAGATTGATCAAAAGAGGGACCAGCTGCAGCAGGCTATCGCTAAAGACAAGGCCGAAGCCCGCAACATCAGCGCCCACTTCTATGATGATATTCGCCTGGACTATGACGACTACTCGACCTCAATGGACACGGCCCTGTCGATTCAGCAGCAGCAGCAAATGCTCAAAGAACGCGACAATGCCTGGCAGGTCAACGCCCGCGAACTGGCTACTTTAAAGCGGCTGCATGTCCATCCTTACTTCGCCCGGGTCGACTTTGAGGAGGCTGGCGAAGAGCCGGAAAGCATCTATATTGGCCTGGCCTCCTTCATGGACGAGAACAATGAGCTTTTGATCTATGACTGGCGGGCCCCGATCTCCTCAATCTACTACGATGGCAAGATCGGCAAGGTAACCTACTACTCACCGGAAGGGCCGGTTGAAGTCGACATGAGCAAGAAGCGGCAGTTCATGATCGAAGACGGAACCATCATCAACATGTTCGACACTGACGAAACCATCGGCGACCAGATGCTGATGGAAGTTCTGTCAGAAAAGTCCTCCATCCAGATGAAGTCCATCGTCAAGACCATCCAAAAGGAGCAAAACAAGATTATCCGGGATACGACCAGCGACCTGCTTTTTGTCCAGGGGGCGGCCGGGTCTGGCAAGACCAGTGCCATCCTGCAGCGGATCGCCTTCCTCTTGTACCGCTACCGGGGCAACCTCAAGAGCGGGAACGTGATCATGTTCAGTCCTAACCAGCTTTTTAACGACTACATCGAAAACGTCCTGCCGGAAATGGGCGAGCAGAACATGGTCCAGATGACCTACTGGCAGTTTATCGCCCGCCGCTTGCCGAAGATGAAGGTGCAGAACCTCTTTGACCAGTTTGAAGACCGGCAGGCTGACACGGCAATCGGCCGCTTCAAGGATTCGCTGGCCTTCTACAAGCTGGCTACCCGCTACGGCCAGCACCTGAACCAGTCCGGCATGATCTTCCGCAATATCTATTTCCGGACCAAAAAGAAGCCGTTTTTCAGCAAGGAAGAAATCAAGGAGCTCTACTACTCCTTCAATGAAAACTACAAGCTGGGCAACCGGATTGACGCTACCCGCGAGGAACTGATCCGCCGCTTGAACAAACGGGTGGCCAGTGAAGCCCGCAAGGTCTGGGTCAGCCGGGAAATCGAAGGGCTCAGCCATGAGCAGATGCTGGACATGTACGACCGGCCGGACCAGGAATTCTCTTCAGAAAAGGCTGAACGGGCCTTCCTGGGCAAAAAGATCGTTATCAAGCACCTGGCTAAAGTTGCCCGCCGGATCAACCACAACGGCTTCTTGAACCTGCGGGGTCAGTACCTGGCCTTTTTGCGGGCCGTTCCGAAGATGACGGACCTGGCCAAGTACGGGATCAGCGAAGAAGAATGGCTGGCCCATGTTGAAGAAGTTAAGGCTAAGTTTAAAGAGCAGGAAATTGACCTCCGGGATGCTTCAGCCTATCTTTACCTTTACGACCAGATCATTGCCCGCCAGACTAACCTGGAAATGCGCTACTGCTTTATCGACGAAATCCAGGACTACTCAGCCTTCCAGCTGGCCTATCTGCGCTACAACTTCCCCCGGGCCAAGTTCACCATGCTGGGCGACTTGAACCAGGCGATTTTTACCAAGGACGAGAGCAGCAGCCTCTTAAAGCAGATCTCCGGCCTCTTTGACCCGGAAAAGACCAAGCTGGTTCAGTTGACCAAGTCCTACCGGTCAACCAAGCAGCTGACTGACTACACCAAGCAGATCCTCCGCCATGGTGAAAAAATCGAAAGCTTCAACCGGCAGGGGCCTTTGCCGCAAGTCTGGGGCAGAAGTGATGAAGCTGGCGCTTTAGCGGCTTTGAAAGCAGCTTTAGCGGAAAATGACGCCCAAAAGCTGACGACTGCCATCATCACTAAGGACCTGGAGGCGGCTAAAAAGCTGGCTGACCAGCTTGAGGGGGTCCACCTTATCTCCAGCGCCAACCAGCGCCTGGTGGAAGGGAACCTGGTCTTGCCGTCCTACCTGGCCAAGGGGCTGGAATTTGACGCCGTAATCATGTGGGATGCCTCTAAAGCGGCCTACCACGAAGAAGACGAGACCCAGCTGGTCTACACGATCGCTTCCCGGGCCATGTACAAGCTGGACCTGGTTTACGCTGGTGAAAAGAGTCCGCTTTTGCCAACTAATGAAGCAACTTTTGTAAAAAAGTAA
>LACTIS1119B1_07620 hypothetical protein
ATGCGACGATTTTTTAATTTCATCAAGAACCTGCTCATCTTAGCGATCATGGCCGCGGCCGTGGTCAACTACCATGAGCAAATACAGACTTTCCTGCTGGAAGCAGCGGGCACGGCCAGCACTTATCTGGAGCAGAAAGGCTTAAAGAGCAAGACTCTGGATTTAAGCGGCGGCATCGTTGCTGAAAGCAATAAGAAGGTCACTAAGAACACGACCGGCTACCGCTGGCCAAAGGCGACGGCCAAGGTCTACATCGGGGTCAAGCAAACCGACCTCTACAACGCCACGGTCAATGCCATGGCAGCCTGGAACCAGACGGGAGCTTTTACCTTTAAGCAGACTAAAAACAAGAAGAACGCCCAGATCGTGGTCGTGGCCAACTCCAAGAACAACGGGGCAGCGGGCCTGACTACCTACAAGTATCTCAGCCACACCAACCGGCTCTACTCAGCCCAGGTGGCTCTGAACACCTACTATCTGGAAAACGACTATTACAACTACACGCAGGCCAGAATCGTCAACACGGTTGAACACGAATTAGGCCACGCGATCGGCTTAGACCACCGGACCGGGGTTACTGTCATGTACCCGACCGGATCCATCTACACGATCCAGCCAAAGGACATCAAGCTGGTTAAGAAGATTTACAAGAGCAAGTCATAA
>LACTIS1119B1_07630 phosphoglycerate mutase
ATGAAACGGATTTATCTGGTTAGACACGGGAAAACTTTTATCAACAAGTACAACAAGATGCAGGGCTGGTGCGACACCCCCTTGACTGACGAAGGCCGGGAAGGCGCAGAAAAGGCCGCTGAGGCCTTGCAGGAGCTGCCCTTGGACATTGCCCTGTCTAGCAACACTTTACGGGCCAGCGAGACCTGTGAAATCATCATGGAGAAGAACTGCAACAGGGACCTGCTCCAGCACCTGGCCTACCCTTACTTCAGAGAGCATTTCTACGGCTACTTTGAGGGGATGGACAATGACGTGGCCTGGCGGATGGTCGGCGCGGCCCACGGCTTTACTAACGCTGCTGATTTGGCTGAACACGCGACTTGCGACCAGATAGCTGACTGGACCAAGGAGGCTGACCCCTACCACGATGCTGAAGACAGCAAGGAATTTTGGGCCCGCTGGCAGAAAGGTTTTGACTTGATCCAGCAATTGGACGGGGCAGAAAATATCCTGCTGGTCAGCCACGGTTTTGCCATCAAGACCCTGGCCCAGAAATTTGCGGTGGACGGGATCGACACGACCGTTCACCCGAGAAATTCATCAATTTCGACTTTAGTGATGGATAAAGCTGGCAATTTGCAGATGACCAGTTACAACAAATTGCAGCTGTAA
>LACTIS1119B1_07640 glycerophosphoryl diester phosphodiesterase
ATGAGAACGAAGATTTTTGGTCACCGCGGTTATCCAGCCAAGTTCCCGGAGAATTCCCTGGAGGGCTTTGACTACTGCATGCATCACGGAGCTGAGGGGATCGAATTCGATGTCCACTTAACCCGTGACGGGGTGCCAGTGATCATGCATGATGAGAACATCAAGCGGACCACTAATGGCAAGGGCCTGATCAAGGATTTCAGCTTGGCGGAATTGGACCAGTTCCACCTGGCCAATGGCGAGCGGATCCCCCGTTTGAAGGACCTCTTCCAGCTGACTGAAGAATCTGGCTATGAAGGCCAGCTGAATCTGGAGATGAAGACCAATAAGTTCGATTATCCAGGCTTGCCGGAGAAGATTTTTGCCCTGGCGGACCAGTTCAAGTTCAAGCAGGAGATCATCTACTCCTCCTTTAATTTGCAGACCTTGATCCACGCGCAGAAGATCCGGCCGGAGGAAAACTACAATTTCTTGACCGACAAGCGGATCAAGGACCCGGCAGCTTTTGTCAAGGAGCACGGCTTTAAGGGGGTCCACCCCAAGCGCTTGCTCGACACGGACATGCCGGAGCGAATCTGGACGGTGGACAGTCCCCTGCGGGCCAAGAAGATTATTGAGTACGGCGCGGCCGGCTTTTTCACCAACAAGTTCGAAGATATGATGGACCTGCGCAAGCGGGTGGCAAATTACTAA
>LACTIS1119B1_07650 hypothetical protein
TTGGGGTTGTTACAATTAATGCTTGGTGTGCTTGGATTCACAGTGTTATTAAGTTCTCTTTTTTTGACAATATTGGTACAGCGACAAGCTGCGCATCAAAAGCGTAGTGAAGCCTATATAGAAGTAGCTAAATATCTGGGTGAAAATCCAACTTTATTTAAGAAGGTGAACCAATTAGTCAAATTGGAAAGCACAACAAAGATTTTATCATTGGTGTTTTTCTTAGGTGGCTGGATAGTCTATTCAATAAACGATTTTCTGATAATTTCTTTGGACGATAGTGTCCGTGTAATGATTTTGTGGACATCAATTGTCTTGTTTGTTATCTTAACCATTGTGCAGATGATGCTGGAATTTCGGCACAAAAAATTGTTGGCTTTTCCTCTGTCTAATATTTCTCCAGTAGAGAATACTGCAGGAGAGAAACGCTGGATTCTCAGCAAGATACTGTTAATGATTGGGACGGCGATATTGACAACATGGCTACAGCTTGTGGCTCAATGA
>LACTIS1119B1_07660 hypothetical protein
TTGGAAGAAAGCGACAGCTTCGTGGAAGAAGGCGGGGACTTTCAGACAGTTACGGACCAAAACCGGGGCCGCTACCGGCAGCTTTCAGCCAGCATGCCCCTGTATGTCTTTTTTGATGAAGAGTCAAAGGCGGCCAGCCCCTTGAACTTCGTGGCCCGCAGCGCTATTAGGGACAAGGCAGCGGAAATCAAGGAAATTCAGGACTACCTGGACGACCGCCTGGGCCGCAGTCTCTCCCAGCTTCTGGCCAACTACCGGGACTTGGGTGAACCAGCTCCCCAGTTTGTCTTCCAGGATCCCAACCTGGCTGAACTAATCAAGCAGCGGGAAAAGGTCGGGGTGACTGGAACGGCCAAGGTCAGCCGGATTATTCTGGCCTTTCTTTTAGCCCAAAGTGAAAATGCCAGCATCGACAACGTGGTCTATGCCTTTGAAGCGAATGATTTGTCGGAGGAAGATGAAGCCTTGTTGGCCCAGGCCCTGCTTAAACTGGTCGCTAAGAACAAACAAGTCATCTTGATTCCGCGCACGCCGCACTTGATGGGTCTTCTGCCTTTGGAAGGGATCAAGATCATCAAGAAGGTTGCCGGCCAGCAGCAACTTTTGAGTGACAGCCAGATCTTGGCGGAAGTGTCTAGCAGCTTGGGCCTGGCGGCTGACCAGCGGGCGGTCAAGTCCCGCTGCGTTCTCTTGGTCGAAGGGCAGGAAGACGTCCGTTTTGTGACCAAGATCAACCAGTGGATGTATGAAGAAAAGCTGGTGGACGCGACTTTTGCTGAAAAAGGGCTCTTTATTTTACCGGTCGGGGGATGCGGCAGTCTGCTGGCCTGGCTGAATTTTGACCTTTTTTCTAAACTGAATGAACCTTGGTTCATCTTGATCGACTCAGACAAGGGGACGGATGAAGCTAAGCAGAGCCAGCGGCACTTGCACCGGATCAGGGCAAAGTATCCAGGGATGCAGGCACACATTCACGCGACTTTTAAGCGGGAGATTGAGAACTACCTGGTCTTTAAAGAGGGCAAGAAGACACATGTCTTTGCGCCATACGAAGACGTTAAGCAGCACATGTATGACTTGATGCAGCAGCGCCACCAAAGCTGGAGCAAGGATAAGACGGCATCTAAGTTGATGGAGCAGATGGATTTGGCTGATCTGCAGGACTACTATGAAAAAGACGGGCAGAAGCACCGGGAATTAGTAGAATACTTCTTGCAGATTGACCATTTTATCGATGGGTTGGCATAA
>LACTIS1119B1_07670 hypothetical protein
ATGTATCATGAACTGGCTTTACTGATCCGCTTTGTGGTCATTGCTGCTTGTGTTTTGGCAGGCTACTGGGCTATCCGCACGGGGAACTCCTTTTTGCGGCTGGTAGTAACGGTTATCTATGGCTGTGCTTTGATCTACTATGTGTTTGCCTCAAGAATGCTGACGGCTGCTGTCTACTACTGGCAGCATCCGGCACAAATGGCCGCCGGCTCAGAGGTTTTGAAAGACCCGGCCTTTTGGAAGTGGGGGCTGAAAAAAGTCTTTGCCAGCTCAAACTATGGCGGCCGCTACGGCTTTTTGATGAATGTTCTGCTCTTCATGCCCTTGGGTTACATTATTCCATCCTGGTCCAAGTGGCTGCATAGCATCATGATCACCACATTTATGGCCTTCTGCCTGTCCTGGTTTATTGAACATTTCCAGCGGATGACAGGGCTGGGCACATATGATGTTAACGACATGATCGCCAACACCATGGGTGCCTTCTTAGGAGCCGTAGCAATCATGCCGACCTTGTGGATGTGGGACATCCAGGCCAGAAAACTCCGCAAGGCCCGGGAACACGCGAAAGCTGAAGCCAAGGGGGAAGCAGAAGCTGCCCGTTTGGACCGGGTCAGCCGGCAACTGGCTAACCCAACTGAAAAGGTACCGAAGGTTAAGATGAGCCGGAAGGACTACCGGCAAAGACACGGCGACGAAGCCGATTAA
>LACTIS1119B1_07680 cell wall teichoic acid glycosylation protein
ATGGACAAAGAAAAAATCAATGAATTATGGGGCAAGTACAAGGATATCATCCCCTATGTCTTCTGGGGCGTCATGACCACCCTAGTCAACATCTTCTCCTACTGGCTCTGCAACAACGTCTTCAAGTGGGACATCATGCCAGCAACGATCATGGCTCAATTCCTGTCCATCGTTTTTGCCTACTTGACCAACCGCAAGTGGGTTTTCCACAGCCAGGCATCCACCTTTAAGGAATACGCCAGTGAAATCGCCAGCTTCTTTGCGGCCAGAATCGGGACTGCCCTTTTAGACATGGCCATCATGTTCATCTTCGCTGAACAAATGCACTTAAACAGCATGGTCATCAAGATCCTGGCCAATGTGGTTGTCGTTATTGTCAACTACGTGGCCAGCAAGTTCTGGATCTTTGAATCCAAGGATCCAGAATAA
>LACTIS1119B1_07690 putative integral membrane protein
ATGCGGAAAAGAAATATAATTTTAGCCTTTTTAGGATGCTTGGGGTCGGTCCTGCTGATCAGCGGCCTGACTTTCCAGAATTCCGGCCAGTCAGCCCAGCTGACCTTAAAGTTCGTCAACTTATTTGAGAAGGTTCATTTTCACTTGACCGGTACTATGATGGCTGAGTACCCGATTTACCACATGATGCGGAAGCTGGCCCACACGGCTGAGTACTTCCTGCTCGGCGCCAGTGCCTGCTACTTCTTCAGCCGCTGGCAAAAGCGCTATGCCTGGTCAGCCCTGGCCCTGTCAGCCGCCTTCTCCCTCTTTTACCAGACCAGCAAGCTGCTGGTTCCCGGCCGGGAATTCGACCCAACTGACTTTCCTTTCGATATCGCCGGCTACCTGCTCGGGATTGGTTTAATCCTCTTGCTCCAGCGGTCATGGGCCAAGCGGGCCGTCAACTAA
>LACTIS1119B1_07700 hypothetical protein
ATGGAGAAAATGTCAAAGGAAATCTTAATGAATACGAACAAATTTACAATTAGCTGGGGAGACTTCAGCCGCTATCGGAGCAGCATGTTTGGCCTTTCAATCATTGGCATCATGGTCTTCCACTACTTCGAACATATTCGCAGCGCCCACCTGCTTCTGAAATCAGAGCAGTTCTGGGACTACTACATCGGTTCGACCGGGGTTGACTTCCTCCTCTTTTTGTCCGGGATGGGCCTCTTCTATTCCTTGACTAAAAATGATGATATTTGCCAGTTCTACAAGAAAAGACTAGTCAGAATCCTGCCAGCCTACCTGTTTGTTTCGATGCCCTTTTTCGCCTGGCGGGATTTTATCCACTTGCACACAGGCATTTTGACCTTTATCAGGGATCTGCTCTTCCTCAATTTTATCGACCATGCCGATACAACCTACTGGTTCATCTTTTTCATCATCGTGATGTACTGCAAGTACAATATCCACTTTGACATCTGGCTGCCTCTGCCCTACTGGATCCGCTTGACCGACAGCCTCTGGGCCTTCCCATTGATGATCATTGGCCTTTATCTCTGCAAGTTGATCAACTTCACCAAGTTCCTGCAAGGCTTTGTCAAAATTTCCGGAGCCTTGTCCCTGGAACTGTACCTGGGTCATGTTTCGGCGCGGGTTTTCCTTACTGCCCACCACATGTCCCTGTATATTCTTTGGCAATACCTGGTCATGATCGGCCTCTCCTACCTGGGCAGCTTTATCTTAAAATGGATGGAAAACAAGATCCAAGGCCAACTCTTGCTACTGTCGCGTAAAAAATAG
>LACTIS1119B1_07710 hypothetical protein
TTGGATGTAAAAAATAATCTCCACAATAATAAGAGCAACTCGCGTAAATTGAATTTGCTTTACCTGGGCCTTTTGCTCTTCGTCACTTTGCTGACCACCCTTTATTTGGCTAGCAGCAAGGCAATCTTTGCCTTCTCAGACTGGACCTTCCACGCTGCCCGGGTAGAAGAAATCTACTTGAACCTTAAGTCCGGCTCCTTCTTCACCTTTATCGCGGCCAGAACTTTCCACAACACCGGGGCTGCTTCTTTCCTCTTTTACCCATATATTTTCTTTTATCCATGGGCCTTCCTGCGTTTTATTCTTTCCCCAGTCAACGCCTTTTACGCCTGGTACGCCCTGGTAACCTTTGCCACGGCTACAATCAGTTACTTCTCCATGAAGGCATACTCAAAGAAGTCTCTGGCCAGCTTTATTTTCTCCCTGGTCTATACATTTGCCCCTTACCGGCTTTACCTGGGCGGGGCAGTCTTTGGCGAATACCTGGCTGTAACCTTCCTGCCCCTGCTTTTCCTGGGCATCTATGAAGTCCTGTGGGGCGACAAGAAAAAATGGTACCTCCTGGCTATCAGCGGGGCACTGGTTGCTTATGCCCACATCCTCTCTGTCTTTTTGAGTCTGGAATTTGCCGTAATCCTCTTTATCATCAAGCTGATCACCAGCCGCGGCATCAGCAAGGATCGGATTAAGTCCCTGCTTTTGTCTGCCGGTGTCTGTGTCTTCTTGGTTTTGCCAGTAATCGTGCCTTTTTTCACTGACTTTATCGGCCAAGGGCTCTCCAGTGCCAAGCCTAGCATCAGCTACACCATGGGGCCACGCTACCTGCTCCTCAACTCCTTCTCTGCCCAAAAAGGCTGGAAGCTGAGCTTCATGCTGATGTTAACAATCCTTACTGCCTGGGCCTTTATTAAGAGCCGGCGGAACTGGATCATCTACGGCTTAGGCCTCTTTGCCTGCTTCTTGACCACCCGCTATTTCCCTTGGAAGCTCACTGCTGGCACGCCTTTTGAAATGGTTCAGCTGACTGCCCGCTATCTCTCCTACGCTTCACTTTTCTTAACCATCCTTTTTGCCCTGGGCAGCAGCAGCGTGCTTGAGGAGCATGTGACCGGCCGGAAAAAGCTGGCTCTCAGCTGCAGCTTAGCCGTCTTCATGGCCCTCTTCTCCCTTAGTTCCTTGTCAGTTTACCGGGATACCTTAAAGCATGTTCAAGACATGCCGAAAACCAGTGCCAACAGCACACAGCCAGCGCCATTCAAGCGCCTGCGCGACTATAACTATTACAACCAGTTCAACTACAAGATTCTCTTTGGCGCCTTTGACTATATGCCAAAAAGCTCACTGACCAGCGTGCAAAAGCAAAATTCTCTTTTAATGCACCAAGCCTACTTGAATGGCAAGACTTTAACCCTGAGTCCTTTAATCAAAGCCAATCAAATTTCTTACCAGGTCAAGAGTGAAAAAGCAGCTGATGTTGACTTGCCAGTAATTGCCTACAAGCACACCACTGTCAGCGTCAATGGGCAAAAGCATGCCTTCCGCCGCGGCAACCGGGGGACGGTTGTAGTTGGCCTCAAGCACGGGCAAAACACCGTCACGGTAGGCTACAAGGCCAGTCCTGTCTTCTACTTGAGCATATTCATCAGCATCCTCAGCTGGCTCGCCCTGCTTATCTACTTGGTCAAGTTCAAGGCCAAATATGCACAATAG
>LACTIS1119B1_07720 hypothetical protein
GTGGCTGGAACCACTGCCAGCACTGTAGTAGCATGGGTCGTAAACCAGGAAGCGGCCATTCTTATAACCAGCAATAACCTTAGCATGATGCTTATCACGGAAGTAAGTTTCGTAGCTAGAGAATCCATAGTAGAGAACCGGGTGTCCACTCTTAACGACAGACTGAATCTCTGCCATGCTGCTACCAGTAATGTTGGTGAAACCACCGTCAAACTTCTTCATATAGTTGGTTAA
>LACTIS1119B1_07730 hypothetical protein
TTGAACAATTCCTACAGTATGGCTGACACTACGCTCACTTTAAAAGAGCTGGCCAAGCTGATCTGGAAGAATCTGCTGCTGATCGTTATCGTCACAGCCTTGTTTGGCGGCCTGGCTTACGGGACCGCCAACTACTTGCTTCCAGCCAGATACACCGCCAGCATGGATTTCGTGGCCAAGGGCAAAATCACGCAAGGCGGCTTTACCAAGTGGCAGGCCAGAAGCCAAAACGAGCAGGCAGCTAACGTTTTTCAAAATATTGCCATCAGCCCTGGCGTCATCGATCATACCACCAATGAAATTGGCAACGTTTCGCCAGAGGCTCTGCGCAAGAACATTACCGTCTGCTCCACGCCCCGATCCAACACTTATACCTTGACTGTCACTAGTTCTTCGCCTGAAAAGGCCAAAAAGAAGCTTGAGGTTGTAGCCAAAAACTTCAAGAAAGAATTCAAACTTGAATACAAACAGGGCCGCAAGGCTATGCCAACCAAAAAGAAGAGGCGCATGTACTTAAAGCCAATCCTGCCAACTGTCCTGGTCAAGTCCATCAAGTTCAAAGATAAGACCAGAGTAGTGAAGAGCTACCCGAATGTCAAATTTGCAGCAGCAATCGGCACAGCAACTGGCTTCTTGCTAGCAACTTGGGGATCAATTTACTGGCGCCTGCGCAGAAGTTACCGATAA
>LACTIS1119B1_07740 hypothetical protein
GTGAAGTCTATCAAATCAGCCGGTGACCGCTTCTTCGCGGTCATGGCCTATATCATCGTCATTCTGTCAATCATGTCTACAACAGTCATGTGGAACTATTTAAAGGGAGCTTTTATCCCCATCGGGACTTACCGCTACTTATTACTAGCAATTAGCCTTCTTTTGGTTTTGGTAACTAACTCTTATAACTTCAAGGATCTGTCCTTTATCACCTTGATAATCTGTTACTTGTTAGTTTTCATCTTCTTCTCACAAATCAATCCTTTCAAGTACTTCTCAAATCTCTGCATGCCATTAACGGCATCGCTTTTGATTGTCTTCGTCTACTACCAGCATGGCAAGGGAAATCTGCTGTTAGCTAGCTATGCCAATATCGTCTTAATCGTAGCTGGCGTATCACTCTTCTTCTACTTCTTTGGCAGCATTCTGGGCCTGCGGATCGGAGCAATTGATACCAACTATTACTGGGCTGACAACCCCCACTTCACGACTAGCTACTGCTACCTTTACTTCCACCAGCCACTTCAAGACCAAATATACTTGGGCCATCACGTAATCAGAAATACAGGGATCTTTACTGAAGCTCCGGGCTACACCCTCTTCCTTTTGAATGGCTTGATCATCGAGCTTTTTGTTAAAAAGTCCAAGACCTTCTGGCGGATTGGCCTTATCCTGGTTACTTTACTGACAACCTTATCCGCAACCGCAATCCTGCTCGGGGCTTTGGCAGTCTTGCTTTCCTTCTTACAATACTTGCAAGCACAAGGAAAGCTCAACTTGAAGATCGTCATTCCCGTCTTCCTGCTCTTGCTGGTCTTAGGAGTTATCGTTATCCGAATCAGAAAATCTGGTGGTTCGTCTTACTCAGTCAGAGTCGATGACCTGCGCATCGGCTTGACTCTCTGGAGCCAAAATCCGGTCTTCGGGGTAGGCTTTGGCAATGAAGGGGCCTTGATCAAGATGTTTGCCTTCCACCGGGCCAACAACGGTCTGAGCATGGGACTGACCACCTTGATGGCTACCGGCGGGCTCTACCTGGCTCTTTATTTCCTGGTGCCATTCTTTACCACCCTCTTTGCTCCAAGTCGCCGCTACCTGTTACCAATCAGTATTTTATTGCTGCTGGAAATCATCATCTCCAACATTTCCACTAACCCAGTCTACTTAATGGCCATGGCTCTTCTCTGGTATGCCGTTTTAAACGATATTAGAGAGCAGGGAGCTTTTGCTGGGACTAACTACTATACCAGCCTGTACTTTTAG
>LACTIS1119B1_07750 glycerol-3-phosphate cytidylyltransferase
ATGAAACGCGTAATTACTTATGGAACATTTGACCTGCTGCACTACGGCCACATCAACCTGCTGAGAAGAGCCAAGGCCCAGGGCGATTATTTGATCGTTGCCTTATCTACTGATGAGTTCAACTGGAATTCCAAGCACAAGAAGACATACTTCTCATATGAACAGCGCAAGCAGCTACTGGAAGCCATCCGCTACGTTGACCTGGTCATCCCTGAAAATGACTGGGACCAAAAGCGCAGCGACATGCACGAATACCACATTGACACTTTTGTCATGGGGGATGACTGGAAGGGCAAGTTCGATTTCTTGAAAGAAGAAGGCGTCAACGTTGTTTACCTGCCAAGAACCCCTGAGATCAGCTCATCCAAGATTAAGCATGATCTGTATGACGCAAACGAGGTAACTGAAGAAAGCAAGTTGTCTCACGATGATTTGGACACTGATCCGGACCACGATAAAAAGTAA
>LACTIS1119B1_07760 lipopolysaccharide cholinephosphotransferase
ATGGACAATATTAAACTCAAGCTCTCAGAAGATTTTTTTAAAGAAGAAGTCAGAAACGACTATACAGTCAGCCCGGAGATGAAGAAAGTCTGGGCCGTGGAACTGGATCTTCTGGACCAGCTGGACCGAGTCTGCCAGAAATATGATATTCCCTGGTATCTGTCTGGTGGTTCTCTCTTAGGCGCTGTTCGTCACCAGGGCTATATTCCTTGGGATGATGATATCGATTTGATGATGTACAGGAAGGACTTTGAACGCCTCTGCGAAGTTGCCAGTCAAGAATTTACGGAACCCTATTTTTTTCAGACTGAAGAAACGGATACAGGATCTATACGAGGGCATGCACAGTTGCGTAATTCGGCTACCACTGCAATCTTAAAGTCTGAGGAGTACTTTCACTACCAGTTCAACCAGGGGATTTTTATCGATATTTTCCCATTGGACAATGTGCCAGATGATCCGGAAGAGCGGCAGGCTTTTGTCAAAAGCGTCAACCAGCTCAAACACCGGGCTCGGCAATTTTACAACTACTGCAACGGATATCCGAACAAGAATCTGTCTGGACTAAAGCAATTTTTGCTTTATACCAAGTTCTTTTTTGAAAAGAAAAAGAGCGGTGGACGAAACATTTATTACGACCGCTTTGCCAAGGAAATCACCAAGTATGATGACCAAGCTACCCAAGAGGTCATGATGGTCATGTTGGAGACAGAAAAGTGCTGCTGGAAGCGCGAGTATGTGGCCAATCCTGTCAGAGTGCCGTTTGAGATGCTCAGCGTGCCGATCCCAAAGGATTACGATCCTTTGCTGACTAAGCAGTACGGCAAGTGGAACATCTTTGTCAGAGGTGGATCAATCCATGGTTCAGTCATCTTTGATCCCGACAAGTCTTACAAGGAATACCTAAAATAG
>LACTIS1119B1_07770 flippase
ATGAATAATCCGAGCATTAAGAAAAACATATTCATTAGTACCTTATATCAGGTCTTATCTATAATTACACCATTAGTTACGGCACCTTACGTTTCCAGAGTCATCGGGACTGATGGGATTGGGGCCTACAGCTGGACTTCCTCAATTCAGACCTACTTTTCCCTGGTCGCGGCCTTGGGGACGCTTTCATATGGGATGCGGGAAATTGCCCGCAACCGCAACGATGTTAAAAAGCGGAGCCAGATTTTTTGGGAAATTGAGATACTGAGTGTTTTTACCTCCCTGGCCATGCTGCTGTTATGGGGAATTTACCTAGGCTTTCAAAGCCACTACCGGGTTATGTTCCTTATCTTGACCTTGAACCTGTTCAACACTATGCTGGACATCTCCTGGTTCTTTGACGGCTTGGAGCAATTCCAGTACACGGTGACCAAGAACGCCCTGGTCAAGGTGGCTGGGGTTATCTTGATCCTGCTCTTTGTCAAGAGCCCTAAGGATACCAACCTTTACGTCTTCATTATGACGGGGACGACCTTGCTGGGGACCATGTCTATGTGGCTGGAGCTGCATAAGTTCGTCGTAAAAGTTCCAATCAAACTGGTCAACTTGAAACGGCACTTCCATGAAACTCTGATCTACTTTATTCCGACCATTGCCACCTCCATCTATACTTATATGGACAAGACCTTGATCGGCTTCATGACCCAGAACAACGCGGAAAATGCCTACTATGAGCAGGCAACCAAGATCATCAATTTGACCAAGGCGGTGACCTTTACCGCCGTCAACAATGTCCTGGGGGCCAGAATTTCATACTTGTTTGCCAATAAGAAAGAGAAGGAAATCAAGCAGCGGATCCAAGGATCCATAAATTATATCCTTTTCATCGGAGTGGGGATCGGCTTTGGCCTGCTCGGAATTGCGGATACCTTTGTGCCGGTCTTCTTCGGTCACGGCTGGGATAAGGTGGCACTTTTGCTCCGTTTGTTCAGCCCGCAGATCGTGATCATCGGGATTTCCAATTGTCTGGGTTCGCAATACTACAACCCGGCTGGCCTGCGGAAGCAGAGCGCGGTTTACATTATCATCGGGGCAGTCGTCAACTTTGTCTTGAACCTGTTCTTGATTCCACGCTTTGCCAGTGCCGGGGCAACTTTTGCCTCAATCATCGCGGAATTGACAATCAGCCTGCTTTACCTTTACTATGACAATGGCTACTTAGAGCCGGTTTATATTGGCAAGGTGATCTGGAAAAAGCTGATTGCCGGAACTCTGATGATGCTGGTCATCCTGGCCTTGAATCCATTTGGCAATCCTAGCATCATCAAGCTGGGCATCCAATTTGTTTTAGGCGCGGGTACTTACCTGGCGACCTTATTTATCATGAAGGATGATTCTGTTGGCCTGCTTAAGAAGATTTTGGGCAGGGGATAA
>LACTIS1119B1_07780 hypothetical protein
ATGCTTAAGTATGCTGATTGCTTGATCGTTCACAACGATTCCATGAAAAATTTTTTTGAGGATCGTGGTGTTGACCCAAAGAAATTGGTTACGCTAAAAATATTTGACTATTTGATTCCAAATGGTGAAATTAACCATGCTAAATTTGAGAGATCCGTTTCAGTTGCTGGTAATCTGGATGTAAGTAAGACACAATATTTGAAAGATATTGGAAAGATAGATGCAAAATTTAATCTTTATGGGTTAAATTTTACTCTAGATGCTTACAAAAATGTTGAGTATCATGGCGCTTTTCCAGCTGATGAGATTCCAAATCAATTAAATTCAGGCTTTGGATTAATTTGGGACGGTAGTAGCATTGAGACTTGTGATGGCGCCTTTGGCAATTACCTACGATATAACAATCCTCATAAACTGTCACTGTATCTCGCTTCAGCTTTGCCAGTTATCATTTGGAGCCAAGCCGCTGAAGCTAGCTTCATCATTGATAACAATCTCGGACTAACTATTGACTCCTTGAATGATCTACCAAAAGTCCTGAATAAAGTGACAAAAGAAGAATACGAACACTTCGCGATCAATGCGAGAGAAGTAGCTAAAAAGCTCAGAAGAGGCGACTTCACCAAGGTTGCTTTGAAAAAAGCAGTTAAAGCTTCGGAAAAGTAA
>LACTIS1119B1_07790 hypothetical protein
ATGAAAAAGTATCAGATTTTTGATGTCTACAGTTCAGATGAAACGGCTTCTGGCAAGGCACCATCAGACATCAACCAAATTGCTGCAGCTGCAGGGTTTGAAAGTCTAAGATTGGTCCGAGTATGTTCTGAAAAGATGGATATCATATCTCGAGTACGCCGACAGTTACATTACTATTTTGCCTGGCCCCAACTTTACAAGCAGATTGAGCCGAACTCTATTGTACTTTTTCAAGCACCGTCGCAGAACTCTCAATTGCGGCGTGAGGAAACCTTAGCTAAACTTAAGAATAAAAAAACGTTAAGTTTATTTATTTGGTACATGACGTTGAAGAATTGA
>LACTIS1119B1_07800 hypothetical protein
GTGCCTAAGTCACAAATTATTAAAATTATGAATGGAGTAGACCTAGCTGCTTTTCGCTATGATCCTGTTGTCAGAAAGAACGTGCGAAATAAACTTGGCCTGTCAGGGAAGCACGTTTTAGGGCATATTGGTCGATTTTCATATCAAAAGAATCATCAATACCTAATACAAATTTTTGCTCAAGTTTACGCGCAGGATCCTAAAGCTCGGTTACTTTTGGTTGGAAAAGGGGATCTCGCAGACGTTTGCCGTCAGCAAGTACATGAACTAGGGTTAGATAAACAAGTTATTTTTTATGGATTAAGTTCTAACACTAGCGAATTATTTCAAGCTATGGATGTCTTTTTATTACCATCGCATTTTGAGGGACTGCCAATTGTTGGAGTAGAAGCTCAGGCTGCGGGAGTTCCAGTGATCTTTTCGGACCAAATCACTTGCGAAGCAAAAATGACTGATAATGTAGACTTTTTGCCAATAGACGAAGAAAGTTTGCCGGCTTGGTGTCGGCAGGTAATTACTGACTTGAAATTGGGGCACTGTGATAATTATGATATTTTGTCACGGAAGAAGATGGATATTACGGATACAGTTACTGCCTTTATCGAATTATATAACTCATAA
>LACTIS1119B1_07810 glycosyltransferase
TTGAAATCTGTTGCTGCCGTTGTTGTAACTTATAATCGGAAAAAATTACTTAAAGAAGCTATCGATGCGTTACTGTCACAGAGCTTACCGGAAGCTGACGTGTTAGTTGTCGACAATGCAAGCACAGATGGCACTAAAGAATATATTACTGATTACATTGTTCAAAACAAAATTGTCTATTTTAATACAGGCAATAATCTGGGCGGTGCTGGAGGATTTAATTTCGGAATGCGGCAAGCCTATGAAGCTGGTTACAAGTATATCTGGATAATGGATGATGATGCGATTGTAAAAAAGAATGCGTTAGAAGAATTGCTTCGAGCTGACCACCTGCTCAAAGGAAATTATGGCTACTTATCCAGTGCTGTCTTTTGGATTGATGGACAACCGTGTGTGATGAATCGGCCAAAATTGATTAAAGATTGGACTAGCGATCTAGAATATTTGTCTGACGGTTTAGTAAGAACATATTATTCAACTTTTGTTTCCTTTTTTGTCAAATCTGCAACTGTTAAGGAACTTGGCTTACCAATCAAAGATTTCTTCATTTGGGGCGATGACGTAGAATATTCCAACAGGTTGTCCAAAAAGTATCCGTGCTATGTAGTCGGTAAGAGTCAGGTCATTCACAAGACAAAGGACAACAATGGATCAAATATTGCTAAAGAGCGGGGGGACCGTATTGGACGCTATAAGTTTGCTTACCGAAATGAGTGTGTTATTGCCAGAGAGAATGGTATGAAGGGGAGACTGCGGCAATTTGCTAAAGTCAATTACAACATGTTGCGGGTTATTTTTACTAACAATCCACATAAGTTGAAGAAGCTTGGCGTGATTTTAAGTGCTTCGATTCAAGGGATCTTTTTCAGACCAAAAATTGAGTATGTTGAGGAAAAGAATGACTAA
>LACTIS1119B1_07820 UDP-galactopyranose mutase
ATGAGCAAGTATTTAGTAGTTGGTGCAGGTCTTTTCGGTGCTGTCTTTGCGCGCGAAGCAGCCAAGCGGGGCTACGAAGTTACGGTGATTGAAAAGCGTGACCACATCGCCGGCAATATCTACACCAAGGAAATTGACGGCATCCAGGTCCACCAGTATGGAGCCCACATCTTCCACACTTCCAACAAGGACGTTTGGGAATATGTCCAGCAGTTTGCGGAATTCAACCGCTACACCAACAGCCCGGTAGCCAACTACAAGGGCAAGATGTACAACCTGCCTTTCAACATGAACACCTTTACTCAAATGTGGGGTGTCCGGACGCCGCAAGAAGCCATGGACAAGATCAACGAGCAGCGGGCTGAAATGGCGGGCAAGACCCCGCAAAACCTGGAAGAACAAGCTATTTCTTTGATCGGCCGCGACATTTATGAAAAGCTGATCAAGGGCTACACGGAAAAGCAGTGGGGCAGAAAGGCAACTGAACTGCCGGCCTTTATCATCAAGCGGGTGCCAGTTCGTTTGATTTACGACAACAACTACTTTAACGACGACTACCAGGGGATTCCTAAGGGCGGCTACACCAAGCTGGTGGAAAACATGCTTAAGCATGACAAGATCACGGTTGAACTGGATACTGACTTTTTTGCCAAGAAGAACGAGTACTTGCAAAAGTTTGACAAGGTAGTTTACACTGGCCCGATCGATGAATTCTTTGGCTACAAGCTGGGTGAACTGGAATACCGGTCCCTCCGTTTTGAAACTGAAGAAAAGGACGTGGGTAACTACCAAGGCAATGCGGTGATCAACTACACCGACGCAGAAACGCCTTATACCCGCGTCATTGAACACAAGCACTTCGAATTTGGCAAGGGGGATCCGGACAAGACCATCATTACCCGGGAATATCCAGCTGACTGGCACAAGGGCGATGAACCTTACTACCCGGTCAACAATGACAGAAACAACGACCTGTACGCTCAGTACAAGGAAATGGCTGACAAAGAAGATGCCAAGGTCATCTTCGGCGGCCGCCTGGGTCAGTACAAGTACTACAACATGGACCAGGTCATCGCGGCTGCTTTGGAAGCTGTTAATGAGGAATTCGGTAAGTAA
>LACTIS1119B1_07830 glycosyltransferase
GTGAAAATTAAAGTATTAGTCGCGGCCCACAAGCAGTTCCCGATGCCGGACGACTCTGTCTATCTGCCGGTCCTGGTCGGGGCGGTTAAGAACTACAAGCCAGGAATCGATTACCAGCGCGATGATGCTGGTAAAAATATTTCGGCCAAGAATCCCTATTACAATGAACTGACAGGGATCTACTGGGCCTGGAAAAACTTAAAGGACGTTGATGCGGTGGGCCTGGTCCATTATCGACGATATTTTTACGTGTCCAAGCCCCATGACCTGGACCACGTGGCTAAAGGAGCCGATTACGAGCATTTTTTGGCTGACCACGACGTGATCGTGCCCAAAAAGCGGAATTATTACATTGAAAGCAACTACGACCACTACATTCATGCCCATCCGGCAGAGCCTCTGGATAAGACCCGTGAAATCATCTCGGCTGACTATCCGGACTATCTGCCGGCTTTTGACATGATGATGAAGCGGCGCAGTGCCCACATGTTTAACATGTTCGTCATGAAGAAAGAGCAGTTTAACGATTACTGTGAATTCATCTTCAGCGTTCTTAGCAAGCTGGAAGGGCAAATCGACATTTCCAGCTACTCAGTCCAGGACCAGCGGGTCTATGGCTATATTTCTGAAAGATTGATGGATGTCTGGCTTTACACGACCAAGCAGAACTACACTGAGATGACCTGGAGTCAGCTGGGCGGCGAAAAGAAGATCAAAAAGGGGATCAACTTGATCAAGCGCAAGCTTGGTATCGGCAAGAAGCAGACCCACTTTTAA
>LACTIS1119B1_07840 hypothetical protein
ATGGACGCTGAAGAAATTCTCAAAAGCGATCCAGAACTTTACCAAAAGTACGTGGACAACGACTATAAGCTGCTGGCTGATGAAGATCCGCGAATCACGCCGATTGGCCGCTGGATGCGGCGGACCTCAGTTGATGAGTTGCCGCAGTTCGTTAATATCCTTAAAGGTGATATGAGCATCATCGGCCCCCGCCCGGTGGTTAAAAAAGAATTGGCTGAATATGGCAACCGCAAGGATAAGTTCCTTTCAGTCAGACCTGGGGCCATGGGGCTTTGGCAGGCAACGGGCCGGAGCAATATCAGCTACCCGGAGCGCTGCGACGTTGAGCTGGAATACATCGACAATATCTCTTTTACCTATGACGTAAAAATTTTCTTCCAGACAATTTTCAGCATCTTCAAAAAAGAAGGGGCTTACTAA
>LACTIS1119B1_07850 LytR family transcriptional regulator
GTGAATGAGAAAAAGTTAAATACAAGAACTGAGAAGCGGAAGAAACGCAATAAGTTTTGGCGGATCTTCTGGATTGTCGTTGGGGTATTCGTGGTTGGCCTGGCTGGATTTGCCTGGTATGAATACAGTTCAGTTAAGAACGCGGCCAATACTGCTTACCGTTCAGGCGGGATCAGCAGCGCGGAAAACGGGAGCAAGAACGACGTCATCAGTAACAAGAAGCCGATGGCAGTCCTCTTGATGGGGACTGACACCGGGGCTTTGGGCAGAACATACAAAGGCCGGACCGACTCCATCATGGTCGCGGTCTTGAACCCAAAGACCAAGAAGACCACCCTGGTCAGCTTCGAACGTGACATTCAAGTCAATCTGCCGGACTATCCGGAACACTCACCGTCTAAGTTGAACGCGGCTTACGCATACGGTAATGCTGGTGAACTTGCTAAGGTGCTGAAGAAGTACTTCAACATCCCGATCAATGCTTACGTGTTGGTTAACATGGGCGGGCTTAAGACCATCGTCGACAAGGTTGGCGGGGTTGACATCGCGCCGGTTCTGAGCTTCAGCTACGAAGGCTACACCTTCACCAAGGGCCAGAAGACCCACATGGACGGGGCTAAGGCTCTGGCTTACAGCCGGATGCGGTATGATGATCCAGAAGGTGACTACGGCCGGCAAAAGCGGCAGCGGCAAGTGCTGCAGGCCCTGGTCAAGAAGGCCGAATCAGCCCAGACGCTGCTGAACACCAGCTTTGTTTCATCATTGTCCAAGCAGGTTCAAACTGACTTGACCTTCAGCGACTTGACTTCCCTGGCATCATCGTACTTGCCAGCCACGAAGAATGTCGTAACTGACTACACCCACGGCACTGGCTTTATGCAAGATGGCGTATCTTACCAGCAAGTGTCTACGACGGAACGGCAAAGAATCAGTGACTTGATCAGAAAAGCCATGGGCCTCAAGACAAAGTCAGTTCAGTAA
>LACTIS1119B1_07860 LytR family transcriptional regulator
GTGAAGACTTTGAAAAATGACAACGATGTAAATACCAGAGTTGGCAAACGGAAGAAGCGGGGCAAAACCAAGCGTATCTTCTGGGGTATTCTGGCCGTTCTTTTGGTTGGGATTGCCGGCTTTGCCTACTATGAATATCATACGGTTAAGAATGGGGCAGATTCAGCTTACAAGTCTGGCGGCATTAGCAGTGCAGAAAACGGAAGCAAGAATTCCGTCATCAGCAGCTCCAAGCCGATCGCAATCCTTTTGATGGGGACGGACACTGGGGCTTTGGGGAGAACTTACAAGGGCCGGACCGACTCGATCATGGTCGCGGTCTTGAATCCAAAGACCAAGAAGACGACTCTGGTCAGCTTCGAAAGAGACCAGCAGGTCAACTTGCCTGACTACCCGGACAAGTCGCCTTCTAAGTTGAACGCGGCCTATGCTTACGGCAATGCCAAGGAATTGGCTAAGGTCTTGAAGAAGTACTACAATATTCCAATCAATGCCTACGTCTTGATTAACATGGGTGACCTTAAGACCATCGTCAACAAGGTCGGCGGGATCGATATTGCTCCGGTGCTGTCTTTCAGCTATGAAGGCTACACCTTTACTAAGGGTAAGACGACCCACATGAATGGGGCCAAAGCCTTGGCATATTCACGGATGCGCTATGATGACCCGCAAGGTGACTATGGCCGGCAAAAGCGGCAGCGGCAAGTCCTTTCAGCTCTCTTGAAGAAGGCGGAAAGCGCGACGACTCTGCTTAATTCCAGCTTTATTTCCTCCCTGTCCAAGCAGGTGCAGACTGACTTAACCTTTGCTGATTTGACCTCTTTGGCTAAAAATTATCTGGCAGCTACAAAGAACTTGAAAACTGATTACACCCACGGTACTGGCTATATGCAAAACGGGGTTTCCTACCAGAAGATTTCTGTTTCTGAGCGGCAGAGAATCAGTAACTTGATCAGAAAAGCCTTGGGTATTAAGACTAAAAAGGTAAGCACAGACTCAAGCGATACTTCTACTAGCAGCTCAACCAGTTCAAGCTCAAGCAGTTCTGCCGGAAATACCCCTGGCAGCAATGCTAGCGGTTCAACGACTGCTCCTGGCTCTGATACTAATACTGGTTCCAACTATAATTCAAATTACGGGTCTAATTCTAATTCCACTTATAATTCCGGCTATGGCACGCAGGACAGCAGCCAAAATATGTACGGTCAAAACACTGGTACCGGCTACTAA
>LACTIS1119B1_07870 hypothetical protein
TTGGAGGAAAAACTTAAGGTTATGAAAAAGGAAGAAAAGAAACGCGGCCTGTTCGGCAAAGATTACTTGATGCTCTCGGCAATGACCATTGGTTTGCTTGCTGGCGCGGGTAAGGCACAAACTGTTAAGGCTGATACTGTTGAAAAGGCAAAGACTGAAGTCAAGGCAGCAACTACTGCAACCACGACTACCGCCAACACTACGGCTGCTCCGACTAACACTACTACAGCTGATACCACGACTGCAACTAATAACAATACCGCAGCCGGCACTAACAACACCAATACCGCAAATAACGGGACTGCCAACACTGTAACTGGCAACACCAACCAAGCTACTACTGGCACGACCACTGGCACTCCGGACCCAACTAACCCAGGTTCAACCGGCACGACCACTGGTACTCCGGATCCAACCAACCCAGGTTCAACTGGTACCAACACCGGCACTAAGACTGATACTAAGAGTACTGGTAACACGACTGACAACCCGGGTTCAGCCAGCGACAACACCCAGACTCACCCAGGCTCATTTACTGGCAATACCTCCAGTGATGAAACTTCAGAACTTGGGAAACAAAACGTCAGTGAAGATGTTTCAAACGAAAACATTGGCGAAGGCTCAGTTATCAACAGCTATTTGACCACGCAAGCTGCCAAGGACAACTACGCCAAACTGAATGACACTGGTAAGAAGATCGTGGCTGCTGCTTTGAGAGAAGGCAGCACCTTGGACCTGGACAAGCTGACTGACACACAGATCGTTGCTTTGAACAAGATGGTTCTGAACAAGACTGAAGACAACCAGTATACTTTGAAGGACTACGACTCAATTACCAAGAAGATCGTTGAACGCGACAGCAGCTCCCAAATTCCGCTCTTCAAGGGAGAAAAGATCGTCAACATGCCAGGTTTGGACAAGGTCAAGGACGCGGAAACCGGTGAAGAAGCAACCATGGACATCTGGGACTCCTGGCCAGTCCAAGACCCAGAAACTGGCTACGTGCAAAACTGGAACGGCTACCAGCTGGCTGTGGCCATGATGGGGATTCCGCACAAGAGCGACAGCCACTTGTACCTGCTTTACAACAAGTATGGTGACAACAACTTTGCTAACTGGAAGGTTGCCGGTTCAATCTTTGGCTACAACAATGACCCGAAAACTGGCCAATGGTCCGGTTCAGCTATGCTTAACGCTGACGGCTCAATCCAATTGTTCTATGCTAACGTTCTCGCCCAAGAAAGCAACAACCAAAGAGTTGCCACTATCACGGTCAACATTGGCGAGAACGCTGACGGTGTTTACATTAAGAGCACTGAAAACGACCACATTCTCTTTATCGGTGATGGTACTGTTTACCAAAACTATGAACAGTGGAAGAACAGCGAAAACCGTGGGGCCAACAACCCGCAAATGCGTGACGGCCACGTCTTCAAGGACAGTGACGGTACTTACTACCTGGCCTTTGAAACTGCTACTGGTGATCTCGGTGACGACCCAGAAGGTGCTGATAACTTGTATGACTGGAGCAGATACGGCGGCAACGCGGCTTACAACGTAAGTGAATTGTTCAAGTTGCTCAACAGCACCGACATGAACACCAGAGCAGCAGTAAGCAACAGTGCTATCGGTTTGCTCAAGCTTGACATGAGTGACCCTAAGAATCCTAAGGTAGCTACTGACGAAAATGGCAAGCAAGTTCTGTACAAGCCGCTTGTTAAGACTGTTCTGTCCGGTGACGAAATCGAACGACCAGACTTAATCAAGTTGAATGGTAAGTACTACCTCTTCGTTGATGCCCGGGTCAACCATGCCAGTGACACTGACTTTGCTGTTCAGGCTAACATTGCGGTTGGGGACAACGTTACCATGCTGGGCTTTGTTTCTGACAAGGTAGACGGCGACTACATTCCTCTGAACGGTGACGGTCTGGTACTTGGCGCGTCTGTACCATCAACTTGGCGTACTGCTACCTACTCATATTACGTAGTCAAGATCAACCCTGCCAACTTGAAGAGCGACAAGATTACGGTTAACGGCGTAACTTACGACAAGGACTACTTCGTTAACCACGTTGTTTTGATTAACTCCTACATGGGTAATCGGGGTGAAATTGCCGGCAAGGGGCTTAATTCAACTCTTGGGCCAAGCTTCCTGGTTTTGGTCGATGGTGACAAGACGACTGTCTTGGCCAACTCAACTACTGACCAAGGCGTTTGGGACTGGAACGAAAATAGTCCTAAGCCTGAACTGGCAGCTGCATCCTTAAAGGAAGCCAAACGGTCAACTGACAGTTACAGCTTCCAAGTTAACAAGGACGGCTACTGGTACCTGTACAACGATTCAACCGATGACGGCTCAATTAAGATGCAAACTGGTTTCCAATACCTGGCTGGCCAAAACAAGACGGTTTACTACGACCCAGCAACTGGCCACATGCTCTACGGCTTCCAGAAGATCAATGGCAAGACTTACTACTTTGCTCCAGGTTCAGGCGCAAGATTTAGCGGTCAAATCAAGCTTAGCGGCTACTGGTACCTCTTTAGCGATAAAGATGGCGTAATGCAAACTGGTTTCCAATATCTGGCTGGCCAAAAGAAGACGGTTTACTATGACCCAGCAACTGGCCACATGCTGTATGGTCTGCAAAAGATCAATGGTAAGACTTACTACTTCGCTCCAGGTTCAGGCGCAAGAGTTACTGGCCAAATTAAGATCAACGGCAAGTGGTACATGTTTGACAAGAAGACTGGCGTAATGCAAACTGGCTTCCAGTACATTGCCAGCCAAAAGAAGACTGTCTACTACAGCCCTAAGACTGGCCAAATGCTGTACGGCCTGCAAAAGATCAATGGCAAGTGGTACATGTTTGACAAGCGCTCAGGTGCCAAGATCAGCTACCAAACGGTTGGTACTTACATCCGTCTGAAGCACAACGCCGCTCTTTACTCAGCTAAGGGCAAGAAGACTAAGGCTAAGAGTTACAAGAAGGGTCTGTACACCAAGTCTGTTGGTATCCGGATTATCAAGGGCAAGGTTTACTACAAGCTCAGCAATGGTAAGTACATCAAGGCTGGCAACATTACTGTCGGCAAGAAGCGTACTCTTAAGAAGAATGCCTACATCTATGTCAAGAAGGGCAAGAAGGTAAAGGCACTTAAGGGCGTGCAAAAGAAGGGCAGCACGAAGTACACTTACGGCTCTGTTGTGATCTTCCAAGGCAAGAAATTCTACGCAGTAGCCAGCGGCAAGTACATCAAGTCCGCAAACTTCTAA
>LACTIS1119B1_07880 DNA-entry nuclease
GTGAAGAAAGCAATGCAAAAATTAACGGCCCTCCTGCTGGCCTCAGCCAGCTTCCTCGTGGCCAGCCCCGCCAAGGCCAGCAGCCTGGCTGACCGCAACTACCAGGGGCAAAAAGTTGTCACCGTCAACCAGGACCGGCCAACTTTTTCCAAAAAGGCCCTGTCGACTAAAAAGGGGGCCTGGCAGAGCTACCACAAGCTGGACTCTTTAAACCGGGCCGGGGAAGCCGATGTCCTGCTGAACAAGCGGCTCATGCCGGCCAAGGCCAGAGAGCCCCTTTACTGGAACCCAACCGCCTGGCACAACAAGAAGATCGCCGGCGGCTGGCTCTACAACCGCAGCCACCTGATCGGCTACCAGCTGACCGGGCAAAACAATAACCCCAAGAACCTGATCACCGGGACCCGGCAATTAAACGACCCGGGCATGCTCAAGTACGAAAACCAGGTGGCCAGCTACATCAAATCCTCCAGCCGCCACTACATCCGCTACCGGGTCAAGCCAATCTTTCGCGGCCGGGAGCTCCTGGCCCGCGGGGTTGAGATGGAGGCCCAGTCCACTGGCTCTAACGCTGTCCGCTTCCACGTCTACATCTTCAATGTCCAGGACGGCGTCAAGCTCAACTATTCAAACGGTACCAGCGTGGTTACCGGCGCGGCGAAAAAGTCTGCCAAAAAGACAGTAGTTAAAAAGGCCGCTGCTAAAAAATCCACATCTTCTAAAAAGAAGATCAAGACTTCTACCACCGGCCGGATCGTCGGCAACCGCCGGTCCAAGATCTACCACGTTCCAGGCCAGGCCGGCTACCACATGAATTCAGCCAACGCGGTCTACTTCCGCACCGAAACTGAAGCCAAAAGAGCCGGCTACCGCCGGGCACTGCGCTAG
>LACTIS1119B1_07890 hypothetical protein
ATGAAGGAGAAGAATTGGCTGACCTGGCTGACGGTCTTGGCCCTGGTGGTGGGCTTTGTCGCCATGGGCGCCAGCATCTGGCTGAGCGCGCAAGCTGCCAAGCAGACCCAGAGAAACAGCCAGCTGGCCGGCCAGCTCTACCAAGCCAGCCGGACCAAGAGCCAGGAAGCTTCCAGCATCAAAAAGCGCTTGGACAAATTGGCGAGCGATAATTCCAGTTTAAAGAAGAAAAATTCCCGTCTGGCCAAGGAAACCAGGCACTTAAGCAGGCCAACCAGGACCTGTCAGCAGCCAGCGCGGCCGCGGGATTAA
>LACTIS1119B1_07900 XRE family transcriptional regulator
ATGGAAAAGAACATGATTGGCAAGTATTTGCGAGACCTGCGCCGGCGGCGGGGGATGAGTCAGCAGGAGCTGGCCCTGGCCTTGGGAGTAAGCAAGCAGACCATCTCTAATTGGGAGGTTGGCCGCAAGGTACCGCGGATGAAGGCTGTTGAGAAGATAGCGAATATTTTTGGCGTGTCTAGGAACAGCATTCTGGCCGGGCTGCCGGTAGAAATGCTGGTGCAGGAAGGGCAGGAAGACCGCGGGGTGGTCGACTTGACCGACCGCGATATCCGTTTGACCTATCTGGGCCAGCAGGTGCCGCGGGAATATATTGACATCATTGAGAAGCTGATGCGCTGCGATATTGCAGAGCGCGATGCTCAATAA
>LACTIS1119B1_07910 glycerol-3-phosphate dehydrogenase
ATGGCAAAAATCGGTGTTTTGGGAGCAGGTACTTGGGGCATGGCACTGGCCCGGATGCTCAGCAACTCTGGTCATGAAGTGACCGTCTGGTCAGCCCTGCCGCAAGAAGTCGACGAACTTTCAAGAACTCGTCGCCAGAAGAACCTGCCAGGTATGGTTATTCCTGACGAAATTAAATTCACTAAGGAAATTGCGGAAGCCTGCCAAGACAAGGACATCATCCTGTTCGCCGTACCATCAGTCTTCGTCCGCTCAACTGCCAAGACTGCCGCTGCCTTTATTCCAGACGGGCAGATCATCGTTGATGTGGCTAAGGGGATCGAACCAGACACCCTCTTAACTTTGACTGAAGTCATCGCTGACGAATTGAACAAGGACGGCAAGCATGGCAATGTCCACTACGTTGCCATGTCTGGCCCGACCCACGCTGAAGAAGTGGCCAAGGACCTGCCAACCACCATCGTTTCCGCCTGTGAAGACCAAGCTGTGGCTGAAAAGGTCCAGGATGTCTTCATGAACAAGAACATGCGGGTTTACACCAACTCTGACCGCTTGGGCGTTGAGCTCTGCGGGGCCTTGAAGAACGTAATTGCTTTGGCCAGCGGGATCTGCTCAGGCCTGGGCTACGGGGACAACATGCGGGCTGCCTTGATCATCCGCGGGATGGCGGAAATCAAGCGCCTGGGCCTTAAGATGGGCGGCAAGGAAGACTCCTTTGACGGCCTGGCCGGCATGGGGGACTTGATTGTCACCGCCACCAGCAAGGAAAGCCGGAATAACAATGCCGGTTACTTGATCGGCAAGGGCAAGAGCGCTGAAGAAGCCAAGAAGGAAGTCGGCATGGTCGTTGAAGGGATCAACGCCATTCCAGCCGCCTTGGAACTGGCTGACAAGTATGACGTGGAAATGCCAATCGTCTTCGCCGTTGACGCCGTGGTCAACCGCGGTGCTGATGCCCGGGAAACCGTTGACGCCTTGATGCTGCGGGAAAAGAAGTCAGAAATGACCAAGTAA
>LACTIS1119B1_07920 hypothetical protein
ATGTTTAAACAGCTTAGGAAAGCAAGCCAAAACGACTACTTGCTTATCACGGCTACTTTGATTTTGTTGGTCGTCTTCAACCTCAGCTTGCTCAGTTACGTCCAGGGACAACAGAAAGCAGCCGAGCGCGACCAGGCCAAGGACTATGAAGAGGCCTTGAAGTTCGCCGACGCGGCCTTGTATGAGGTGAAAATTGCCGGCAAGAACAATTTTGCCAGCTACAAGTCCAGCTTGACAGAGAAGAAGCACCACAACCAGCTGGGCCTGGGGTTAAGAGCCCTGGCGGCGGGCGACCCGACTCCCCTTTTGGGTCATGCAGATGGATACTAA
>LACTIS1119B1_07930 hypothetical protein
ATGCAGATGGATACTAAAGAAGCCATCTACGTTAACAAGAGCCTGCTGGAGCTGTTTGGCTGCGAATTGTCGTCAGAATTCTACGACTATTATGGCCAGTCCCTGCTCAACCTGATTTCCCCGGGCGACCAGGCCAGGGTCAAGGAGGAGTTTACGGACTTTGTTGAGTCAGCGGTTGATGAAGAACGCTTTAGGGGCGACTGCCAGATTTTGACGGCAGATGCCCGGACCTTGCGCGTCTTCTGCGACATGAAGTATTCTGTCAACCAGCGCTATGGCGCCTTGGTTTACATTAGTTTCGTCCTTAATTAA
>LACTIS1119B1_07940 hypothetical protein
GTGCTTGATGACAGAGCCTTTATTTTTGCTCAAATTAATTACTTAGCTGAGCTAGTTGAAGATGCTGAAGTTGACTTTGCGCTAGCCTTCTTAGTTGACTTCTTGGTAGTCTTAGCTGCCTTCTTGGTGTCCTTAGCTGCCTTCTTAGTAGTCTTAGCTGCCTTCTTAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTGACTTCTTGGTTGCCTTCTTTGCATCCTTCTTAGCTACCTTCTTGGTAGCCTTCTTAGTTGACTTCTTTGCAGCCTTCTTAGCTGACTTCTTTGCAGCCTTCTTAGTGCTCTTCTTAGCTGACTTCTTTGCAGCCTTCTTAGTGCTCTTCTTAGTGCTCTTCTTAGCTGACTTCTTGGCAGCCTTCTTGCTTGATGATGAAGCTACTGAAGAGCTACTCTTTGAAGCTTCTGATGAGCTTGAAGCCTTTGATGATTCTGGTGAGCTAGTCTTCTTTGATGAAGTTGCTGAGCTTACTGAGCTGGTCTTCTTTGATAAAGATTCAGCAGCAGTCTTGTTGCTTGATGATGAAGCTGCTGAAGAACTGCTCTTTGAAGCTTCTGATGAGCTTGAAGCCTTTGATGATTCTGATGAGCTAGTCTTCTTTGATGAAGTTGCTGAGCTTACTGGGCTAGTCTTCTTTGATGAAGATTCAGCAGCAGTCTTGTTGCTCTTAACTTCAGTCTTGTTTTCAGTTGCGGCCAGAACTGGGCTTACGCCAGTAGCCAGCAGAGCAGCAGCAACAGTAGCTTTACCAAGGTTTTTCATTAAACGGTTGTTCTTCATAATACGGTTCCTTTTCCTATATCGGCATCAAAACAATTTTCATTACTTGCCCTTAATTATACTCAACTATTGA
>LACTIS1119B1_07950 hypothetical protein
TTGGAAGAAAACAAGCTCTTCTTCACAATAGACTTCGTCAAAGACCTGCTAGATCAGGCATATAACTCACATGACGAAGTGGAAATGTGCGTCAGACTTGAAGAGATCATAGATATCTGTAAGGCAACTGAAAATAGTCACTTTATTTGGTTTGCACGTCTCTTATACCGCCATTTGAGAGGGATCTACACGTTTGCCAAATACGGGATATCAACTGGCAAATTTGAGGGTATTAACAATAAGATCAAGACCGAGAGACGTAAAGGGTATGAGTATCCAGATGATGAATGCTTCTTCCTGCGGTTAATGGAGAGCTATCACGGAAGGCTTCCTAAGTCTCTCAATCATTTACACAAGTTTTTATACTGA
>LACTIS1119B1_07960 hypothetical protein
ATGCAATTTACCAAGCAATTTGAAGGAACTTTTGCCCAAGTCAAGGAACAAATCGACAAGTTCGTTGCTGAAGGCGGCCATATCGACGCGGTCATCACCGACCACACTGGCGAAAAGGTTACCGAAGACCACACCTTTGGCTACAAGATGCGGGTCATCGCTATCTGCAGCGAAGAAGAAAGCTAA
>LACTIS1119B1_07970 hypothetical protein
ATGGCAAAGAAAGATTACAGCGGCCTGGCGAAGACGATCATCGCCAACGTCGGTGGCAAGGAGAACATCAACAGCTTGATTCACTGCATCACGCGCCTGCGTTTCTACCTTAAGGATGAAAGCAAGGCCAACGATGAAGTTTTAAAGGAAACTGACGGCGTTATCGACGTAATGCACGCTTCCGGCCAGTACCAAGTGGTCATCGGCAACGCGGTTACCCAGGTCTACGACGCCGTGATGGCGGAACTGGGCGGCCTGCCAGAAGGCGGCGAAGCAGCCGAAACTGCCGAAACTAAGGAAGATGATGGCAAGAACCCGGTTTCCAAAGCTTTTGGCAACTTGATCGGCTTCATTACTGGCTCCATGAGCCCGGTGGTCGGCGTTATTGCTGCTTCCGGTATCATCAAGGGGATCCTGGCCCTCTTGACTTTGCCGCAATTAGGGGCCCTTTTGAACGTGAAGAGCACGGCTTATATCACGGTCAGCGCTATGGCGGACTCAGCCTTTTACTTCCTGCCAATTTTGGTTGGCTTCGCCGCTGCTAAAAAGCTGAACGGTGATCCAATCGTGGCCGCGGTAATCGGCGGGGTCCTGACTTACCCGCAGCTGGTTACTTGGGGCGGGCAGTACAAGACCATGTTCAGTCTGGGGGGGTTCAACTTCCAGTTCTTGAACTACACCTACTCAATCTTCCCGATGATCCTGGCCGCCTGGCTGGCTAAGAAACTGGAAGACTGGCTGAGAGACCACCTGCCGGATTACCTGCAGATGATCTTCACGCCGATGATTACCATCTTGCTGGTTTCAGCAGTTACCTTGATGATTACCGGTCCGGTGATCCAGGGCGTGGCCAACGGGATTGCGGACTTGATCAACTGGGTTGTTTCAGCTTCTGGTTGGATCGGGGGTCTGTTGATCGGTGCCTTCTACCAAGTTCTGGTTATCTTCGGTTTGCACTGGGGCGTTGTGCCGCTGGTTGCCCAGCAGATTGCCCAAAGCGGCCAGAGTTCATTGAACGCGATTATTTCTGTGACTATGGTTTCCCAAGGGGCGGCAGTTTTGGCTGTAGCCTTGAAGACTAAGAAGAAGGGGACCAAGACTTTGGGGATCTCCGCAGCTGTTTCAGCCTTCTGCGGGGTTACGGAACCAGCGATCTACGGGATCAACCTGCGCTTTAAGAGGGTCTTTATCTCCGGTTTGATCGGGTCAGCAGTCGGCGGTTTGATCACTGGCTTGATGCACGGGACCATGTACGGCTTTACTGGTTCTTTGATCGGTTTCTCATCCTTCTTCAACCCGAAGAATCCAAGTGACTTGACTAGCTTCTACGCCTTCCTTCTGTCCAGCGCGGCAGCTCTGGTAATTTCCTTCATCGTGGCCTGGGTTTGGGGATACAATGACGAAATGGTTGCCGACAAGAAGGTTGAAAAGAAGCAACGGCCAGGCAGTGAAGCTAAGCAAAAGAGCGAAACTTTGACTGCTCCGGTAGCTGGCAAGGTGATTGCTTTGTCAAGCGTCAACGACCCAGTTTTTTCAACTGGTGCCATGGGTGAAGGCTTCGCGGTAGTGCCAACTGAGGGCGTGGTTAAGGCTCCGGTTGACGGTGAAGTAGCAGCCTTGTTTGAAACTGGCCATGCGATTGGCCTGAAGACTACGGCCGGCGCGGAAGTGCTGATCCACATCGGGATCGACACGGTTATGCTTAAGGGCAAGGGCTTTAACGTCAAGGTTGCGCAAGGTGACCTGGTTAAGGCCGGGCAAACTCTGATCGAGTTTGACCTGGACGGCATTAAGGAAGCCGGCTACGACCCAACGGTCATGACGGTAGTTACTGACAAACATGACGTGGACATTAAGTTGCCAAGCGTTGAATAA
>LACTIS1119B1_07980 GntR family transcriptional regulator
ATGACTGCCAAGCAAGACATGATTACCCAAGACCTGGCCGGCAAGATCCGGCACGGGATCTACCCGCCCAAGAGCTTTTTGCCCAGCGAAAACGAACTGGCCAATCTCTACGGGGCATCCCGGAACACGGTCAGAAAGTCCTTGGAAGACTTAACCAGCCTGGGATTAATCCAGAAGATCAAAGGCAAAGGCTCGATCGTCCTCGACTTTTCCCGCTTGAGCTTCCCAATTTCCAGGATCACGACTTTTAACGAACTGAACCAGTCCCTGGGACTAAAAGCAGAGACCAAGCTTTTGGAAATCAAGGAAGTCAAGAAAGTTCCCGACGACTTCAGCTGCGACAACACGGAGCCTTTTATCAAGGTCAAGCGGCTCAGAATCATTGACGGTGAGCCGGACGTTTTAGACGTAGACTACATCTCCACCAAGTACGTCAAGGAAATCAGCCCGTCTGTGGCGGAACATTCCTTATATGACTACTTTGAAAACGAGCTGGGCCTCAAGATTTCCTACGCGGTTAAAGACGTCAGCGTGCAGACCGTGAGCGAGGAATTAGCCAAGATGCTGGAATTGGACCCCGACCGGAAAGCCGTTTTAGTGAAAAGCATGGTCTACTTAGAGGACACCTCCCTCTTCCAGCTGACCGCCTCTTACCACAATCCCAACCGTTTCAGATTTATTGACTTTGCTCGCCGCAGCAAAATATAG
>LACTIS1119B1_07990 alpha, alpha-phosphotrehalase
ATGCAAAATCTAGGTCAAAAAGTCATCTATCAGATCTACCCAAAGTCCTTCTACGACGCTAACGGCGACGGGATCGGGGACCTCCGGGGCATTATCGAGAAGATCGACTATATCAAGAAGCTGAACGTAGACATGATCTGGTTCAACCCCTTCTATGTTTCCCCGCAAAACGACAACGGCTATGATATCGCCAACTACAGGGAGATCGATCCCCTTTTTGGCACGATGGCTGACTTTGAAGAGTTGCAGGCCAAATTAGCGGACATCGGCGTGGGCGTGATGCTGGACATGGTTTTGAACCACTGCTCAACTGAACATGAATGGTTCAAGAAGGCTTTAGCCGGGGATGAAAAATACCGGAAGTTCTTCTACCTGCGGCCCGGCAAGCCTGACGGCAGCCTGCCAAACAACTGGCAGTCCAAGTTCGGCGGCCCGGCCTGGTCCAAATTTGGTGACACTGACCTTTACTACCTCCACCTCTATGACTCGACCCAGGCTGATCTGGACTGGCACAATCCGGAAGTCAGAAAGGAACTGGAAGACGTGGTCAACTTCTGGCGGGGCAAGGGGGTCCGGGGCTTCCGCTTCGATGTCATCAATGTGACTGGCAAGAGCGAGGATCTGGTCGACTCCACTGACCCAACCGAAGAAAAAACTCTCTACACCGATACGCCAGTGGTTCACGACTACTTAAAGGAACTGAACCGGACGACTTTTGGCCAAGACGAGGACTCTATCACGGTTGGGGAAATGTCTTCAACGACTATCCCCAACAGCGTCCGCTACACCAACCCTAAGGAAAAGGAGCTGTCCATGGTCTTCACCTTCCACCATTTGAAGGTCGACTACAAGGACGGGGAAAAGTGGACTAAGACGCCGTTTGACTTCATGAAGCTGAAGGGCCTACTCAGTTCCTGGCAGACAGGGATGACCGAAGGCGGCGGCTGGAACGCTGTCTTCTGGAACAACCACGACCAGCCTTGGGCCTTAAACCGCTTCGGCGATCCGGTCCACTACCGAGAAAAGTCAGCGGAAATGCTGGTGGCCACGATCTACTTTTTGCGGGGAACGCCATTCATCTACCAGGGAGAAGAACTGGGGATGGTCAACCCAGACTACCAGTCAATGGACGAATACGTGGACGTGGAATGCAAGAACGCCTACCAGGAATTGCTGGACAAGGGAATGAGCGAGGATGAGGCTTTTGCAATCATCAAGGCCAAGTCCCGAGACAACTCCCGGGTGCCAATGCACTGGGATGATAGCAAGTACGCCGGCTTCAGCCAGGTTAAGCCGTGGCTTCTGCCAACCCACCAAGACGAAATCAATGTCAAAAAAGAACTGGCTGAGGGAGAAATTTTCGCCTTCTACCAGAAGCTGATTGCTTTAAGAAAACAGGAAGCAGTAATTTCTGCCGGCGGCTTCCGGGAAATCCTGCCGGATGACCAGCAAGTTTTTGCCTATGTCAGAGAGCTGGACGGGGAAAAGTTGGTTGTCTTCAACAACTTCTATGGAAAAGAAGCCGTGATCTCCGTGCCAAGCGACCTGCAGGAATGCGGCCAGATTCTTTTGGACAACTACAAAAGAGAGCTCATCTGCCTGCCAGGTGAATTGAGCCTGCGGCCATACGAAAGTCTGGCCTTTAGAATTTAA
>LACTIS1119B1_08000 hypothetical protein
ATGAGCGAATACATGTCCATATCAAAAGCAGCTGAGTATCTTAACGTTGCCAAGTCAACTCTCCGCAATTGGGAAGCTGAAGGACTGATTACGCCGCTTAGAACTGCCTCCAATCAACGTCACTACACTAAAGAAGTGCTAGATGAAGTTCTGCGCTGA
>LACTIS1119B1_08010 hypothetical protein
ATGAAGTTCTGCGCTGAATACAAGGAAAAGCTGAAGGTGCTCAACCTGGGTCTGGAAGACCGGTTGACTGCTAAAGTAGGTCTTCTGTCCGGTGGGCAGAGACAGGCTTTGACCTTGCTGATGGCAACTCTGGTCAAGCCGAAAGTTCTTCTCTTGGATGAACACACGGCGGCACTGGACCCGAAGACGGCGGAGAAGGTCTTGAAGGCGACCGGATCGTCGCAGAAGGCAAGCTGA
>LACTIS1119B1_08020 hypothetical protein
ATGGTGACTCACAACATGAGGGATGCCATTGCCCACGGCAACCGCTTGATTATGATGAACGACGGCAAGGTCGTTTTGGACATCAAGGGTGAAGAAAAGAAGAAACTGACAGTGGAGAAATTGCTCCACCAGTTTGAAGTCGTATCTGGCGAGGAATTCGCCAGCGACAAGGCAATTTTAGGTTAG
>LACTIS1119B1_08030 peptide methionine sulfoxide reductase MsrB
ATGAACGAAAAAGTAGATTTGAAAGACCGGCTGACGCCAATGCAGTACGCCGTGACCCAAAACGCGGCAACTGAACCGCCTTATACAGGTGAGTACGACAACTTCTTCGAAAAAGGGATCTATGTCGACGTGGTCAGTGGGGAAGCCCTCTTTTCCTCTTTGGACAAGTACGATTCCGGTTGCGGCTGGCCAGCCTTCACCAAGCCTCTGGTTAAGCTGACCCAGCGCCGGGACCAGTCCTTTGGCATGGAAAGAACCGAAGTCCGCAGCCGCCAGGCTGACTCCCACCTGGGCCACGTCTTCACCGACGGTCCTTTGGACAAGGGCGGCCTGCGCTACTGCATCAACTCTGCTGCCCTCAAGTTCATCCCTTACGACCAGCTGGAAGAAGCGGGTTACGGCGAATACCGGCAGCTTTTCGAATAA
>LACTIS1119B1_08040 hypothetical protein
GTGCCGGCTGCAAGAATCAAGGATATCTTGCACGGCAGCCAGGAAATCACTGCTGACATTTCACTCAGATTAGCCAAATTCTTTGGCGTATCGGATTCTTACTTCTTTAATCTGCAAAGTGACATTGACTTGCGGGATGCCAAGAAGCATCTTAGCCGTGACTTGTCAGCAATTAAGCCTTTTACAGAGGTACAGGCCAAAAATAAGTAA
>LACTIS1119B1_08050 dTDP-4-dehydrorhamnose reductase
ATGAAGGTTTTCGTAACTGGCGTCAATGGTCAACTGGGCCACGACGTGATGAACGAACTGGCTAAGCGCGGCTACGAAGGCGTTGGCAGCGACTTGGCTCCGGAATACAGCGGGCTCGCTGACGGCTCATCCGTTACTACTGCTCCTTACGTTTCTTTGGACATTACTAACGCGGAAGGCGTAAAGCAGGCCATCACTGAAGTTAACCCTGACGTGATCGTTCACTGCGCTGCCTGGACTGCGGTTGAGCTGGCTGAAGACGACGACAAGGTTGCGGCTGTCCGCAAGGTTAACACTGATGGTACTCAAAACATCGCCAACGTAGCCAAGGAATTAGACGTGCCAATGGTTTACATCTCCACTGACTACGTCTTCGATGGCCAGGGCACTACTCCATGGGACCCGGACTTCAAGGGCTACAAGCCAATGAACGTTTACGGGGAAACCAAGCTGGGCGGGGAACTTGCCGTATCTGAAACTTTGGACAAGTACTTCATCGTCCGGATCGCCTGGGTCTTCGGCTTGAACGGGAAGAACTTCATCAAGACCATGCTTAACGTGGGTAAGACTCATGATGAAGTCAAGGTGGTCAGCGACCAAATCGGTACGCCAACTTACACTTTGGACTTGGCCCGGCTTTTGGTCGACATGATCGAAACTGACAAGTACGGCTATTACCACGCAACTAACGCGGAATTGCCAGAAACTGCCAGCGGCTATGATGAAAACGGCACGAAGACCGGCTACATCAGCTGGTACGATTTCACCAAGGAAATCTACCGCCAGGCCGGCTACAAGACCAAGGTAACTCCGGTTACCACGGAAGAATACGGCCTCTCCAAGGCTGTACGGCCATTCAACTCACGTTTGGACAAGAGCAAGCTGGAAAAGAACGGCTTCAAGCCGCTGCCAACTTGGCCAGACGCCGTGCACCGCTACTTGGAAGCCTTGAAGGCTGCCGGCTTCTTTGACTAA
>LACTIS1119B1_08060 dTDP-4-dehydrorhamnose 3,5-epimerase
ATGGGTCAAATCAAAGTTGAAAAGAATGTCGGCGGTATTGAAGGTTTGGCAGTGATTACGCCAGCAGTTCACGGGGATGACCGTGGCTACTTCATGGAAACCTACAACGAAAACGACATGAAGGAAGCTGGTTTTGACATCAACTTCGTCCAAGACAACCAATCAAGCTCAACTAAGGGCGTTTTGCGGGGCCTGCACTTCCAAAAGCACTTCCCGCAATGCAAGCTGGTCCGGGCCGTGCGCGGGGATGTCTTCGACGTTGCCGTTGACCTGAGAAGCGACTCCAAGACCTACGGCAAGTGGTACGGGGTGGAACTGACCGCTGAAAACAAGAAGCAGTTCTTGATTCCAGAAGGTTTCGCCCACGGTTTCCTGGTTTTGAGCGACGTGGCTGAATTCTGCTACAAGGTTAACGACTTCTGGCACCCAAACGATGAAGGCGGCATGGCTTGGAACGACCCTGAAATCGGGATTGAATGGCCGCAATTGGTTGGCGAATACCCGGGCTCAGCTGATGCTAGCGGCTACGCTTTGGAAGACGGTACTAAGCTGACTTTGTCCGACAGGGACCAAAAGTGGCTGGGCCTCAAGGACACTTTCAAGTTTTAA
>LACTIS1119B1_08070 glucose-1-phosphate thymidylyltransferase
ATGAAGGGAATTATCTTAGCAGGTGGTTCAGGCACTCGTCTGTATCCATTAACCCTGGTTACCAGTAAGCAGCTTTTGCCTGTTTATGACAAGCCAATGATCTACTACCCGTTGTCAACTTTGATGCTGGCCGGGATCAAGGACATCTTGGTCATCTCCACGCCAGCTGATACTCCGCGCTTTAAGGAACTTTTGGGCGACGGGTCACAATTCGGCGTCAAGCTCTCTTACAAGGTTCAGCCAAGTCCAGACGGTCTGGCTCAAGCCTTTACTTTGGGCGAAGACTTCATCAACGGTGAACCTTGCGCCATGGTTTTGGGCGACAACATCTTCTACGGCAACGGCTTTACTGACATGCTGGAAAACGCCGCTAAGGACGCGGAAGCTGGCCGGGCAACGATTTTTGGCTACTACGTCAACGATCCGGAACGCTTCGGGGTTGTGGAATTTGACAAGGATGGCCACGCTATTTCCATCGAAGAAAAGCCAGCTCAGCCAAAGAGCAACTACGCTGTAACTGGTTTGTACTTCTACCCAGCTGGCGTGAGCGAAAGAGCTGCCCAGGTTAAGCCGAGTGCCCGCGGGGAAGTGGAAATCACTTCTTTGAACGAGATGTACTTAAACGACAACACCCTGGACGTTCAGCTTTTGGGCCGGGGCTACGACTGGCTGGATACCGGGACGATGCAGAGCCTGGTTGACGCCTCCAACTTTGTTAAGATGGTAGAAGAACGGACTGGGGTAAGCATCTCAGCCCCAGAAGAAATTGCCTACGTGCACGGCTGGATTGACGAAGACAAGTTGATGGAAGCTGCCAAGCACTACGGCAAGAGCCCTTACGGCCAGCACCTCAAGGCAGTGGCTGAAGGCAAGCTGAAGTATTAA
>LACTIS1119B1_08080 dTDP-glucose 4,6-dehydratase
ATGAAAATTATTGTTACCGGCGGTGCCGGCTTTATCGGTTCCAACTTTGTCTTCTACATGATGAAGAAGCACCCAGACTACAAGATCATCTGCCTGGACAAGCTGACTTACGCGGGCAACCTGTCAACCCTGAAGGATGTCATGGACAAGCCAAACTTCCGCTTCGTCAAGCTGGACATCTGCGACCGAGAAGGCGTCTACAAGCTTTTTGAAGAAGAACACCCGGACGTTGTTGTTAACTTCGCCGCAGAAAGCCACGTTGACCGGTCAATCGAAAACCCAGAAATCTTCCTGCAAACCAACATCATCGGTACTTCCGTTTTGATGGACGCCTGCCGCAAGTACGGGATCAAGCGTTACCACCAAGTATCAACTGACGAAGTTTACGGCGACCTGTCGCTGGACCGTCCAGACCTCTTCTTCCACGAAGACACGCCGCTGCACACTTCCAGCCCATACTCATCATCAAAGGCCAGCGCTGACCTTTTGGTCGGGGCTTACGGCAGAACTTACGGCCTGCCTGTAACTATTTCCCGTTGCTCAAACAACTACGGCCCTTACCAATTCCCGGAAAAGCTGATCCCATTGATGATCCAAAGAGCCTTGGACGACAAGCCTTTGCCAGTTTACGGTGAAGGTCAAAACGTCCGCGACTGGCTTTACGTTGAAGACCACTGCAAGGCCATCGACCTCATTTTGGAAAAGGGAACGGTTGGTGAAGTCTACAACATCGGCGGCCACAACGAAATGCACAACATCGACATCGTTAAGCTGATCTGCGACTACCTGGACAAGCCTTACTCCTTGATCGAACACGTTACTGACCGCAAGGGTCACGACCAACGTTACGCTATCGACCCAACCAAGATCCACGACGAACTCGGCTGGTTGCCGGAAACCATGTTCAAGGACGGTATCAAGAAGACCATCCAATGGTACCTGGACAACAAGGAATGGTGGGAAAACATCATCTCCGGTGACTACCAGAACTACTACCAGGAAATGTACGGCAAGAAGCAAGTTTTAGACGAAAAGTAA
>LACTIS1119B1_08090 MerR family transcriptional regulator
ATGACCGACTACTACACATCCGGTGAATTCGCCAAGCGGGCCCACGTGTCCGTCAGAACGATCCGCTACTATGACCAGCAGAATCTCCTCAAGCCTTCAGCCAGAAGCAAGGGCGGGGCCAGACGCTACAGCGACGCTGACTTCGCCAAGCTCCAGCAGATCCTGCTTTTAAAGTACCTGGGCTTTTCCCTAGGGGAAATCCGTGGCTTGACCCTGGGGGCCAGCGACCGGCGCCGCCTCCTGGATTCCCTCCAAATCCAGCGGCGCCTAGTGGAAGAGCGGATTGAAGAAATGACCGCCATTGAAGCCACCATCGACTCAACCACCCAAACCCTGGAAGCTGGTAAGCCTGTTGACTGGAGCCGGATGCTGGAACTGCTCCACCGGTCAACCATGACCCAGAGTCTCAAGACCCAGTACCAGAACGCCACCAACATCTCTGCCCGGATCCGCCTGCACCGGGACTACTCCATGAACAAGGAGGGCTGGTTTCCCTGGCTTTTTCGCCAGCTGGACTTGACTCCTGGCTTAAAAATCTTAGAGATCGGCTGCGGGAACGGCGAACTATGGGCCACGAGCCACGACCGTCTGCCGGAGGACTGCCAGGTCATCTTGACCGACATTTCAGAAGGGATGCTGGCCGATGCCAAAAAGGAAATCGGCGAAGACAGCCGCTTTTCCTATGACCAATGCGACGCTGCTCACTTGCCCTTTGCTGACGAAGAGTTTGACCTGGTCGTCGCCAACCACATGCTTTTTTACTGCGATGACATCCCCCAGGTCCTTAATGAAGTCCGCCGGGTTTTGAAAAAAGGCGGCCGCTTCTGCGCGTCAACTTACAGCAAGCGCCACATGCACGAAATCACTGACCTGGTCCAGGAGTTCAACTCCCAAATCATACTCTCTTCCGTCAACCTCTATGACCGCTTTGGCCTGGACAACGGGGAAGAGATCCTGGCTCCGTTTTTTGCCCAAGTGACCTGCCAGCGCTACGATGACGCTATCGAATTAGGTGAAGCAGAACCAGTTATTTCTTATATCTTGTCCTGCCACGGCAACCAAAACGCCCTTCTCTTGGACCGCTACCAGGAATTCAAGCAATTCGTTGAAGACGAGGTCGCTGGGGGCTTCCACATTACTAAAGACGCCGGGACCTTTATCTGCCGCAAATAG
>LACTIS1119B1_08100 glycerol uptake facilitator protein
ATGAATGGATTTTTAGGAGAGTTCTTAGGAACGATGATTTTGATCGTGCTGGGTGTCGGCTGCGGGGCCGGGATCAGCTTGAATAAGGCTTATGCCAAGGGGCAGGGCTGGCTGTTTGTCACCCTGGCCTGGGGAATGGCGGTAACCTTCGGCGTTTACGTGGCTGGCCAATTCGGCGCACAAGGCCACCTCAACCCAGCGGTAACTATTGGTTTCGCGGCCTTCGGCTTCTTCCCGTGGAGCCAGGTAATGCCGTACTTGCTGGGGCAATTCCTGGGCGCCTTTGTCGGGGCAGCTTTGGTAATCCTGCACTACTACCCGCACTTTAAGGCGACTAAGGCTGACGAAGGCAACAGCGTGGGGATCTTCGCGACTGGCCCAGCCATCAACAACCCTGTTTTCAACTTCTTGAGTGAAACGATCTCGACTTTTGTCTTCATCTTCACCTTGCTCAACCTGGGCAACTTCACCCAAGGCTTAAAGCCATTAATTGTTGGTTTCTTAATCATGGTTGTTGGTCAAGCTTTGGGTCCAACGACTGGCTTTGCCTTGAACCCAGCCCGGGACTTCTCACCACGTCTGGCCTATGCGATTTTGCCAGTGCCAAACAAGGGCGGGGCTAACTGGGCTTATGCCTGGGTGCCAGTCTTAGGGCCAATCGCCGGTGGTCTTTTAGCTAGCGGCTTGCAGGCATTGTTGAAATAG
>LACTIS1119B1_08110 hypothetical protein
ATGACCAGCGACTATTATGTAGGCCTTTACTCGGTGGCCAGCAAGGTTACGGCCCTGCTTAAGCAATTGTTAGGTGCTGTGATCGTTGTGACCGTGCCACGTCTGGCCTGCTTATATGGGCAAAAGGACGGAGAATTTTTTCAAAAATTGGCCCGGCAGATCGCAGATTTGCTAGTAATGCTGGCCTTGCCGGCTGCCTGCGCCTTGTTTGCTTTAGGCGAGGAGGTTGTCATTTTAACCGCGGACTTAGATTTTGCACCGGCTGCGGGGTCCATGAAGCTTCTGGGCCTGGCCTTGGTTTTCTCGCTATTGGGCTGGTTTTACATGGCGGCGGTTTTAGTTCCGGCCCGGCAGAAGAGGGCGGCCTTGCTTGCAATTAGTATCGCTTCTGTGGTTAACGTTAGTTTGAATTTCCTGCTGATCCCGGCCTTTAAGGAAGCAGGGGCGGCGCTGGCAACCTTGCTTGCCGACCTGGTGACTTGTCTGGCTTGTTACTTTTTGGCGAAAAAGTCGGCCCGCCTCTTGCCCAGCGGGAAAAAGCTGGCCAGCAGTTTGCTGGCCTGTCTTTATGTAACCGGGTCTTGCTGGAATTTAAGCGTGGAAGTAGACGGGAGTAAGAAAGGAGAGATTTTTGTAAAAAATAGACAAAAAGCCCTTGTGAAGCGGTAG
>LACTIS1119B1_08120 hypothetical protein
ATGAGGATATTTATGGCTGTATTATGGCCCATATTGCTGGTAGCATCTGCTGCTATGACAACGATCAGCTATCGTAAGAAAAAATCTGGTAAGGCTGATAAAGATTACTATTCAGTTAGAGGATGGGGCAGCTTTGTCTTTATGTCTCTGCTAGGCGTTATGATGAGCTATCTGCCGTTAGGAATTTCAAGTGTAGGGGGATGCCTCTTTATTGCCGCTTTTGTTCTGATGTATTTTGCCTACAGTAAAAAAGATCACAAGTTAAAGGTACAAAAGGCAACCGCCTGGCTCTGCGGAACATCTGCTTTCAAATTTCGTCTCTGA
>LACTIS1119B1_08130 fumarate reductase flavoprotein subunit
ATGATTTCATTAAAGGATGGAAAATATGCCGTAACCGCTCATGAACTGGAAGGGGCAACCATGCCGCTGATGGTTGAAATTGCAGAAGGCAAGATTGCCAAGGTAAAGCCGGAAAGAGCCTACAAGAGTGCTCTTGAAGAGGCAGTTTTTGCCAAAGGGGCCGCGCAAATCGTGGACAAGCAGAGCTTGGAAATTGATGCCATCACTGGTGCAACTATTTCAACTAATGGCTTGATTGAGGCTGTTTCAGATGCCATTAAGGAAGCTGGCGGTGACCCGGCCGACTACGCTCAAGCTGAACTTACTCCAGCTGCTGAAATCAGCACGGAAGAAGCAACGGTCAGCCAAGCCGATGACTACGCTGACTGGCGCAAGGCACCGAGTCAGATTGACAAGGAAATTTCAGTTGAATACCTAATTGTCGGTGCTGGGATCGCTGGTCTGGCTAGTGCTATTCAAGCCAGAGAAGAAGGGCTGGAAACCCTGGTTATTGAGAAGAATGGTTTCGTAGCTGGCAACGGTGGCGGGGTTGAAGGAATTTTTGGCATCAATACCAAGATGCAACAGGAAGCTGGCATCCATGCAGAAAAAGAAGACATCATCGCTAAGGAAATGGAACTGGGGCAATACCGGGCCAACGGTGCCTTCTGGGTTGACCTGGTCAACAACTCTGCAGATAATATCGAATGGCTCTTGAAGCAGGGCGTTCAACTAACCCATGTTGATGACTATCACGGCACCTGCATGTTCCCGACTTTCCACTGGTGGAAGGGGGGCTTCGCTTCTGAGGGCTACGTGCCATATATGAAGAAGCGCTGTGATGAATTGGGCGTCAGCTTTATGACCTCAACCAGTGCCATCAGCATCATCCAAGAGGCTGGCGGAGTCAAAGGTGTCTACGCCAAGTCACCAGATGGGATCGTCAAGATCAATGCTAAGGCAACTTTGCTCTGTACCGGCGGGGTGGGCCACTCAGCTGAACTGATCGAAAAGCAAGGCTGGTCAACCAAGAACCTGCACTACTGCTCAATGCCTTCCAACACTGGTGACGGCTACAAGATGGCCATGGCTGCCGGGGCTAGAGACATGCTGGTTGAATCCCCTGAGTTCATAATGAACTACATTATGGCTTTGCCACACGAAGGCGTGCACCTGTATATCGATCCGATCAATGGCTTCATGAGTTTGCCATCTGGTGGTCCGACGGTTTTTGTCGACCAAGATGGCCGCCGCTTTGTCAACGAAAATGCCAAGAAGTACAACCTGCTCTACCAGAGAATGGCCATGCAGTCAGTTAAGAATGCCTACGAAGTCTTCAACCAGGATATCTATGACCGGATTACCGCTGGCATCCCCGACGCGGACAAGGTCCTGGCCCAAGCTGTTGAAACTAACGAAGGTGACTCCTTGTACAAGGAAGACAGCCTGGAAGACCTGGCCAAGCACTTCGACCTGCCAAAGGATGTCTTGACCAAGACTTTGAACGACTACAACAAGTTTGCCCGCCAAGGCAAGGATGAGGAATTCGCTAAGGACAGTGACAATTTGATTCCAATGGAAAAAGGGCCATACTACATTGCCCGGCTTGACCCATCCAACTTGATCGGCGTTGGCGAGATTGGCTCTAACCGGAAGTTTGAGGCTATTGATCCTGACTTTAACACGATCCCAGGCTTGTACGTGGCTGGCATGGATTCAACCATGCAGTACCGTAACGTCTACACCATCACCTTGGGTGGTTCGGCCTGCGCTCACAATGTCAACTCCGGCCGTCACGCAGCCATGAATGCCAAGGACTACATCGCCAGCCTGAAATAA
>LACTIS1119B1_08140 LysR family transcriptional regulator
TTGTTTTACCGCAGCCGCAAAGCTGTCAGTCTGACACCAGCCGGACAGGAATTTTACGACCGGGTCAAGCCCTGGCTGAACGAGTACAACAAGGCCGTGCAGCATGTCCAGCAGGTGCAAAATGCGCAAAAGATGAACCTAACAATTGGCTACAGCGGGACGCCGTATGAACATACTGTGGTGCCAGAACTAGTTAGGGCTTTTTGCCAAGAGCATCCCCAGATCAACGTTTTCCTGGAGAATTATGCCCACCAGGAACTGAAGGGCCACTTGACCCATGGAAATTGCGACGTGATCTTCACCATGCCGGACATCATTGCGGGAATGGACAACCTGGCTTACCACAGCCTGCTTATTGGCTACTATTGCTTGATCGTACCTAGCGAAGTCAAGCTTGGTCCTACGCCAGTTTCTTTGGAAGAGCTGAGCAAGAACAGGCTGATCTTCCTGGACCACCGCTGGTGCCCGCCCACGCAAGACCTATTGCAAAAAGAGATCTGCAGAAACAACCATTCTCTGGACCTGGCCTATGTCAACAATATCGCAACTGCGCGGGCCATGGTTAAAGCCCGGCTTGGCTGGGGAATCTGGGCCAACTTTGTGTCCGATCCTAATGACCTCGACCTTAAAAAGCTGCCCCTTTCCACCAAGATCGTGCCCGACTATGGTGTCGCCATCTTGAAGCAAGGCAGCCCGCAAGCCGCCAGACAGTTCGTCAGCTGGCTGGAGAAGACCGGATTGCCAGGGTGA
>LACTIS1119B1_08150 hypothetical protein
ATGTATCTGAAGATGGTACAAAACAACATTATCAAGATGAAGAAAGCAGACAATGATAAAATCATCAGTTGGCTCAAGAAGCAACAAGAAGATAAGAAATACGTCAATGATGAAGAGGAAAATGTTACTTTAGCATACTGCAATTTGATTTTGATTAATCCCCAAGCAGTCAAAGATAAAGAAAAGATTGTTGAGGTTATCAAGAAATCTAGTAGCGAGATCAGCAAGTGGGTGATAGATGTTGATGGATTTGATTACAGCTCCTTTAATTTAAATTGGCTGTTAGGATGTTCCGGGGGACTTTTAAAAGTACTTGCTAGGAAACCTATTGTTCGCAAGAATGTTGCCCAAGAAGTTAAAAAGCAGTTTATCAATAGAACTTTAGACGAGCCTATTCTAAAGATTTATATGAAATATTTTGTTTGA
>LACTIS1119B1_08160 hypothetical protein
GTGTTGTTTGTGGGAGCCGGTGTATCAAAGAATTCAGGCATGCCATTGTGGAGTGAGGCCGTTGATCAGATTGCAAAAGCTGTGGGTGTGGATCCTAAAAAATTTGACAATTTAAAGATCCCACAGTTTTACTATAATGATCGTGGTAAAAAAGAGTACACCCAGTTTATGAAGCAGATTTTCAGATATGGCGACGTTTTGAAGCCGTGTGAAATTCATAACCAAATTGTGGATTTTGATCTCGATACAATCATTACTACGAATTATGATAATTTGATAGAACAGGCATTTCAAAATAGAAATCAAGTCATCCAGCCGATTTGCCAAGACTCTGATCTATCTTACGCTCAGCCGGGGAAAGAGCTTATCAAGATGCATGGTGACTTTGAACACGATAATTTTGTGTTGAAGGAAGATGATTATCTAAACTATTCAGAAAACTTCAAGCTGATAGAAAACTATGTAAAATCACTTGTCGGTAGTAAGGTTATATTGTTTATAGGCTACTCATTTAGTGACCCAGATACTAAGCAGATTTTTACGTGGGTTAAGAACACTCTAAAGGATGATGCCCAGAGAGCATATATGCTTGAAGTAGGTCAAAATTTTGATAGAAATGTAGAACAATATTACCGAAATTTAGGCGTTAACGTGATTTTTACAAAATCTTGGTTTAGAGATCTGCACTCACCTTCTAATAACTTAGAGAATGCTTTAGACTTAATTTTAAGGGATACAGAGGATCCAATTGAGAGTATTTACGATGATTTTAAGCCGTTCGCCAACTTTAAATATGTGTATACGAAATATGTTGCTCAAGTGCTTAGGGAACACAATATTTCGGTAGAATCAGGTCAGATTTATGTGGAAAACTACCTGGATAAAAGCCAAAAGGAAGCAGCCCAAAGACTGGTGAAGCAAATTTTCTCTAATAAGAGCAATTCTACAAAAGTTAGTTTTATCCAAAGTATTATAAAGAAGAGCGGTATTGACTATTACCAAAAAGACAATCAGGTTCAGGAAATTGATAAACCATCTGATGAAGAAAATTGGGTACGGGCAGTACTCGATTTTGATTTCATGAAATTAACGGATCTGAGAAATACGTACGAAATCAAAATTAATAGTGATGACCCAGAACAATCGATGAAATTAGCAGCTATCGATTACTACTTGGAAGATTACGTGGGCAGTTATAATTACTTGCAACGCGCAAGCTGGCAATATTATCGTCAAAAGAAACTGCCACAATATTTTATTTCCCAAGTGAATCTTAAATATGATTCGCAATTGGCAAAGATAAATAGCAATGAAAAGCTATGTAAGGAACTTGATAAGAGAAATGAGGTGAATCTAGATCAAACGTTTGAGAGCTTACCGCTTGTTGAAAGAAACCGCATGAAATTTTTGAGAGAACTGTCTAGTTTTTCGATCTCTTATTCGCTATTCGAAAGGATATATGTGCGGGGTAAAAAGACTTTGGATGAAGCAAATTCGCTATTTTGGGCAACAACGGGACAGCCGGCTTATAAAGTTCTACGAAGTGATATCAAAGACTTTTTCTACTATGAGTTTTATAACAATATTCTGCTAGATCACTATAAGGAAAATACCGCAATATTTCACATGTATATGAGAACAATTTTAAGCGCTGTTGCTACCCCAACTAGGGCTTCGAACATTCATGGAATCTCAAGCTACAATATCACACCAGAAAGCTTAGAGTGGTTTGATATTTTTATAATGTTGAGATTTACAAGTGATCCACAAGAATTAAGAAAAATTTTAGATCAATATGACTTAGCTTCAATAAAAATCGATGAAGAAGCTAGAAAGTACTTGTACAATATAATTCCAAATTTAGTAACCGACAATAAACAGGGAAACAGAATCTATTCTAAGAATCTTTTCTGGCAATTAATTTGTTTGTGTGGGTACATTAAGATTGACCAAGAGGTATTTGAATCACTCTTAGTAGGTATTGACAAGTTAACAGATTTTAAAGTCTTTGATAGGCATTGGCGAGAAATAGATTGTCTATTGATAGCTGCAAACCAGGAATCTTTGCTGTCCAAAAAGACTAAAGAGATAATCAAGAATATTTTGAAAAAGGACTTAGAACAGATAGCTAAAGAAAATGATCCTAGTTCGCATGAAAAATTAACACAACAATTATTAGAGTGTTCTGACAAAGTAGATATCAGTTTTACAAGCGAGATTAAGGCCCTAATCGATAATAAAAAATAA
>LACTIS1119B1_08170 hypothetical protein
ATGAGTAAAAGAAAATGGAAACCAGATAAACAATTGAAGGCTTCGTATGAGGAAGCTAAGAAGATAATCAAGGACGCAATGCTAAATAAAAAACTTAGTGTTGTTTGTGGGAGCCGGTGTATCAAAGAATTCAGGCATGCCATTGTGGAGTGA
>LACTIS1119B1_08180 hypothetical protein
ATGACTGAACATCCAATCGTACCGTTCGAGCTGCCGAAGGACAGAATTAGACCTAAGAATAGGCCCGGAAAGAACCGACTTGTCCTTAACCTAAAGTCCAATGTGGTTGAGCTGTCATTTTACAGTGATGCCACTAACGAGCTTATGATAGAAGTCGTGGACAGGTTCTTGAACTATGATTAA
>LACTIS1119B1_08190 poly-gamma-glutamate biosynthesis protein
TTGAAAAAAAAATCTTTGGGTGTCAATGCATTACTAAATAGTTTGCAGACAATTCTTAATTTAATCTTCCCATTAATTACATTTCCATATGCATCTAGAATTTTGTCAGTTGATGGAATGGGTAAATTTAACTTCTCTAGTTCAATAGTTAGTTACTTTTCATTGATAGCATCATTAGGAATTAGTACCTTTGCAATCAGAGAGGGTGCAAAATATAGAGATGATAGAGGGAAGATAAGCAAGTTTGCAAGTAGAGTCTTTACTTTCAATTTGGCATCAACTTTGATTGCGTATATCGCTTTAGTTATTACATTATTTGTTGCCCCGGCTTTACATAAATATTTAACATCTATTTTGCTGCTTAGTATTTCCATAATTTTGACTACCTTGGGTACTGATTGGATATATACAATCTTTGAGGAATATGGATATTTAACACTGAGAAATATTATTTTTAAGATATTATCTGTTATATTGCTTTTTGTGTTTGTGAGAAGCAGTGACGATTATCTAAATTATGTAGGCATTAGTGTTTTTGCATCGGTGGGTTCTAATATTTTGAACTTCATTTATGCCAGAAAACTTTGTGACATTAAGATTGATACTCATTTCGACTGGAAAGCTTATGCGGTTCCCATCTTTACGATTTTTGCTGCAACAGTGGCTATACAAATTTATGTCAGTTCAGATGTAACGATTTTAGGCTTCTTGAAGAATGACTACGCGGTTGGTATTTATAGTACATCGGTTAAAATTTACAGTATTGTTGGATCCTTGTTAATGGCTATACAAGTTGTTACAATTCCACGTTTAGCCATGCTAATGGGCCAGCATCGTATGAGAGAATATAGAAGAGTTATGAGACAGCTCTTTAATACTTTCTTGTTGATTCTTCTTCCAGGGATGACTGGCTTATTTATGGTTAGTCCAGAGATTATTTATATTATTGCAGGCCCTAAATATATAGCTTCATCTACATCTCTTCGAATTCTTGCTTTTGCTATGGTGGGTAGTGGGATTAGCGGTATTTTTGGACAGTGTGCGTTGATGCCAGCTAAGCGTGAACGAAAGAATCTGATTAGTTCAGCCACCAGTGCAGTTTTAAATATTGTACTCAATTTTGCTTTAATTCCATTTTTATCATATGATGGCGCAGCTTTAACGACTGTTTTGGCGGAATGTACAATGATGTTTATGAACTACTACTATAGTCGCGACATTACTGGCTTTGTTTTTAGAGATAAGACAATCATAAAAAATGTTATTATTGACCTGTTAGGGTGTGTTGGTATTATATTATCATGTTTGGTTTGCCAACACCTTATTAGCTCCAACGTTGGTAGATTGATTTCTTCTGTGGTTTTATCTGGCATAATATATGTCATCATAGTTTTGTCTTTACGTCAGACGACCGCAGTAGAAATGTTAGAACAGATAAAGTTTAGAATTCAGCATTAG
>LACTIS1119B1_08200 hypothetical protein
ATGTCTGGTGATCCGTTAATTGTTACCCGAGCTGGTGGAGCAACAGAATATGTCAATGATAAAAGTGCTGTTATTGTTGACCGTGGTGCTGAAATAGAAGAAAATTTGAAAGAGGCCATTTTAAAGATCAAAGAAAACCCAGAGTTGAGAAAGCAAATGAGTAAAGAGGCTCTTAAGCAAGGGGATAAGTTTACTACACGACGGTACTTTGAAGGTTACATGGATATTTTGGGGTGTTAA
>LACTIS1119B1_08210 hypothetical protein
GTGTCATCGCCTCTTAGTAAACCAGGTAGATATACACAGAAAGAATTTTGGCAATTATTTTATGGCCCTAATAGTGGTTCTGCATTAGTAGTTGCGTGGGATAAATTGTATTCTTCAAGAATTTTTAAAGACTTACGCTATAAAGTTGGTATTCTGAATGAAGATGAGCAGATACTTTATTCTGTGGTCAAGCGCGTTAAGTCTATTTCTATTATAGCTGAAGCTTTATACTTTTACCGGGTTGAACGTAATGATAGTATTATGGCAAATTTGAAGAAAATAGATCACATTAGAGAAAAGTTTTATGATATTTTATTAGATAGATCCCAAATGCTTGTGAATGATGGCTTTAAACAGCCAGCTGTACAAAGTGTTCAAAGCATTTTGATGCAATTAACCAGTGAATTGGCTATTAACCCTTCGAAAGAAAATTGGCAGGTTTTTTGGCGTGTCTTTAATCGTGTGAAAAGTGTTCTTGTGGGGTCAAGCATTGCCAATTTTGACAATAAAAAATTGAGAGTATATATTACTTTTCCACGCTTAATATGTTGGTTAAAAATCTTAAGAGTATATATTAAGTTTTAA
>LACTIS1119B1_08220 hypothetical protein
ATGATGAGTCCGCTCGTATCCGTAATTATTCCGGTCTATAATGTTGAAGAGTACTTGGATAAATGTTTAAATACAGTTATTCACCAGAATTATAAGAATTTAGAAATTATTTTGGTTGATGATGGCTCAACAGATAATTCAGGGGATAAGGTTGATGAATGGGCAAAAAGAGACAATCGAATAGTTCCTCTTCATCAAAATAATCAAGGACTCTCTGCAGCTAGAAACATGGGGCTTGATAATAGTCACGGTTCGTGGATCGTATTTATTGATAGTGATGACTATGTATCGGAAAACTATATTAGTACAATGCTTCAAACTGCCCAAAAAGATAACACAGACTTGGTAATATGTCAATATAATAAAGTAAGTAATGTAGAGTAG
>LACTIS1119B1_08230 hypothetical protein
GTGAAATTTGGTTACCAAAATTATTTTTTTATTCTAGCGAGTTTTATTCTAACCAAACTTGCCCCAAGTATAGTCACAAATTATATTGATAAGTATTTTTCTGTACAGTCAAGCTATATTTCGCATGGTATTTATAATGCCTCAGGTGATTTTTCAGCATTTGGCTTGGTGCCCCCACTAGCTATTTTAGTATTAGCACACATCTTTAAAAGAAATCAATCAGTTAAAGATGATATATTATTTAATCTGTCGACTCTTAGCATGGTCACATATTGTTTTGCTTTTGTAGTATCAGATTTATATAGATTGTCAATTTATTTTGGCTTGTTTAATATCATCTTGATTTCAAAGGTATTTAAAAAAGTCAACAAAGCAGAACCGACAGACTCTGTTGATTTCAATAATGATGAGATTCTGCTTTTCATATATGTAGTGCTGATTATTGCCTTAATAGCCTACTTCTTATTGAGATCAGTTGACAATATGAATGCTATGCCGTATCTATTTTTCTGGCAAAACTAG
>LACTIS1119B1_08240 glycosyltransferase
ATGAAAATTTGCATATTTTGCCATGATGCTTATATGTCTGGTGCAAACCTATCTTTAGAGGATTGGTTATTTGAAGATAATGAAAATGAATATTATCTTTTCTTGCCTCGCTTTAGCCATGATTTTGACAATCTATCTAAGAAAGAAAATATACATATTGTTTCTGGGTATTATTTTGCGCTGTGCAAAGATTTAGATAAGAGAAGTATTACATATAAAGCTAAAAAAAGTGTAAAAGAGGCCTACATGAAGCTCTTTTACACTAGTTTTGTGAAAAGGCGATTATTGAAAACAATCAGTCAAATAAAACCTGATGCAATTCTGTCTAATTCGTTTGCTATTTGGATTGGTGCAGATATTGCCAAAACATTAGGTATACCACATATTTGGCATGTTAGAGAGTTTATGGAACTGGATCATCGAATTGCCCATTACAATTTTTTAAATATCGAGGAATTAGCTAATTATTCAAGCGCTATATTTATAAGCAGTGCAATAGCGAATTATTATTCGAAGAAATACCATTTTAAAAATTCTGCGGTCATCTACGACTCAATTAAATACCAAGCAAATGGCTATGATAAACAAGTTAAGAAGTTTATAAATAAGCCAGTTAAAGCAATATTTGTTGGAACTATTTCGTGTGGTAAAGGTGTTTTTGATGCGGTAAAAGCTGTTGAGGAACTTAATGAGCAAGGATTTCAACTTAGTTTAGATATTTTTGGTGAAGGTCCTCAAAATGAAGAGGTAAAGAATTACATATTATCTCATAAAGACAAGATGATTCGTTTCTTAGGCTTTTCGAAAGATCTTATTTCTCAAAGAAGAAATTATGATTTAGAGTTTGTTTGTTCAAAAATGGAAGCTTTAGGACGAGTTACTGTAGAAGGAATGTATTATGGTAATTTGGTGATTGGGGCTAATTCAGGCGGTACTGCGGAATTAATTAAAAATGGTAAGACAGGCGTTTTGTATGAAAGTGGAAATATAGATAGTCTGATCAAAGCTTCAAAAAAAGTTTTGGAAAACGTAGAAGCTAATAACGAAATGATTCATGAAGCTCATGATTGGGCAGTTAGGAACTTTTCAAATCCAATAACTAATCAGCTGATACAATTTATCAAAATCAGCATTAAAGAATAA
>LACTIS1119B1_08250 glycosyltransferase
ATGGTTAAGAAAAAAGTATTGGCAATTAATTTACCTGCCTTCCATCAAATTCCAGAAAACGATGAATGGTGGGGAAAAGGTTTTACTGAATGGGACAATGTACGTAGCGGTAAGCCTTTGTTCAAAGGACACTACCAGCCAATTGTCCCGAAAAATCATAATTATTATGATTTATCTCGCAAAGAAGACATTATCGCCCAAATGAGGTTAGCTAAAAAGTATGATATTTATGGATTTATCTACTATCATTATTGGTTTGGTGATGGCCGAATGCTGTTTGAGAAACCGGCAGAAATGATTAGAGATGAGATCGATGAAGATTTTAATTATTGCTTTTGTTGGGCTAATGAAACCTGGCAAACTACGTGGCATGGCATGCAACCAACTACGCTTATTGAGCAGCGCTATCCCGGAATAGAAGACTGGGCGAAACATTATGATTATTTAAGGACTTTCTTCGCTGATAGCCGATATATAAAAATAAATAATAAGCCGGTCCTTTTTACTTATAAGCCGAATGAAATGCCAGACTATGATAACATGGTCGATTATTGGAATAAGCGTTGTCAAGAGGATGGTTTTGATGGGATTTACATGGTTGAATATATAAGTTCAAAAAATTGTGGACTTCATTCGCACAAATCCAGTGCGGTATTCGAATTTGAGCCGCTGTATACTACTTTTTTTGACGTTTCTAAATTCAATTTAGCTAAGAGATATGTTTCGAAAAAACTAAAAATAACAGATTATCAATCTTACGATTTTCTTTGGAAGTCTATTCTTAATCGAACAAGAACATATGATGGAACAACTATTTTTAAAGGCTGTACGTCAGGGTGGGACAATACTGCACGTAAAGGCAAACAAGGGATGGTTGTTAAGGGAAAGACGCCTAAAAAGTTTAAAAAATATTTCAATCAATTTTTAACTAAGCCTCGTCAAGATGCTAGCGATGAATTTTATGTCATCAACGCATGGAATGAATGGAGTGAAGGCGCATATCTCGAACCTGATGAAAAGGATGGGGATACGTATCTTGAAATTATAAAAGAAGCAGTAGAAAAAGAAGAAAAATCATAA
>LACTIS1119B1_08260 hypothetical protein
ATGCTGAAAGAAATTCTGAAGGCGGACAAGGGATTGTATGCCAAGTACGTTGCCAATGGCTTTAAGCTGCCAGCCGAAGAAGATCCACGAATCACTAGTATCGGAAAATGGTTGCGTAGAACATCGTTTGATGAACTCCCACAGTTTATCAACATCTTGCGTGGAGAAATGAGCATTGTTGGCCCGCGCCCAATTGTGCCTACTGAACTAGAGGAATATGGTGATCGTAAAGCTAAGCTTTTGTCTGTAAAGCCCGGCGCGATGGGGTTGTGGCAAGCTACGGGTCGCAGCAATATTACATATCCGGAACGGTGTGATGTTGAATTAGAGTATGTGGATAACGCTTCATTGGGTTATGATTGGAAGATATTCTTCCTCAATCTAATTAGTATCTTTAAGCAAGACGGCGCGTTTTAA
>LACTIS1119B1_08270 hypothetical protein
ATGATGGAAAGCAATTTAGAAGAAGTCAAAACACAAGGCACTTTCTATAAAACATCAAAACGTATTTTTGATGTTTTAGGTAGTTTTTTAGCTCTAGTGTGTTTATCACCAGTATTTTTGATCTTATCAATTATTATAAAAAACCATGATGGCGGCAAAGTGTTTTTTAAGCAAAAACGAGTAGGTCAAAATGGTAAAGAATTTTTTATGTATAAATTCCGTTCGATGGAAGAGAATGCTGAAAGAAATTCTGAAGGCGGACAAGGGATTGTATGCCAAGTACGTTGCCAATGGCTTTAA
>LACTIS1119B1_08280 glycosyltransferase
ATGGATAAGACTGTAAGTGTAGTGATACCAACACTTAATGCCGAAAGGTTTATTAATATTCAACTACTAAAACTTAGTACTCAGGATTATCCAATAACTGAGATTATCGTAGTTGATTCTGCGTCAGAAGATCGGACAGTTGAAATTTGTAAGAAGCATAATGTGCATCTGATTCAGATTCAGCGCAAAGATTTCAGCCATGCCAAGACTAGAGACATGGTTCTCCGACAATGTGAGACTGATGTTGTTGTCTTTTTAACCCAAGATGCGATTCCGTATGATAATCAGACGGTCGGTAATTTAGTTAAGGCGCTAGATCAAGATGGTGTTGTTATTGCAACAGGTAGACAAGTTGCTAAGAATGACGCATCAGCATTCGAAAAGCTCATTCGGGAATTTAACTATCCAGCTGTGAGTAGCGTAAAATCTAAAACTGATATCAAACGGCTAGGGATCAAGACTTTCTTCTTCTCTGATTCTTTTGCAGCATATGATCGAAAAGTCTATCTTGCATTAGGCGGATTTGAAAAATCGTTAAAGACTAATGAAGACATGTTCTATGCTGCAAAAGTAATTCAGAGCGGTTATAAGGTTGCCTATGTCGCTGAAGCAAAGGTCTTGCACTCACATAATTTCACTTTGAAGCAACAATACAAGCGAAACTATATCGAAGGCTACGAGATTGAGAAGCATAAAGAGTTACTTGGTAACGTTTCACAAGAATCTGAAGGCCTAAAATTGGTAAAATACGTTTCAAAAGGATTGTTATCGCATGGCAGAGTATTGTCTTTTATTCGCTTTGGTTTTGACTGTGTCGTCAGATTGATGGGAAGCAAGGCAGGACGCAAAGCGTATTTAAATGGTGAAGATTAA
>LACTIS1119B1_08290 exopolysaccharide biosynthesis protein
ATGCCGGTAGTTGATTTACACTGTCACATCTTACCAGGGATCGACGATGGTTCAAAGTCTTGGGAGGCTTCACTTAAGCTTGCCAGAGCCGCGGTTGCGGATGGCGTAACCCATGCCTTGTGTACTCCACACACATTAAATGGCCGCTACACCAACCACAAGCAAGATGTGATCAAGTTGACGGAAGAGTTTCAAGATCGGATTGACCAAGCGGGTATTCCGCTGACGGTCTTTCCAGGACATGAGGTCAGATTGTCAGGTGGCTTAACTGAAGCCCTTGATAATGATAACATCCTCTTCTGCGATGAAGAGGGACACTACATGCTCTTGGAATTGCCAAGCAATGAAGTGCCACATTACACCAAGAACATGGTGTACGAACTGACCAGAAGAGGGATTACGCCAATCGTTGTTCACCCAGAACGGAATAAGGAAATTCTGGCAAATCCGCAGAAGCTGCAAGAATTCTTGGAAATGGGAGTTTTGGTGCAGATTACTGCTAGCTCTTACACCGGTTTGTTTGGGAAAGAAATCGAAGACTGCAGCCGGGAGTTTATCAAGGCTGGACAATGTGCCTTCTTTGCCAGTGATGCTCATGATTTGCCAAGACGGCAATACCAATTAGGTGAGGCGCTAGACAAGTTGGCGAAAGAATTTGGTAAAGATAAGAAACAGAAGTACTTGGACAACGCGCAAGCGATAATCAATGGCGATCCGGTTTACCTAGACTGGCAGCCATTGCCTAAGAAGCGGAAGAAATTCTTAGGACTGTTTTAA
>LACTIS1119B1_08300 exopolysaccharide biosynthesis protein
ATGGCTTTATTCGGTAGAAAGAATCACTTAGACAACGAAACAATTAAGAACGGGGTCAAGCTGATTACTTTGGCTAACCCGCAAAGCGTTATTTCAGAACAGTTCAGAAACATCCGGACCAACATCAACTTCATGAACGTTGATAAAGAAGTAAAGACGATCGCCTTTACCTCAGCCATGGCCAGTGCCGGCAAGTCTACGGTTAGTGCCAATGTGTCCATTACCATGGCACAAGCTGGTAAGAAGACGATCTTGATCGACGCGGACTTGCGTTGGCCAACCTTGCACTCCACTTTCAATGTATCCAATAGTAACGGCTTGACCACTTTGTTGACTAGCCGGTCTAAGGAAATGGACGCAAACAGCGTGATCCGGAAAAGTGGGGTAGAGAACCTGTCAATCTTGACGGCAGGTCCGATTCCGCCAAACCCGTCAGAACTTCTGTCTTCCAAGCATATGTTGGATTTGATTGAAGATTTAAAGCAAGAATATGATATGGTCGTGCTTGACTTAGCACCGATCTTGGACGCGGCCGAAACCCAGCAACTGACCAGTTCTTTGGACGGAACGATCTTGGTTGTGCGCCAGGCATATTCACAGAAGTCAGCGGTTAAGCGGGCAGTTGAGCTACTTAAGCTGACTAAGTCACCAATTTTAGGTTATGTTATGAACGATGTTGATGCCGATGGGGATGGCGGTTATGGATATGGTTATGGATACGGTTACGGCTACGGTTATGGCGAAGAAAAGGAGAAGAAGGGTCTCTTTGGGAGAAAGAAGTAG
>LACTIS1119B1_08310 exopolysaccharide biosynthesis protein
GTGAGCGCTGAACAACAGAATAATGAAGAAGTAACCATTGACCTGCGCAGGCTCTTCATCTTAATCAGAAAGCATATCATCAGCATTTTGATTTGGATGATCGGCCTGGGCTTGATCGCTTATGGTGTTTCAGAATATGTTCTGGTGCCAAAGTACACTGCTAGCACACAACTCTTGGTCAACCGGAAGACAGAGGATGCTAACCAGGCTTATGCCAACCAGCAAGCCGACATTAACGCCGTTACTACTTACAAGGACATTATCACTAGTAACGTTATTTTAAAGGGTGCATCCAAGTACCTGGCTAACCCGGTAACTCTGGTTAAGAAGGCAACTCCAGCCAAGAAGGCTGTTTACAAGACTAATGATGATGGTACTAGAACCCTGGTTAAGAAGGCGGTTAATGCTAAGCCAGCAGTTTACAAGCGGGAAAGCAAGAGCTACTCAATCTCCCCAAGTGAATTGGCTAGCGCGGTTTCAGTAACCACTACGACTTCTTCTCAGGTCTTCACCTTGTCAGCTACGGCTGAAACGCCAGCCAAGGCCCAGGCAATTGCTAATGCAGTTGCCAAGGAATTTAAGGAACAGATTCCTAAGATTATGGATGTTAACAACGTGACGATCGTGGCGGAAGCGCCTAAGGGAACTAAGTCTTTCCCAAAGGTAAGTCTGATTACGGCTATCGGTGTCTTGGCTGGTTTGGTTATCAGCTTGTTGATCATCATCATCAAGGACTTGTCAGATACGACTGTTCGTGAAGATTCATTCATGACTAACGAACTTGGCTTGACCAACTTGGGTGAAATTGCAAGCATCACGATGCCAAAGGACTGGACCTTTACGGCTAAGACAGCTGAAAAGCGCGGCAGTTCCAGAAGACGGGTTTAG
>LACTIS1119B1_08320 LytR family transcriptional regulator
ATGTACACGCCGGTCTCAAAGTCTACCAAGTCAAACAAGAACCGGTCCAGCTTAGACAAGATCCTGGATGCCAAGAAGCCAGTCAACCTATTGATTCTAGGAACTGACACCGGGGCTGAAGGCCGGAGCGTAAAGAATTACCACGGTTTGACTGACTTGATGATGTTCGTCACGGTCAACCCAAGCAAGAAGCAGACGCGGGTAACCACGATTGCCCGGGACTCCAAGGTTAACCTGCCGGACTACCCGGAGGTTTCACCGATCAAGCTGAACAGTGCCTACTCTTTGGGCGGGGTTAGTGAGACGATCAAGACTTTGGATAAGTACTACAGCGTGCCGATTGATGGTTATGTCCTGGTTAATTGGGCAAGTACCATGAAGATCATCACAAAGATGGGCGGGGTGGATGTCATCTCTCCATTGACCTTTGACAATATGGGCTACTCCTTTAAGAAGGGGCAGATGTACCACATCTCTGGCAAGAAGGCTTTGGCCTTTGTTCAGCTCCGTCACGGTGACCCGCGGCAAGACTACGGCCGCCAAGAGCGTGAACGTCTGGTGATGATGGCTGCAATTAAGAAGAGCGTGTCATACAAGACCATCTTAAACAGCTCATTCATGCAATCTTTGGGTGACAGCATGCAGACTGATCTAAGTTTGAACGACATGATTAAGTTGGCCATGAATTACCAAGGGACAACTGACAATGTCAAGTCAGACTACGCTCAAGGGAAGAGCAGCAGCGTCAACAATCAAAGATTCGGCAACATGGAAGTTGAAATCATGTCTACTAAGGAAAGACAGCGGATTTCCAATAATATCCGGCAAACTTTAGGAATTAAGAATGTCAACGTTTATAAGGAGGATAACTAG
>LACTIS1119B1_08330 GTP-binding protein
ATGATCGACAATCAAACTCACTCAGTCAAGGCCTACTTAGCCGGCGTCAATCTTGATGATCCCAACAACTTTGACTACTCCATGACCGAACTGGCCAATTTAGCAGAAGCCAATAATTTCACCGTTGTCGGCTCCAGCCAGCAGAAAGCGGAAAACATCGTTGCCTCCAGCTACCTGGGCAAGGGTAAGGTAGCTGAAATCAAAGACCTAGCCCAAGGACTCGGGGCCTCCGTCCTCATCGTCAACGATGAACTGACCCCAGTCCAAATCCGCAACCTGGAACACATGACCAAACTCCGCGTCATCGACCGGACCGAACTCATCCTGGAAATCTTCTCTTCCCGGGCCCGGACCAAGCAAGCCAAGCTGCAGGTCCAATTAGCGCGCCTCCAGTACGAACTGCCCCGTCTGCACCCGTCTGAAAACAATCTCGACCAGCAGCACGGCAGCGGCGGTTCCACCGGCGGGGGCTTCGCCAACCGCGGGGCCGGGGAATCCAAACTGGAAATGAACCGGCGGACCATCGGCAAGCAGATCTCCGCTATCAAACATGAATTAAAAGAAATCTCCGGCCAGGAAGAAATCAAGGCTGCCCGCCGCAACCAGAGCCAGCTGCCTAAGGTCGCCCTGGTTGGCTACACCAACGCCGGCAAGTCTACCACCATGAACGGCCTGCTTGAGGCCTTTGGGGCTGGCAATGAAGATAAACAGGTCATGGCCAAAGACATGCTCTTTGCAACCCTGGACACCTCAGTCCGACGGATCGACCTGGATGGCTTCTCCTTTATCCTGTCCGACACGGTCGGCTTTGTCTCCAAGCTCCCCCACAAGCTGGTCGACTCTTTCAAGGCGACCCTGAAGGAAGCCAAAGACGCTGACCTCTTGATCAATGTCGTTGACGCTGCTGACCCGAATATGAATCAGATGATCAAGACCACTCTAGAAGTCTTGGACGAAATCGGTGTCAAGGACCTGCCAATGATCACGGCCTACAACAAGGCTGACTTGACAGACCGTAACTACCCGCAGATTGAAGGGGGCGACCTTCTTTACAGCGCGGTTGACCCAGCTTCCATCCAGGCCCTGGCCAAGCTGATCACAACCCGCCTTTTCAGCAATTACCAGATCACTGACCTCCGCCTGCCGCTAACAGCCGGCAAAGACCTGGCCTACCTGCACCAGCACTCCCGGGTCTTAAAGGAAGACTACCAAGCTGACGGAATCGAAGTTTCCGCCCGCCTGTCGCCCCAAGACCGGGCACGTTTTAGCGCCTACCAAATTTAG
>LACTIS1119B1_08340 cell wall-associated hydrolase
ATGAAGAAGTCTAATATGATCAAGTTCTCTGCTGCAGCGCTGACTTTCTTAGGAATCTCAGCGACAGGGGTCAAGCCGGTCAAGCAGCCGGCCCAGGCCGCCAGCAAGCGGATCAAAGTTATTAGTAAGCAATATGTCACTGTCTGGGCCAACTACCAGAAGGGGCGGCATGTTGCGACTCATTTAAAGAAGGGCAGCAGCCATTTTGTCTACCAGACGGCAACTGACTCCATGGGCAATCTGTGGTACCGGATTGGCAAGAAGGAATGGGTCATGGCCAAGTACTTTAACCAGGTCAAGTCTGCCAAGAAGGCCGTGAAGGCCAAGAAGACCAAGGCTAAATCTAAGAAGACGGTTAAGAAGGCCCGCAGTGCTGCCAGTTTGGCAGCCTCTTGGTTTGCCCCGATGGGGTCTAAGGCCCGGGCTAAGGCAGTCGTGTCTTTGGCTAAGCAGCAGGTCGGCAAGGCCTATGTCAAGGGCTCCAAGGGCCCGAATGCCTTTGACAATGCCAGTTTGGTTGCCTATGTCTACAAGCAGGCAGCTGGCGTCAATACAGGTTCCAGCACCAAGAGCCAGGTCAAGAAGGGGATCGCGGTTGATCCAAGTTCTGGCTTTGCGGAAGGAGACCTGCTCTTTTGGGGTTCCAAGAATAAACCATATAATGTAGCCATTTACGTGGGGGACGGGAAGTACGTTACCGCTGCTGGAGACCAGCAGGGGGTTGTACAAGCGAGCCTGTCCACCTACTTCTGGCCTAGTCGGGCAAGAAGAGTTCTATAG
>LACTIS1119B1_08350 cell wall-associated hydrolase
ATGGGTAATGCAAGATGGATTAAATTCATGGGCGTGGCGGCGCTCTTTTTTGGAGGACTGGGCCTAGGCGGCCAGCCAGCAAACGCGCAAGTCAAGGGTCACCTTTCCAAGGTCCAGGTAGTCAAGAAGGCTCCGGTTTGGACCAACTACAAGAAGGGCAAGAAGACCCACAAGTACCTTAAGAAGGGTACGGTCAAGAAGGTCAAGGCTTCAGCTACTGACAAGAAGCACAAGGTTTGGCTGAAGATTGGGAATAAAAAGTGGATTGCCAGCAAGTACACGGTTGTCTTAACAACGACCAAACAGACTGCAGCCAAGAAACCGACCACCCCCGTCTTAAACGCCAATCAATTGACGCAAGCTGCTTCGTCCCAGGCTCCCGTTGGTTCATCTTGGCGGCAAAATGCCGTAGTAGCCTTAGCCAAGGCGCAAGTCGGCAAGGCTTATGTCTGGGGCGCGACCGGTCCAAGCAGCTTTGACTGCTCCGGCTTAGTCCAATGGGTTTACAAGACCGCGATTGGGCAAACCGTTTCCCGGACTACCTATACCCAGGTTGAGGAAGGCGTAGCTGTGCCGGTATCAACGGCCAGCCTACAGCCGGGGGACCTCCTCTTCTGGGGGGATGTGGCAGCGCCATATCACGTTGCAATTTATGTCGGTAATGGTCAATATGTTTCCGCCGCTGATGAGCAGCAAGGGGTTATCTTGGCAACCATTAGCAGTTACTTCTGGCCATCAACGGCCCGGCGGATTCTCTAG
>LACTIS1119B1_08360 hypothetical protein
TTGGCTGGCCAGGTTAAGTCCGGCTACAAGTTCACGGCCACGGGTCAAGCCCAGTACAAGGGGCGGACCTGGTACCGGATCAAGGACAACAAGTGGATTCTGGGGACTAACACAGTCACGACTAAGAAGTACGCTTCAATTAAGGCTAAGGCTGCTAAGACGGCTAAGCAAAAGAAGGTAGTTGCTTTGGCAAACGCGCAAGTCGGCAAGGCTTATGTCTGGGGGGCAACTGGTCCTTACAGTTTTGACTGCTCAGGCTTGACCATGTACGCGTACAAGAAGGCAACAGGCTTGACATTGCCGCACTACTCAGTCAGCCAGCTCTACTACGGCAAGGCGGTATCAACTAAGAAGCTGGTCAAGGGGGACCTGCTCTTCTTTGGTTCTAAGTCAGCTCCAAGCCACGTAGGGATTTACGTGGGCGGCGGCAAGTTCGTCCACGCTTCCAGCCCGACGGTTGGGGTAATCAAGTCTAAGGTCAGCACGAACCGCTCCAGCGCTTTCTACCCATCCAGCGCGCGGAGAGTAATTTAA
>LACTIS1119B1_08370 cell wall-associated hydrolase
TTGAAGTTCAAGAGTTTATTAGTCAAAGTTTTAATGTCCCTGTCCCTGGTCGCACCTGTTGCTGCCAGCGCCCAAGCTCCGGCCGCCCAGGCAGCTACTGTTAAGGCTGTTAACAAGCAGGTTGTGGTCAACTACGTATCTGGCTACAGCGTTAAGGCTTGGAAGAATTACAAGGTTAAGCTTGGCGCGGCCAACGACACTGGCATCAGCTTCAAGCACGGGACTACTTTGACGGTGGTCGGCGAAGTTAAGTACAAGAAGCAAACCTGGTACAAGATCGCTGACAACGAATGGATTCTGGCTTCTTACACTTTGAGTCCTAAAGCCTGGGCCAAGAAGGCAGCAGCTGCCAAGAAGGCCGCTGCCAAGGCAGCTAAGAAGGCTGCGGCAGCCAAGAAGGTATCTAAGAGCAAGCAGACCAAGCAAAACAAGGTTGTTGCTTTGGCCAAGGCCCAAGTGGGCAAGCCTTACGTTTGGGGCGCCACTGGTCCTTACAGCTTTGACTGCTCCGGCTTGACCAGCTACGTTTACAGCCGGGCTCTGGGCAAGTACATTACCCGGACCACTTACACGCAAGTGCACCAAGGCAAGACGGTTGCTGTTTCTACGGCAACTTTGAAGAAGGGGGACCTGCTTTTCTGGGGTTCCAAGTCTTCACCGTACCACGTGGGGATTTACGTGGGCGGTGGCAAGTTTGTTCACGCGGCTACTCCAAGCCAGGGCGTGATCAAGCAGAGCCTGAGCTACTACTTCTGGCCATCAACTGCCAAGCGCTTGATTTAA
>LACTIS1119B1_08380 cell wall-associated hydrolase
ATGAAGCAGTTTAAGCAGATCTTAGTAAAATTGACCTTAGCCCTGGCCCTGGTTGTGCCAATCGCCGTGCAGGCAAACAGCCACCAGGCTCAGGCAGCAAGCGTGACGACCAAGCGGAACAAGGTCGTCTCCCTGGCCAAGAAGCAAGTTGGCAAGCGCTATGTTTACGGCGCTACCGGTCCTTACAGCTTTGACTGCTCAGGTTTGACCCAGTACGTTTTCAAGAGGGCGATCAAGAAGTCCATTACCCGGACCACCTACACCCAGGTAAAGAGGGGCAAGACCGTTAGGGTTTCAACCGCCAGCTTGAAGAAGGGCGACCTGCTCTTCTGGGGCTCCAAGTCTTCCCCATACCACGTTGGGATTTACGTGGGCGGCGGCCAGTACGTGCACGCGGCTACTCCAAGCCAAGGTGTCCGCAAGCAGTACTTGAGCTCCTACTTCTGGCCATCAACTGCCAAGCGGGTTATCTAA
>LACTIS1119B1_08390 beta-glucanase
ATGCGATTATCTAAATTTACATGGTCTCTGACGGCGCTGATAGCAATTATTTATACCGCCACCCTCATTGTTACTCAAATTGAGAGCCCTTATCATATTCAGGCTGAGAGTTACCGGCGTTGGCGAGAAACATACATCATCAAGCAATCCGCTAACCGGGCCTTTGTTAATACCAGCAACAATCGTGCCAAACCCGTTGCCCTTTCCGAGGGGCAGGGATATGGGCTCTACATTACTGCCGCGGCTGGTCAACATGGTTGGGCAAAATCACGTGACTTCGACCAGTTGCTGAGCTATTATCTTGCCCACCGGGATTATGTCGGCAATCACCACCAGACGCCAACCTACCTAATGCAATGGCGCCAGTACCAAAAGAATGGTCACTGGGCTAGTGATATCAACAGTGCGACCGACGGGGACCTCTTCATCGCCATGGCCCTCCACCAGGCAGCTCGGGTTTGGCCAAAGCGGGCTGGCTACTATCGGAATTTAGAACGGCACCTGACGAACGATATTCTGGCCTATGAGTATAACCCGCATACCAGATCGCTGACGGTGGGTGATTGGGCGACGAGCAAGTCAAAGTACTACCGCTTGATGCGGACGTCAGACGTGGCCCCGACCTTTTTTGACACTTTCTATCAGTCCAGCCACGACCAACGGTGGCGAATTGTAAAGGATGGGATGCTCGATCACCTTGTGGACCTCAGTGCTCAGCACCGCACCGGACTAGTTCCCGACTTTGCTTGGGTAACTGCGGACAGTACCAAGCCCGTCAAACCGTGGACGGTGGCCAGCAAGAACGATGGCAACTATTTCGTCAACGCCTGCCGGGTACCGATGATGCTTGCGAACAGCAAAGATCCCCGGGCACAGAAGACATTGACCCGCATGATGAAGCTCTTCAGCCAACGCTCATACGTAACAGCAGGCTACACACTGACCGGGAAGAAGCTGAATCATTACCAATCAGCCAGCTTTAGTGCCCCGATCTTTTTAGCAGCGAGTCGCAACCGAAACCACGGGTATGACAACCTATTTTCAAGTCAGAAATTTATCTTTAGCAAGCCATTGCCAAAGGATAATTACTATGACGCCACGCTAACCACGATTGCAGCAATGGAAGGGATGAATTAA
>LACTIS1119B1_08400 glycosyltransferase
GTGGTTCAAGAGATACTGATGATTATCACTTTGGTCTCCATCTGGATTTGCCTCTTCATGCAGATCTTTACCCTGAGCGGGGCTATTGATTTCTGGCTCAAACACAGTACCAAGGTGATTAAAATTACCCCACTGCCGCGCTACCCGATGATCACGATCGTCGTCCCCGCCCATAACGAGGAGGTCGTGATCGCCCAAACTACGCGGGCAATCCTTGATATGAACTACCCGGCAGACCGGGTGGAACTGCTCCTCTATGCGGATAACTGTGCGGATAAGACGGCTGATGAGATGCGGCGGGCGCTTGCTGATCCGCGCTATCGCAGCCGCAATGTTAAAATTATTGAACGGACCGGATCCGGCGGCAAGGCTGGGGTTCTTAACGATGCCCTTAAAATAGCTCATGGCGACTACATTGGGGTCTACGATGCCGATGCAATGCCAGAAACAAATGCCCTCTATTTACTGGTGCGGAAGGCACTGGAAAATCCGGAACGCTACGTTGCCGTCTTTGGGCGGAACAAGACCCGCAATGCGCAACAGAATTTCTTGACTAAGTGCATTAACCAAGAGATTGTCGTTACCCAGCGGATCCAGCACTGTGGTATCTGGCACCTGTTCCGGATTGGCCGCATCCCCGGCACGAACTTCATCATTCAGCGCCAGTTTGTCCAGGAGATTGGCGGCTGGCGCAATGGAGCCTTGACCGAGGATACCGACATTTCGTTCAAGATCATGCAGAGTGGGAAACTGATCGCCCTCGCCTACAATTCCGAGGCCTTTCAGCAGGAGCCGGAACGGCTGCATGACTATTACGTCCAACGGTTGCGATGGGCGAAGGGCAACTACCAAGTGGTCATTCATAACTTCCGCCACCTGTTCGATCGCAGCAACTGGCGGGTTAAGCTCGAAACCTTCTACTACTCCTGCACCTTCTTCTGGTTTAACGCTGCCATTGTCCTATCTGATATTATCCTTCTCGCCAACGTCGGCTTTATTATTGCCCGGTTCTTCAACCCGTCCCTAGTAATTCCGTTTACCTTTGGCGAGAGTAATATTTTAATTATGCAGGTATTATTACTGAACTGGCTTTTGATGATTATCCTGTATATTCTTCAGATATCAATCGCAATGGCCACCCAATTTGGTCAGGCCACGACTCACCAGATCTGGCTGGCACTGGCCTCGTATTTTACCTATTCGCAGCTCTTTATTGTGGTCTCCATCCATGCCGTGACTTCGGTCTGCCTGGATGCCCTGCTGGGACGCAATGGTAACGTTTGGATTAAGACCAAGCGCTTTAATGGCTAG
>LACTIS1119B1_08410 hypothetical protein
ATGGTTAATTGGTTTTTCTGGTTGGCAATGGCGATTACCCTTATTTTCTTCATTCTTGTCATGATTCTCTCCGTTCTCCAGTGGATAATTTACTCGCGGGTTGAGAAAACAATGCTTCACTACGACAAACAGCACTACGCATAG
>LACTIS1119B1_08420 hypothetical protein
TTGATACGGCGACATATAGTTGAATTCGACCTGACTATCCTTTTCCTGGGGGTGGCCCTAATTGCAGTTTTAATGTGGTGGGCAGGAAATTACTCAACCACCGTGGCGACAGCTATGCTGATCCTGGTTCTTTTGGGAACCGCAGCTGGGACGCTGATTCCCAACATCTTATTGACTTGGCTGATTATAGACCTGTCAACCATCGGGATTGCAATCCTGATGATGGGTTGCGTTTTGATGACTATTCCAATCAAGATCGGTCTGCTGTTGGCCTTCCCAGTCTGTGCCAGCTTGAGTACGCTCAGCCGGTCAATCCTTTCTGGTTGGGGATGGATTGATCGTAATCGCTCTGAGATCAATAGTTACGTGGAACACTATGACCAGATCACTAAATTGCAGACAAAGTACAACGCTCAGAAGATTTACAAAAAGGCTCAGTGTGATAGTCAGTGGCTTAATACCACCGCAATCCATTGGTCACACAATCGACAGATCCGGCAGTTTCATGAGCGTGAATATAACGAGATGCTGCGGGAAATTGCTAAGGTCCTGAAGGATGACCGGCTTCCCTCCGAAGCGCTTTACTATATTGGCCACGGAACATTTCTGATTATCTCATTCAACCTGACCAAGCAGACCTATGATCACCGGAATGCTCTGACGCGTCAAAGTCTGCAGAAACTAAAGATCTGTCAGGCAACACCGCAGTTTAAGTGGGGTACCAAGTACATTAATAAAGACAATGCTGCCAAGTTTCCGGAGCTTAAGGAGATGATCATACGCCATCTCAACCGCGATATGGAAACGGACCTGATAGTGGAATATATGAAGGAGGATAATGCAAATGGTTAA
>LACTIS1119B1_08430 D-lactate dehydrogenase
ATGAGAATTGCATGTTACGGCGTTAGGCCGCTTGAAAGAAGTTATTTTGAAAAACTGAACAAGTATGACTACGACTTGAAGCTCATTGCTGAATACTTGAACCGGGAAAACGTAGTACAAGCAGAAGACTGCGACGCCGTCCTGGTCCGGGGCAACTGCCTCTGTGACCGGACAAACCTGGAACAGTTTAAGAACTACGGGATCTCCTGGGTCTTCACCCGGTCAGTCGGCGTGGACCACTTCGACCTGGAAGCCGCTAAGGACTTGGGCATCTCCGTTGCCCGGGTGCCAAACTACTCCCCATACGCGGTAGCCAACCTGGCCTTTACCCTGGGCTTGACTTTGTCAAGACACGTTGGTGAAGCTGCCCATCATGTCCATGAACAGGACTTTGGGATGCATCCGGACTACTTCGCTACGGAATTCAACCGTTTGAAGGTCGGCATCTACGGGGCCGGCAAGATCGGGGCGGCTGAAGGCAAGATGTGGCAGGCTCTGGGCGCCGAAGTTTATGCCTATGACCCATTCCCATCTGACTTCGCCAAGCAATACTGCACTTTTGTAAGTGAAGACGAACTGCTGGCAACTTGTGACATCGTTTCTGTTCACGTGCCATACTTCCCAGGCGAGAACGACAAGCTGATGAACGCTGAATTCATCGCTAAGATGAAGGAAGGGGCAGTCTTGGTCAACACGGCCCGGGGCGAACTGGCTGATGAAGCAGCCATCGCCGCTGCTGTCTCCAGTAACCACCTGTCTGGCTACGGCGCTGATGTGGTTTCCAACGAAAAGAAGATCATGGGCCACAAGTTTGACTGTGAAAGCGACGTGCCGGACCAGGAAGTCCAGTCCTTGATGGACCTTTACCCGCGGGTGCTCTTGACTCCGCACATGGGCTCCTTTACTGAACCAGCCTTGGAAGACATGATCTCCTTGTCATTTAACAATTTCCATAACATGGCCACTGAAGGGGCAGTTGATGCCCGCAATGAAGTCGTGGCTGCACCGGAAAGCTCCACTTTCGCATCTGAGAAGCTGCGGGCTTAA
>LACTIS1119B1_08440 cell wall-associated hydrolase
TTGAAGTTCAAGAAGTCATTAGCCAAAGTAGTCGCAGCCGTATCCCTGGCCTTCGCCGGTTTCGTTGCCGTAAATACTGTTAACACTCAAAACAACACTGTCCAAGCTGCTTCTAAGACCAGCCAGTGCAACAAGGTTGTCTCCCTGGCCAAGAAGCAAGTCGGCAAGCGTTACGTTTACGGGGCAACCGGTCCTAACGCCTTTGACTGCTCAGGCTTGACTTCATACGTCTACAGCCACGCCATCGGCAAGTACATCAGCCGGACTACTTACAGCCAAGTTTACCAAGGCAAGACTGTTAAGGTTTCAACTGCCAGCTTGAAGAAGGGTGACCTCCTCTTCTGGGGTTCCAAGTCCTCCCCATACCACGTGGGCATCTACGTTGGGGGCGGCCAATACGTGCACGCCGCTACGCCAAGCCAGGGTGTCCGTAAGCAATACCTGAGCTCCTACTTCTGGCCATCAACTGCCAAGCGGATTATCTAA
>LACTIS1119B1_08450 guanylate kinase
TTGGCTAAAAAAATTATCTTGATTGCCGGTCCCAGCGGGGCGGGCAAGACGACTATATCTGAATACTTGACCGACCGCTACCAGATCCCCCGGGTGATTACCCATACCACCCGGCCAAAGCGGCCTGGGGAAAGCGGGTCAGCTTATTATTTTGAAGACGATGATTCTTTTGCCCAGCTGCACTTCTTTGAACATGTCAAATACGGGGACTACCAGTACGGGTCCAGTAAAGAAGGGCTGGAAAGAGCCTGGGCCAAGAACGACCTGGTCAGCTTGATCGTGGATATCAAGGGGGCCCGGTCCTACCTGGAAGCTTTAGGCGACCAGGTTTACTTCCTTTATGTGACTTGCAGCCTGGATACCTTGGCGCAAAGAATGGCTGACCGGGGTGATGCAAGTGACCAGATCAAGAAGCGGCTGACCGGCAGCGAGTTGAACGAATTGCCGGAAGATTTGGCAAAATACGCCCATGTCCTGGTCAATGACGACCTGCAAGCGACCTATGCCAGCTTGGACAGTTTGGTGAGAAAATTACAAAATTAA
>LACTIS1119B1_08460 hypothetical protein
ATGAAGAAAGCCGATGTTGAATTAGGTGCCGTCGTTAACGCCAAGTCAGAAGAAGAACTGAAGAAGCAGTTCCAAGGCACGGTGGAAAAGATCTATGAAAATTCCGCCCTCCTGGCTATCACTTCCTTTGACGACGTTGATGCTGCTGCCGTCAGCGACCTCAACTACAAGCTGGTCGTCAACTTCAAGAATATGAAGCCGGCCCGGGCAGCCAAGAAGGCCAAGGCCCTCTCCACCAACAACGTGACCATCGAAAAGATGGCCCCGACCATGAAGGCTGACGACAAGGACAAGAAGGAAAAGAAGGCTCCGGCCAAGAAGAGCAAGTAA
>LACTIS1119B1_08470 hypothetical protein
ATGAAAGAAAAAACTAAAATCCTGCTCTACTGGTTCATCCTCCTCCAGCCCTTCCTGGATTTGGACTTCTTCTACCGGGGGAAGCTGGCCACCATCCTGCCCTTCACCATCCCGACCATCATCCGGATCGCTGGTGTCATCGTCTTGGTGGGCCTGCTTGTCTGGGGGCAAAAGCAGCTGCCTCCGGCCTGGCTCTGGGCCTACCTGGCCCTCTTGACCCTCTATGGGATCTTCCACCTCTGGCACATGCAGAACTTCAAGAGCCTCAGCCCGAACGATTATGGCTACTCGAATTTCGGGGAGATTTTTTACCTCTTCAGAATGCTCCTGCCCCTGGTCTTGATCTGGGTGACCAAGAAACTGGAAATCAGCCAGGACTTCTTGTTAAAAGCCTTCGCCTGGATCAGCGGCCTCTTCACCGGCACGATCGTCTTGAGCAACCTCTTCGTGGTCTCTTTGAAGTCCTACGAAACTGGGGTAATCTCCGGCAACATCTTCACCTGGTTCATGGGGCCGCTTTACGGCTACTCCCACAGCGCCTCCAAGGGTTTCTTCTACTTTACCAACACCTTGAGCGCCATCCTCTTGATGCTGGCCCCGGTCGTCTTCTACCTGCTTCTTGAGCGCTTCTCTTGGCAGACCGGCCTTTTGGCCCTCAGCCAGACTTTGGCTATGCTGGAAGTCGGCACTAAGGTCGCCCTCTACGGCTTAGCCGGAACCCTGGCCGTCAGCTTGATTGCCTGGCTGGTCCACCTGTTTTGCTTAAAAAACGTCAAGTTTTCTAAAGGCGGCCTGGTCACCCTTTTGGCCTTAGCCGGGATCACCGGGGTCTGCTGGCAGGTCTCCCCGGCTGTCCAGCGCTACAAGTACGAGATCTACTGGGCAAACAGCCATGACTCCAAGATCGACCAAGAAAATGCGCTCTTAAAGGCGGGCCTGGCCAAGTACAAGAATGACCCGGACAAGCTGAAGGAGTTTGAGAAGGACTTTTTGGCCAAATATTACCAGAAGTACGCCTTAAACAAGCGCTTCATTACCAAGTCCTATCCATATAAGTACGACCCGCAGTTCTGGATCGACCTGCTTAAAGAGCCGGCCAGCGTCCGTTTAGCCAACCGCAAGGTCGAAGAGGCCATGCTTAAGCAAGTGGTCAAGTATGACAATGATCCTTTGGACAAGTGGCTGGGGATCGGTTATATGCGGCAGACCAACATCTTCAACCTGGAGCGGGACTTCACGGCCCAGTACTACTCTCTGGGGCTAGTCGGCGCCTTCCTTTACCTAGCCTTTTACCCGGCCATCATCCTCTATGGGGCCTTTGAGTGGCTGAAGGAAAAAGCCTGCCGGACCTTTTACTTAACCAGCCTCTTGATCGCTAGCGCCCTGCTATTGGGGGCCAGCTACATGTCGGGCAATGTCCTGGACTTCCCGACCTCTAACCTGCTTTTAGCCTTCCTCGACGGCGGCCTCCTGGCTTACATCAAGGAAGAAAAAGGCCGAAGCAGAGGACTGCGAATCGTCAGATTTGAGAAAAAGTAA
>LACTIS1119B1_08480 hypothetical protein
ATGTGGAGCTGGAACGTACTGGGGGTGGCCCTCTGGGTGGGAGCCATCGTTTACCTGGTCTTTATCGTGCAAAATATCCGGCGCCGGCGGCTGAAGATGATCATCCAGCGCCGGCATAAATTTGAATGGGGCAACTCCCTGATCAGCCTGCTGGAAGTCGCCAGCTTCTGCCTTTTGGCCGGCTGGCTCTTAGCTGTCAGCCTCTTTGACGACCCGAACTTGACGGATACTTCCCGGATTACTTCATCCGTGACCTACAAGCCCCTGGTCCTGCAGCCTAGCGCCAGCCAGAGCTACTATGTCCAGGTCAAGTCCACCAAGAACCGGGATTTGAGCCAGCAGTATATTTTTTACCTGAAGGGGAAAAAGTATACCGTGCCCAGCTACCTGGCTACGGTCTCTTATGAAAAGGATCCGATCAACGTGACGGCCTCGGCTCTGCCATTCAGCCGCAAGGAGCTAAAGAAGGAAGATTCCCGCTACCAGCAGGCCTACGTGGCTATCTACACGGCTAAGTACAAGAACACCGCGGCTAACGGGATCGGCCTCCATGTTGGCCACCAGGCCAAGCGCTTCTACCTGATCCGGGTGCCGGACAGTTCCTTTATTGACAAGGAAAGCAAGTAA
>LACTIS1119B1_08490 hypothetical protein
ATGCAGATCAACCTGAAAGACTTAACTAAAGCAATCGAAGAACAGACCTACCTGTCTGACATGGAGACCATCAAGTATTCCGAAGTCTCCCGGAGCAAGAAGAAGCTGCGTGAACACGCCTTGACCATGGTCCAGGAAGTGGCCACGGCCTTGAAGAAAGACCGGCTCATGCAGGTCCAGCTGGTTTTGGAAGGGAAGAACCCTATCACTTTTGCCCTGGAAACCAACATCATCAACCTGCCCCTGGCCAACTACAAGAAGCTGATCAACTTCTTTGACGAAGAAGAAGCCCAGCCGGTCAAGGTCTACTTTGAAACGGCCAGCGAATACCTGAACGCTTCCCACTTCCGGATCGACCTCTTCATGGATGGCGACGAATTAGTAGCCGATGTTGAAGGGGCAGCCGACCGCTTGGCTGACGCCATGAGCGAGAAGATCAAGCAGGTCAAGGAAGGCGAAGCAGCCGCCAAGGAAGCTGCCAAAGAAGCCAAGGCCAAGACGAAGAAAGAGGCATAA
>LACTIS1119B1_08500 transposase
ATGGTCCAAGCGAAAAGAAAGAAAAAACAAAAGACAATTCCGAGAAATAGTGAACTCATTGACCAATTGGCCAGTGAGTATTACATCAAGGCTACTCCAGAGCTTGACCGTGCGGCAGAAATTGCTCATAAGATTTATAACGCCGCTTTGTATCAGCTCAGACAAGCCCTTTTCAAGAGAAAAGGATCTATTTATTATGAGGGCTTGGACAGGATCTTCAAAAATAAAAGAAATGCCAATGAGCTTATGCTTTATGGTCAGATGCCCACTGTTCAATGTGCTCAACAGACGCTTAAAGAAGTAGCCGCGGTTTGGAAGGCCTGGTTCTGTGCCCTGCAATCTTACAAAATAGCACCACAGAAATTTACCGGCAGGCCGAGAATACCACGTTACTTGAAGAAAAGCAGACGTCATACCTTTTACGTGACACCACAAAACGCGAGAGTCAAAGAAGTGAAAAGTGCTGATGGCAAAGATGTCGTAGCGCGGTATCTGATTATTCATTCTTTGGGGCTTAGCATCAAGCTTGCAGATGGCATAAAAAAGGTCAATCGCATCGCAATTAAGCCACTGTCAAATGGTTATAAACTCACAGTAGCCTACACTCCAGCTGCAAACCAGAAACCGTATCTGCCAGACAACGGACGTTATATTGGTATCGATCCAGGTGTAGATAATGCATTTGCCTGCGTCTCAAATACTGGCGATAAGGCCTTACTCATTAATGGCCGTGCAATCAAGTCTGCTAATCAGTACTACAACAAGCGCATGGCGAAATTGAAGAGCCTTCAAGCTCAATACCACCAGCTCGAAAGCATCATCAATACCAAGCAAGGCCCAAAGGCAGTATACGGCCAGACCAAATCCATGCAGCACCTAACCGATTGGCGCAATGCCAAGATTCGTCAATTTGCCCACAAGGCATCCAAGCGCATAGTAGATTACGCGCTAAGCTGTGGAGCAAATACTATTGTGATTGGCAAGAACAATACATGGAAACGGTCAGTAAATATGGGCAAGAAAAACAATCAGAACTTTGTTGGCTTGCCTCACCAGCAGATGATCAATATGATCCGCTACAAGGCCAATATGGTCGGTATCACGGTTATCTGCACAAATGAATCGTATACAAGTCAGACTAGTGCTCTTGACGGCGAAAAGCCATGCTGGAACAATGGCAATAAGAGCAGGAAAAAGCAAGGGCTGAGCCCAGCCAATCGGCGCATTCACCGCGGCATGTTTAGAACCAACAAGGGTTTGTTGGTCAATGCGGACATCAACGGTGCAATGCAGATAGTAAGAAAAGTATTCCCGAACGTCTCATTTGCGAACGGGATAGTGGATGCTGTGTTGCATCCAGCCAAATGGTCTCCTCTCATTTGA
>LACTIS1119B1_08510 hypothetical protein
ATGAAGCATATTAAGTACCTAACATTTTTAGCATTGTCTATATTAGGCATTGCCGTTCTCAGCGGAAAGGCCTATGCTGCAACAGATGATGAAGTAACTACCTTGTACAACAAGGGCGTTGCTACACAAAAGATTGACTCTAGCCAATACAGTCTCTCAGATTTCAAGGAATTTGTCCAAGAAGCCGAAACTAATCTGGGTGTACAAAGCGGTAATTCTAAGATTAGTGTCGAATCTTTCTTGGAGCTGGATAATTATGGTGCTATGCCTGATGGATCTTCACCATATTCGAAGTCTTCAACATCAAGCAATATTTATCGTGCACCAATGCTCAGAGCATCTTCATCCAGAAAAACAACCTTTACGAATAAGATTCAAAAAGGTGATATATTAATTATTGGTGGGACATTCGGACATGCAGCCATTGCTACCACAAACAAATACGTTCTTGAAATGCCCGGTGGTGGGAACATCGTTAATTGGCTCTGGACTCAATTAAAAGATAACAATAGCCAAAAAACAAAGACACATTGGATTGATTATTGGAGCAAAAAAGCAGGCAAAAACAAGATTCAAATTTGGCGGCCTAAAGACAAAGCTATGAGAGAAAAGGTTGCTAATTACGCTGATTATCGTTTTTGGAGCAGTACTCATTCTCTCACTAAAAACAGACACATCAATTATCAAATTATCCAGGGAACATCTGGTTTTAATCCTAATTATTGTTCACGGATGGTGTGGCAATCTTTCTACCATGGGTCTGGCAACAAAAATGTTATCCAAACTTCCACAGCTGGTTTAACTTACATTTTCCCAGGCGCACTTGTAAATACCTTTACCTCTAAGTATCGTCCATATAAAGTAGGTACCTATTAA
>LACTIS1119B1_08520 hypothetical protein
ATGAAGGCAATCAAGCAGCTCTATCATGAGCACAAGATCATCACGCTGATTCTGACCTCGCCAATCTGGCTCTTTGTCCTTTTCTCCGTATTGTTTACGGCCAACGAGATCTACAAGTCAACCCAGGAAGGCGTGGTAACAGAAGTTTTGAACAAGACCCTGCCCCAGCATGGCTACAGCGACATCTACTATTTGAACCAGGTTAAGGCTGACAGCCATTTTGGCATGGGGACCACCTACGTCAGCAGCTTCTCAACCAAGCGAACGGTTAAAAAGAACCAGGCTCTCTTTGCCAAATCTGGCAAGAAGATAGACAAGGGCGATGCCAACCTCCCTTATTACAAGGAAGTCACGGTCCGCCGGAGCGGCATGGGCTGGAAAGTCACGATCTCTGACTCGATTGGACAAGAGGAAAGCAGCTATAGCGTGAAATGA
>LACTIS1119B1_08530 hypothetical protein
ATGGATTCAGAAAAAGAACAAAAGGAATCCCTGGACTATGCGATTGCCAGGGACAAGTTGATCCGGCAGGGAGTCTTGCCAGATGATCCAATCGTCAAAGCAGATGATGCTTACTGGGAGCAATTTAAGTAG
>LACTIS1119B1_08540 membrane protein
ATGCTGGGGATGCAGGTTAGTTTCAACATCTGGGACGTCTTGATCAACTTGGTCTTTTCATACATTGCCACGGTGGGCTTTGCCTTGACGGTGAATATTCCCCACCGGGTGATTCACTGGAGCGGGATCTGCGGTTGCGCGGGCTGGATGGTCTACTGGCTGGTGACGGAGGCTTCTGGCGGACGGATGATTTCCAACACCCTGGGGGCCTTTGCCGTGGGCTTGGTCGCGGTGGCTTTGGCTAAGTGGAAAAAGTGTCCCGTCACCCTTTTCAGCGTACCGGGCCGGGTGCCGCTGGTGCCGGGAGCGCCGGCTTATATGGTGGTCAGACGGCTGATTGATGGCAAGTATATTGCTGCCCAGCAGATGATGATGCGGGTGGCTATCGTGACTGTGTCGATCGCTTTGGGCTTCTTGCTGTCAACCCTGTTCCAGGAAGCTTGGAACAAGTACATCAAGCGGCTCAAGCTGCGGGAGAAGTTGAAAAAGTAG
>LACTIS1119B1_08550 membrane protein
ATGCTGGCCGGCGGTAGCGAAATGTACCGGGTGGAGGACACCATGCGCCGGATCGCTGTCAACGCCGGCATCAAGGAGGTCAATGTTTTTGCCATGCCAACCGGCCTCTTCGTCAGCCTGGATGATGGGGAATGCAGCACGGTGACGGAACTGGAAACCGTAAAGAAGCGGGCCATCAACCTGGAACTGGTCGACCAGGTCAATGAATTCTCCCGGGAATTCGCCGACAAGCGGATTGACCTGGAGGAGCTGGAAGAGAAGCTGCGGGAAATCGAGGAGAACATCCCGACTTTTCCTTTATGGCTGCAGGTCATCGGGGCCGGGATCTTGAGTGCCACCTTGATGGTTCTCTTTTTGGATGTCTATGACTGGATCGACTTCCCGGTTGCCGGGCTGATCGGGGCCAGCGGCTATTTGATGGACTCCTGGCTTAAGGGCCACACCAAGATCCGCTTCCTGGCGGAAATGATCGCGGCCATGGAGATGGGGCTACTCACCATTATCATTAATAGGATTTTTCCGGCCTGCAATGTAAACAATATTTTGACTGGGGCCTTGATGACTCTGGTGCCCGGCCTGGCCTTGACCAACGCCTTGAGAGACTTGTTTATGGGCGACTGGGTGTCAGGGATCGTGCGCATGTGTGAGGCGGCGATGACGGCGATTGCCCTGGGCGGCGGCGTCGGGATCGTGATTAGATTTTTAGGAGCTTAG
>LACTIS1119B1_08560 ATPase component of ABC transporter with duplicated ATPase domains
TTGAGTTTACTGACCGTCAGCGGCTTGACCCAGGGCTTTGCGGAAAAGACCCTCTATGAAGACGCCAATTTCGTTTTAAACAAGGAAGACCACATGGGGGTCACCGGCCAAAACGGGGTCGGCAAGTCCACCTTGATCAAAATCCTGACCGGGGAAATCCTCCCCGATGAAGGGTCAGTCAAGTGGCAAAACAAGCTCTCCGTCGGCTACCTGGACCAGTACGCCAAACTGACGCCCGGTCTGACCATGCGGGACTTTTTAAAAACTGCCTTTGACCAGCTCTACCAAGATGAAGCCCGGTTGAACCAGCTTTACATCGATTATAGCGAAAGCGGCGATGAGTCCCTTTTAACTAAAGCCGGGCATTTGCAGACCTACCTGGAAGAAAACAACTTCTACGACCTGGACACAGAAATCGACCGGGTGGCCAGCGGCTTAGGCCTGGCTGAACTGGGCTTTGACCGGGACGTCTCCCAGCTTTCCGGGGGCCAGCGGTCCAAGCTGATCCTGGCCAAGCTCCTCTTAGAGCAGCCTCAAGTCCTGGTCCTGGACGAACCAACCAACTACTTAGACGTCGGCCACATCGACTGGCTGGTCGACTACTTGAATGATTTTACCGGCGCTTTTATCGTTGTCAGCCACGACTACGACTTTTTAGGCCGGATAACCAACTGTATTATCGACATCGACTTCGGGACCATCACCCGCTATACCGGTACATTAAAGCAAGCCATGCGGCAAAAGGAAGCCAACCGGCAGACTTATATGAAGGCCTATGCCAACCAGCAGCGGCAGATCGCCAAGACTGAAGCCTATATCAGAAAAAATAAAGCCGGCACCCGGGCCAAAAGTGCCCGGTCCCGGCAAAAGCAGCTGGACAGAATGGAAATTCTGACCCCTCCGCAAAACGGCAAGAAGGGCAAATTTGACTTTCCATACGTGGAAACGGCCTCTAACTTGCTTTTGCAGACGCAGGACCTGGTGATCGGCTACGACCAGGCTTTGGTTAAGGAAGCCTTCAACTTCTCCGTTGGCAATGGGGAAAAGGTCGCCATCACCGGTTTTAACGGGATCGGCAAGACCACCCTGCTGAAGACCCTCTTGGGGCAGATTCCGCCGATCTATGGGGGCTTTGACCTGTCGGCTACGGCTAAGCTGGCCTACTTCAAGCAGGACTTGACCTGGCCCAACCAGAATATGACGCCTCTGCAGTACTTAGAGAGTGAATTTGACCAGAAGAAGCCCAAGGAATTGCGGCAGGCTTTAGCCCGGATGGGGCTGACCGCCCAATTGGTCATGAGTCCACTTAAGGAACTGTCCGGGGGCGAGCAGGAGAAGGTGAAGCTGGCTGAGATGCAGTTTGAGCCGGCCAACCTGCTTTTCCTTGACGAACCGACCAACCACCTGGACAATGAAACTAAGGACAGCCTGCGGAAGGCCATCGTCAACTTCCCGGGCGGGGTCATCATCGTCAGTCACGAACGGGACTTTTTCAGAGGTGACTGGGTCGACAAGGTCGTCGATATTGAAGCCATGAATAATTGA
>LACTIS1119B1_08570 hypothetical protein
GTGAAAAAACGCTATTATCCATACATCTACGGCGGGATTGCCGGCGTAATGACTTTCATCGCCATGTTCTACATCTGCCGGCACTCTTTCGCCTTAACCAATACCCAGTCCCTGGTCTGGGGCATCATCGGCGCCATCCTGGTCTTCGTGAGCTCGTCTTACACCGAATACGCGATTGCCGAAATCCAGCGGATCTCTGACAAGTACCACCTGGATGAGGAATTCCTCTCCGGCTTAACCAAGCTCAGTCCCAGCTACTTCCGGGTGGCTGACGACCACCTGCACTTGACCGCCCCGCGCTATCTCTGGCCGCGGATCCTCAAGACCCTGCAGAAGTACGACCATGAGCGCAAGCAGGCGGAAAACTTTCACCTGTAA
>LACTIS1119B1_08580 LytR family transcriptional regulator
ATGGAAGAGCAACACAGCAGAAGACAACAGAAAATTTTTCGTAATGTGACTCTTGTCCGGGCTGGCTTTTTGAAAAAGTCCCGCCGCCCTTTGCCGACCATCATTGGCCTCTTGGTGACCTTTGCCGTCATGATCGCGGTGACCTGGGGGGCGCATGCCTACTTCTCCCTGCATTCAGCCTTGGTGAGCATGAACGCCAATAACGGCAGCACGGCGACCAGTGCCCGGATCGCGGCCAAGAAGCCGATCTCGATTCTGGTTTTAGGGGTCGACCAGGGGCTTGAGGGGAGAAATGACAAGGGGAACTCGGACACCATCATCCTGGTGACCGTCAACCCAACGACCAAGAAGGCGACCATGACTTCGATTCCCCGGGATACCTTGACGGAAATTCTGGGTGAAACGAGCAGCACTAGCTACTACATGTTCAAGGTCAACTCGGCCTACCAGTTTGGGGGCAGCAGCGGGTCGGTCAAGACGGTTTCGGCCATGCTCAACGTGCCGATCAACTATTATGTGGAAGTTAACATGAAGGCCTTGAAGGGCTTGGTCAACGTTTTAGGCGGGGTTGACGTCAACGTGCCGTTCAGCTTCAGCTATGACTGGTGTGACTTTAAGAAGGGCAAGCAGCACCTGGATGGCCGCCATGCCATCGCTTATGCCCGGATGCGCTATGACGACCCCCGGGGGGACTACGGCCGGCAGCTGCGGCAGCGGCAGATCATCCAGGCTGTGGTCAAGAAGGGCTTGTCCGTCAACGGTTTAGCTAACTACCAGAAGCTGCTCAAGGTTTTTGCCAAGTACGTCAAGACCAATTTGACTTTTGGCGACATGACCAGCCTGGCCATCAACTACAGAGGCGCGGCCAGCAACATTTCCAGCGGCTACATCCAGGGCCACGACGCGACGATTTCCGGAACCAGCTTCCAGATAGCGTCAACTGAAGAATTGCAGAAGTGGTCCAACAAGCTGAGAAAGAGCCTGGGCCTGTCCACGCAGACTTTGACCAACCAGGAAACCCGGCAGAACAGTCTGAACGAGACCTATAACGGGGTCGACTTCTCCAGCAATGAGACCATCACCAACTACACGATTTATGAAGCCAACTCAATTACGCCAAGAAGCAGTGATTCTTGGTAG
>LACTIS1119B1_08590 alpha-glucosidase
ATGACTAAGCAGGATGCATGGCAAAAGAAGGCCATTATTTACCAGATTTACCCGAAATCATTTCAAGACAGCAACGGCGACGGCATCGGCGACTTAAACGGTGTCCGCCAGCGGATCCCTTACTTAAAGCAGCTGGGCATCACCGCCGTTTGGCTGAATCCGATCTACCAGTCACCGGGCATTGACAACGGCTATGACGTCAGCGACTACTACAAGATTGACCCGGTCATGGGGACCATGGCAGACTTTGAAGCACTTGTCACCGATTTGCACCAGGCCGGGATCAAGCTGATCATGGACTTCGTCTTAAACCACACGTCTGACCAGCACCCTTGGTTCAAGGCCGCGGTCAGTGACCCGGCCAGCCCTTACCGGGACTACTACATTTTTGCCGGTAAAAACGGCGTCCGGCCGAACAATTGGGGCAGCTTCTTTGGCGGCAGCTGCTGGGCAGCAGACCCGGCCGGAACGGGCCAGTCTTATTTCCACCTTTTTGCCAAGGAAATGCCGGATTTGAACTGGAAGAATCCGGCTGTCCGCGAGGAAATGTTCAAGGCGGCTGAGTTCTGGCTCAAGAAGGGGGTCGATGGCCTGCGCCTGGATGCCTTCATCCACATCGCCAAGGCCGACCTGCGCCAGTCCTACCCAAGTGAGGACGATAAGCCGATTATCGCGGAAGACTTTTTCGCCAACCGGCCGGAAGTGCAGGAATGGCTGGCGCCTTTCTGTGCCCGCCTGCGGGAAGAATTTCCGGACCTCCTGCTTTTGGGGGAAGCAGCCAGCGCCAGCATCAACCTGGCGATCGACTACACCGATCCTAAGCGAAATTTGATGGACTCAGTCATTACCTTCCGCTACTTTACGGAAAAAGAAGATTCCGTTAACCCGGACTTCAGCGGCCAATACCAACCAAAAGAGTTTGACTGGCTGGCCTTTAAGCAAAACCAAACCGTCTGGCAGCAGACCTTGTCAGCCGCGCCGACCCTGTACTGGAGCAACCATGACATGGCCCGCCTGGCCACCCGGGTCGCCAAGACCCCGGTCCAGCAGCGGTCTTTGGCCATGGCCATGTACCTGGAGCGGGGGATCCCGGTGATTTACTACGGGGAAGAATTAGGCCTGCACAATCTAGAATTTGATAATGCAGACCAGTTTGCCGATGAGACGGTGGCTGACTTCGTTAAGGAAGCTGGCGAGGCCGGGGTAGACGAAAAGACGGCCCTGGAAATGGCCAGCCAGACCCACAAATTGCCGGCCCGGGGGCCAATGCCTTGGGACGACAGCCAGTATGGCGGCTTTAGCACTGCTGAGCCTTGGCTGACGGGCAGAAGCCGGGACAAGGTCAGCGTGGCCAGCGAAGACGCGGACCCAGCCAGCATGCTCAACTTCTACCGGCAGCTGTTGAAATTGAAGCAGACGCCTTTGTTTACCAAGGGCAGCTACTACCTGCTGGATACCAAAGCAGACCTCCTGGTCTACCAGCGGGATTTAGGGGATGACCGGGCTTTAGTGGTCGTTTCCCTCAGCGCCAAGAAGGAGCACTTGACCCTGCCAGAAGAACTGACTCCGGTCTTAACCGCCGGCAGCATCAACCTGCAGGGCAAGGAACTGACACTGATGCCTTTTGCCGGGGTAGTTTTGCAAAAGAAAAAATAA
>LACTIS1119B1_08600 LacI family transcriptional regulator
TTGAAGAGAACCGCTACTTTAGAAGATGTGGCTCGCAAGGCCCATGTGTCGAAGATGACCGTTTCCCGGGTGATCAACCACCCCGAACTGGTTGCTCCGGAACTGCAGGTCGTTATTGAAGACGCCATGCACAAATTGAATTACCACCCCAACAACGCGGCCCGGGCCCTGGCCAAGAACCAGACCAGCGTGGTAAAGTTCGTGATCTTAGAAGACGTCGACGATACCGACCCTTACTTTACCAATGTCTTATTTGGCATGGCGACGGAGTTGAAGAAGCAGAACTATTCCCTCCAGCTGCTCTTGAAGGGGAGCCAGCTGGACCAGGGGGCAGCTGACGGCTATGTGATCACCGGAGCTAGGACTGATGATTACCCCCAATTGAACGAGCTTAAGCAGCCTTTCGTCCTGTTTGGTGAGAACCGGGGCGGCTACGACTTTGTCGACACCAACAACCTGCTTGGTGAGACCATGGCGACCAAGTATGCCTTGAAGGCGGGCTACCGGAATGTGGTCTTTATCGGCATCGATGTCCGTGAGGCTTTTGAATTTTCCAGAGAAGCTGGTTATGTCAACACCATGCAGCAAAATAAGAAGATTCCCAGCGTCTTCCGGGTGGAAAACAGCTTAGCCGCGGCCCAGGAATTTATCCAGGACCACTTGGGCGAATTTCCCAAGAACACCTGCTTTGCCTGTGCCAGCGACCGGATTGCCATGGGGGTCATCCAGGCCCTGGTGGAGGCGGAAGCCAAGATTCCGGAAGACTTTGGCGTGATCGGCTATGACGGGGTCCTTTTAGACCGGGTGTCATCGCCGACGATCACGACCGTCAAGCAAAACCTCTGGCTGATCGGTGAGAAGCTGGCGGAACTCATTTTAAGAAAAATTGCCCAAAACGGCGCGCCGCAAGGGGAGGTCTTTATCGAACCGACCTTGAGCGAGGCCGAATCAACCAAATAG
>LACTIS1119B1_08610 oligo-1,6-glucosidase
ATGACAGCAGAAAAGCAACAGCAAGAACCATGGTGGAAGCAGGCCGTGATCTACCAGATCTATCCCAAGTCCTTCCAGGACACAAACGGCGACGGGGTCGGCGACCTGCGGGGGATCATCAAGCGGCTGGACTACCTGCAAGACCTGGGCATCGACGCCATCTGGCTCTGCCCGGTCTACAAGTCACCAGGCGTGGACAACGGCTATGACATCGCCGACTACGAAGCCATCGACCCCCAGTACGGGACCATGGCAGACATGGAAGAATTAATCAGTGAGGCCAAGAAGCGGGGGATCTGGATCGTGATGGACCTGGTGGTCAACCACACCTCTGACCAGCACCCTTGGTTTATCGAAGCCCGGAAAAATCCTTCCTCTCCGGAACACGACTACTATGTCTGGGCGGACAAGGCCAATGAGCTCAAGTCGGCTTTTTCCGGCAGCGCCTGGGAATATGACGGACAGGTTGGCCAGTACTACCGCCACCTTTTTGCCAAAGAGCAGCCGGACCTCAACTGGAAGAACCCGGCCCTAAGGCAGAAGGTCTACGACCTGATGAACTTCTGGATTGACAAGGGGATCGGGGGCTTCCGGATGGACGTGATCGAGCTGATCGGCAAGGTCCCGGAAGAAGAGATTACCGCTAACGGCCCTAAGCTGCACGACTACCTGCAGGAGATGCACCGGGAGACTTTTGGCGGCCGGGACTTTTTGACGGTCGGGGAAACCTGGGGGGCAACTTTAGACAACGCTCCTCTGTACAGCGACCCGGACAGAAAAGAACTGTCCATGGTCTTCCAGTTTGAATTCACGGAACTGGACAAGCAGGCCGGCAAGGAAAAGTGGGACACCAAGCCCCTTGACTACGGCGACTTGAAGAATGTCCTGGCCAAGTGGCAGAAGCTGGACTTTAACCACAGCTGGAACAGCCTCTTTTGGAACAACCACGACCTGCCCCGGATCGTGTCCCGCTTCGGCAATGACCAGCAGTACCGCGAGCGCAGCGCTAAGATGCTGGCCTTTCTCCTGCATGGCTTGCGGGGAACCCCGTACATTTACCAAGGTGAGGAAATCGGGATGACCAACTGCCCGGTTTCGGCTATCGACGAGGTAGAAGACATCGAAGCCCGGCGGATGTACCAGGAGCGGCTGGCAGAGGGCTGGAAGAAGGAGGACCTGATCAAGGCCATCAATGCCCGGGGCCGGGACAATGCCCGGACCCCAATGCAGTGGGATGCTTCAGCTTCCGCCGGCTTTACCAGCGGCCGGCCATGGCTGGCGGTTAACCCTAACTGCCAGGAAATAAACGTAAAAAATGCATTGAATGACCAGGATTCAATTTATTATTTCTATAAGAAGCTGATTGCCCTCCGGCACCAGGAACGGATTTTGACCGATGGGTCCTTTGAACTTTTGGACACGGCAGATGCCGTCATGGCCTACCACCGGGAAAACACGGAAGACAAGTGGCTAGTTGTCTGCAACTTGACTGGCGAGGAGCAGGAAGTCTTCCTGCCGGATAAGGTCAAGGAAGTCCTTCTGGCTAATGGGCCTGTCCCGGAAGACCTGTCGGCTGCTGTCCTGCCAGCTTACGCGGCCTTTCTCTGCCGGGTGAAAAAATAA
>LACTIS1119B1_08620 acetyl esterase
ATGGAAACGAAAAAACTAGAGATCAAGAACTTTAACGGCCGGACCTACCAGCTGCAGACCTACACGGTTAAAAGCGGCCACGCTCCCTTAAACAAGCTCCGTCCCCTGGCCATCGTCGTGCCGGGCGGCTCCTTCACCCACCTCTCCGTCAAGGAAGGTGAGCCGGTGGCCCTGGCCTATGTCAGCCGGGGCTTCAACGCCTGCGTGGTCAGCTACAATCTTTTGCAAGATGAAGGGATGATCTATCCTGATGCCGGCCTGGACGTTCTCAGCACAGTCAACTACTACCGCGAACGCGCTGCTGAATACCAGATTGACCCAAACAAGATCGTGACCATTGGCTTTTCCGCCGGCGGCCATGTTGTCAGCGCGGCCAACTACCTGGCTGATGAAGCTGAATACCAGGAAAGCTATGGCTATGAGGGGGACCAGGTCCGGCCAAATGCCACGATTCTGGGTTACCCTTTGACTGACGTCCACAAGGTGGCCTTTGAAATCGGCGGCCGGGCTGACGGGGCCCTGCCGCCTGACCCCAAGCTGGTCGACACGGCCCTGGGGGTAAGTCCGAAGACGCCGCCAACCTTCATCTTCCAGTCCTGGAACGACCCGATCTGCCTGCCGACCAATGCCATGGCCTATGAGGAAGCCTTGTTCCAAAACAAGGTCAAGTGCGAGGCCCACATGTTTGACATCGGCTACCACGGCTACTCTTTGGCCACTCCGGAACTGTCCACGGAAGACATCTTCTGGCAGGGCAACCCGCACACGGCCCGCTGGTTCAATTTGAGCCTGGAGTGGCTGGACCACCTTTTCTCCGGGATCAACTACGATGAAAACAAGGACAAGCTGACCCAGCTTTACCAATAG
>LACTIS1119B1_08630 membrane protein
ATGAGCAGCCTTGGCGCTTTAATTATCGTTTTGGCCATCTTGATGACCATCATCGGCGGGGAAACCGGGATCCGCAGCTTCTTCAGCGTCTTGATCAACAGCCTCTTGCTGGTCCTGGTGGCCATGCTTATCTCCTGGGGCTTGAGCATTCCCATCATCACCGCGATTTTCGTGCCCCTCAAGCTGGCCACGATTATCTTCCTGGGCACCCATGACTATACCGTGGCTAAAAATTCCTTCTATGCCTCTTTGATCGTCTTATCCCTCGTCAGCGTTTTGATCTTAGGCATCCAATACCTGGCCCAAGCCGCAGGTTTGGGGCCGGAAGCCGGGGAAATCCTCCTGGGTCACTCCCAGATGCCGGGGATCAGCTATGGGCAGATCGCCGTTACCGTGGCCATTTTCTCCGCCCTTGGGGCGGTGGCGGAAGCCGCCGTGTCGATGAGTTCGGGGATTTTGGAACTGAAGAAGGCCAAGCCGGATATTACGGAAGAGCAGCTGATGAAGAGCGGGGCAGCCATCGGCTACGACGTTTTGGGCACAGCCATGAACACCATCATTTACGGGATGTTTGGCAGCTTTTTGTCCCTCTTTTTATGGTATTACCGGCTCCACTATTCCTTTGGTGAGGTAATTAATGATAAACTTTTTGTAAACGAAGCACTGATCATCATGTATTCTCTGCTCGGTGTGCTGCTGACGGTTCCTTTGGCGACCTTTTTGCTGGCCAAGGGGATGAGCCGGCAAAGTGAGGCAAAAAATGGAAACGAAAAAACTAGAGATCAAGAACTTTAA
>LACTIS1119B1_08640 membrane protein
ATGGAAACGAAAAAGCAGCGCATCCTGGCCGCCCTGGTCCTGCTGGCCCTGGGTCTGGGCCTGGCCGCGCTGACCTATTTTAAGACGACCGGCTACAAGAACCCGGTGGCGGTGATCACAGACACGAAGATCAAGGACCGCCTGCTGAAAAAAGAAACTGATATTTATGGCATCAAGGATGAAGAACGCCGGCAGTACCTGCACGTTCAAGTCTTGACCGGCAAGTACAAAGGGCAGACCTTTGAAACGGTCAACACCTACTACCCTTCCCAGCTGGTCACCCAGAAGTACCGGGCAGGCGAGCGGGTCTTCGTGACAGTGACTGACGGCAGCCTGGCCCTAGTTTCACCAAAAAGAGACTGGATCCTGGTCATGACCTTGGCTATTACCCTGGCCTTGATGGTGGCGGTAGTCGGCCGGCGGAGCTGGCACTTGATCGTTTCCATGGCTATCAGCTGGATCCTGTTTTACTGCTTGATCTTGTGGGACGTGGCGGTCAACGGGGCCGGGATCATCTGGATGTTCTCCCTGGCTGACATCGTCTTCTCCTTCTTCAGCCTGGCTATCGTGCAGGGGGTGAACAAAAAGATGCTGGTTACCTGGCTGGCAACCCTGCTCGGGGTCTTTGTCTCTTTTGCCCTCTGCTATGCCGTTATCAAACTGACCGGGGAGACTTACCTCAACTATGAAATGGGCGACTATGCCACCCAGGACACGCGGGGGATCTTCATGGCCCAGGCCCTGCTGGGGGTACTTGGGGCAGTTATGGACGAGGCGACGGACATCGTTTCCAGCCTGTATGAACTGATCCAGCACAAGCCCGAGATCACCGTTAAGGAGCTTTTGGCCAGCGGACGAACGATGGGGCAGGAGATCATGGGGCCTTTGATCAATGTTTTGGTCTTGATCTTCATTTCTGAAGCCCTGCCGGAAACAATCCTGTACTTCCGGGACAATAATACTATCGCGACGACTTTTAACTTCACCATGTCCTTAGGGGCGACGCAGAGCGCGGTTTCAGCAATCGGGATCGTTTTGACCATCGTTTTTGCCAGCCTCTGCAGCCTCCTCTTTTTAAAAAAGCCGCAGAAAGGGGGTAAGCAAGAATGA
>LACTIS1119B1_08650 transcriptional regulator
ATGAGTGAGAAAAGTGAGCAGATGAAGACCAGTGAAGCCGCCCAGGCCCTTGGGGTCAGCGAGAACACCCTGCGCAAGTATTCGCAGGCGGTGGAGAAGGCTGCTTCACCAGCTTACTTTCCCCGGGTCAAGAATACCCGCCGCTACCGGCCGGAAGACTTGACAGTTTTGAAGCAAATGCAGGACTTGGTCAAGGCAGGGCAGAAGGTCGACCAGGCGGCCCAGGAACTTTTTGCTGGTGAAAAGGAAGAAGCACCGGTCAAGACAGCCAGGGAAGACCAGCTGGAAGCTGCCCTGGCCGCCAAGGACCAGGAAATTGCTGAACTGAAAGAGCAGCTGGCCCAGCTGACAGCGGCTAAGGCAGCGGAAAAGCCGGAAGATTCCCTTGAGCCAGCGGCTGATGTCCTGGACCTGCCGGATTTTGATGACGGCTTTTTAGAAGATGAGCCGGTCACTCCGGAGCAGAAAAGGGCCCAGGTCGTGGCTGACATGGCCAAGAGCGACCAGGAAGTTCACAAGGAATTGCTCAGCCGGGCCCAGGAGAACGCGGCCAAGGGGGCGCCAACCTACCGGACCCTGGCTGACATGCAGCTGGCGCCCAAGAAGACTCCCTGGTGGAAGAAGATTTTCAAATAA
>LACTIS1119B1_08660 D-alanine-D-alanine ligase
ATGACGAAAAAAACACAAGTTGGTTTGATTTTTGGTGGGAACTCCTCCGAATACGAAGTCTCAATCACTTCAGCCGGCAACATCTACAAGGCAATCGACAAGGACAAGTTTGACGTGCACCCGATCTGGATCACGAACTCCGGCTACGTGGCCAGTGAAGCTGATTCATACAAGGTTCTGGAAGAGCCGGGCTACATGGTGGAAAAGACTGACAAGACGGCCAACCTTTCCAACTTGATCGAGCTGGCTTCCCGGCCGGAACTGGACGTGCTCTTCCCAATCGTCCACGGCAACCTGGGCGAAGACGGGGTCCTGCAGGGCCTCTTCCGCTTGATCGACAAGCCTTTCGTCGGGGTTGACGTTTTAGCGGCAGCCGTAACTATGGACAAGGAATTTACTAAGATCCTGGCCCAAAGAGCCGGCGTGCCGGTAGCCAAGTGGGTATCTATCAAGCGCTACGAATATGAGGACGCCAAGAACCAAAAGCTCAGCTACGACTGGGTCAGCGGCCAGCTGGGCACCAGCAACCTCTTCGTCAAGCCGTCCAACCAGGGTTCTTCCGTCGGCATCACTCACGTAACTGACGACAGCAACTACGCTGAAGCTTTGGCCGAAGCCTTCAAGTACGATGACAAGGTTTTGGTTGAAGAAGGGATCGTAGGCACTGAAGTTGAAACCGCCGTTTTGGGTAACGACCACCCGGTAGTTTCCGGGGTCGGCCGGATCATCAACGCCGACAATACTTGGTACAGCTACGAAAACAAGTACAGCACAGAATCAACCACGACCCTGCAGATTCCAGCCCAGATTCCGGCAGAAACCGCGGAAAAGGTCCAGGAAAACGCCTTGAAGATCTACCAGATCACTGAGTGCAGCGGCATGGCCCGGATTGACTCCATGCTTAGAGAAAGCGACGGGGAAGTCATCTTCAACGAATTGAACGCCCTGCCAGGCTTTACCAACATCAGCATGTACCCGAAGCTGTTTGAAGAAGACGGGATTTCTTACCCAGATTTGATCACCCGCTTGATCAGGCTGGCTGAAGAGCGCTACGCCCACAAGAAGACTCTCCTGCACAAGCACGACTAA
>LACTIS1119B1_08670 serine protease
ATGCGTCATAAGCCAGCACTGCTTTTACTGCCGGTAATCCTTCTGGCAGTAGGGTCCACGGCTGTCCAGGCGGCAGAATTCACGCCGCAGGAACAGGCAGAGGTGCTCCGTTTTCAAAGAGAATACCAGGCCTTGAGCAAGACCGTCTACACCCAGCAGAATATCTATGCCAGCAAGCCTTCCTTGAAGAAGAAGTTCAAGGCGGGCAGCTTAAAGTCTAGCTACATCAACGAGCAAGTCACCTACATCAACTACTACCGTGACCTCTTCGGCTTAACTGCCGTCAAGACAACAAGCCATGGCAACAAGAATGCCCAGACGACAGCCGCCGTCATGGCCGCCATTAATGCCAACCCGTTCGTCAACCAGCACGGGCTGCCAAATGAGAAGCGGCCAAGCTACATTTCCAAGAAGAACTGGCTTTTGGCCCAGGACGTTTCCAACTCGGCCAACCTCAACTTCAATGCCAGCCCGCAGACGGCTGGGGACGTCGTGACCGACCTCTTGACCGACCGCTATAATCTGTCGGGTTCTGACACCGGCCACCGGGCCTGGCTGCTTTCCACCCGCTTAAGCAAGGTTTCAGTCGGGGCAGCTTACGGGACCAACGGCTACCGCTACTCAGTCAACCAGGTCTTGAATGTGGGCGACAGCGCAAGAACTGCCAGCCGGGAAATGGTAGCCTATCCAAATGCCGGGGTCTTCCCCCTGGAGCTTTTAAATGGACAAAACATCGCCTGGTCTTTATACTTTTCAAACAAGGTAGTGACCTCAACCCCGAAGATCACCGTTACTGACGATGACACCGGCAAGACGGTCACCGCCAGCCAAGTGGCCAACTACAGCGAGTACGGCTTTGGCAACTTCCAGACCGTGATCACCTACTACCCAAGCAAGCTGCAGCTGACGGCCGGCCACAAGTACACGGTCAGAGCCGGTAACCTGGCCACTTACAGCTTCAAGCTCTTCAAGCAGAGCAGCAGCCAGACTTATTCAAGCAAGGTCTCCTCTTCCAGCACCCAGAGCAAGAACAAGGTCAGCCAGAAGGACCTGCAAAACAAAGGCCTGGCCAAGTACCTCTACAAGGTCGGCAAGAACATCTCCACCGTCAAGAGCAAGAAGATCACCAATGCCAAGGCAGTCAAGAAGACCAGCAAGACAAAGAAAACTAGCAAGAAGACTAGTAAGAAATCTAGCAAGAAGTCTAGAAAAAAATCTAGTAAGAAAGCTAAGGCTAAATCTAAAAAGACCAGTAAGAAAGCTGCCAAAAAGTCTAATAAGAAATCTAGCAAGAAAAAGTAA
>LACTIS1119B1_08680 ArcR family transcriptional regulator
ATGCACCAACACGACGAGTTAAATTGTATCAGCCACGTGCCGATTTTTAAGAACCTCCCCCTGGACCTGCGCCAGGAATTGGTTCACATTTCGACCCACCAGCAGTTTTTTAAAAAAGGGAGCTTGATCCACGCCCCGGGCGACGGCCGCCTGTCAGTCATTTCCCTGGACTCAGGCCGGGCCAAGGTCTACAGCCTCAGCCCCGACGGCCATGAGCAGGTCCTCAGCTTGATGCAGGAAGGCGACATCAACGGGGAGGAAAACCTCTTTGACACGGAAAACGATGACCTCTTCATCGAAGCCCTGGAAGACAGCACGGCCTGCTCCATCAACTATTCCGACTTCCAGGACCTTCTGCTCAAGTCCCCGGAGCTTTCCCTGTACCTCTTAAATGAATTCGGCCAGCGCCTGGTCAGCGCGCAAAAGAACGCCATGCGCCGCAACAGCCTAGAAGCTGGCCCCCGCCTCTACGCCAGCTTGAAAGACTACGCTGACGAAGCCGGCTCCGCCACCTTCACCCTTCCCTTGAAGAAGAAGGACCTGGCCAGCCTGCTGGGCATCACCCCTGAAACTCTCAGCCGGGAGTTCTCCAAATTAAAAAAGGATGGCTACATCGCCGCCAAAGGCAAGCAGATCACCATCCTTAAATAG
>LACTIS1119B1_08690 hypothetical protein
ATGGCAGAAAGTTCCGGAACGCACAGACGAAGGAACAACTATGAAATCGTGGACAACGCGTTAGAATACAAGCGTCCCTTGGCCTTTATAGCTTTCTTATTGCTCAGCTTTCTGCTGGCCACGGGAACTTTCCTGAATCCTGCTTTTATGAAGGAGACTATCAAGACCGACAGCAACACGGTCGTAATCAGCCAGCAGGTCAACAGCCACTTCAACCGCCTGGCCACAATCGTCAACGGGTCCAGCGATGAAAAGAACTTGATCTCTGATGACCAGGCCAGGGAAGTTGCCGACTTGATCATCGACTACAAGTATGGCTGGCACTTTATCCATACCAGCAATCTGGACCTGGCTAAAGACATCAAGGCCGTGATCTTGAAGAAGGAGCAGACGGATACCGACCAGGTGACCGCTATCCGCAAGAAGCTGAAGAAGCAGAGCGATTCTTCAGTCTACATCGTCAGCAATGCCTTTGACCTGGCCACGGTCATGTTAGAGGCCAACTTGATCACGATCATCCGGATCGTCAACCTGCTGGTGATCCTGCTCTGTCTGGTGGCCATAGTCTCGATTTTGCGGGAGGCTTTTGCCAGTCACACCAAGCGGGCAGTGGTTCACGACATGACAGCCGGGCTGATGTGGACCGCTTTTTGGTTCATCCTGGTTTACGGGCTCTTGGCCATGGTGCCGATCTTTATGGACACTTCGGTGATTACCGTGGCGGACCTGGGCTACTGGCTGGAAATCGCCAGCGGGGTCTTCCTGGACTTCGTGATCGCCGGCGTTATTTTATACGTGGTCAGTGCCATTCCATGGCAGGCGACTTCAAGATAG
>LACTIS1119B1_08700 hypothetical protein
GTGGACGCTTTAATCTACACGATCGCGACTTTGGGAATGACGGACAAGGGCCTGGACCGGGTAATTACGGAGGCCTTTACTGACCAGACTTCTTTGGACAACTGGGGCCGGATGCTGGACGAATGGATGAAGTCCCACAATGCTTTTTCCGAATACAGCAACTACCAGGAAATCCGGACCGGGATTGCCTTTATCATTACGGGGGTTGGCCGTTTGTATCGTGACCGGGAAAAGCACGGTCTTAACGCCGAACAAATGGCGGACTACTCAACCAGTTCCCTGATGTACGGCTTTTTGCACGCGGATCCTGCGGAAATCGACGCCGTATTGGAAGAAGGTCACGGGATCATTGACGACAGCAACATCGGTGAGGTCCACCACGCGATCGACACCATGTTTGACGAAGGCAAGGTAATTTACAGTTAG
>LACTIS1119B1_08710 hypothetical protein
ATGCAGAGACGGAGGGAGATCTTGGACAACACCTTCCGTTTGATCAGAGCCAATGGCTTTGACCATGTTTCCTTGCAGATGATCGCGGAGAATTCAGGAATTTCAAAGTCTCTGCTGCAGTCTTACTACCCCCACAAGGCAAGACTGATGACTGACATTGTCAGAAACCTGTTCAATACTATGTGGGACCAGGTAGAAATAAACTATCACGCGCCAAAGAAGAACCCCCTTCGCCCGGGTGGACGCTTTAATCTACACGATCGCGACTTTGGGAATGACGGACAAGGGCCTGGACCGGGTAATTACGGAGGCCTTTACTGA
>LACTIS1119B1_08720 ribose-phosphate pyrophosphokinase
TTGATCGAAACGACGGTTCACCACTTCAGCGACGGTGAAATCCAGGTCAACATCGCAGAAAGCGTCCGGGGCTGTGACGTCTTCGTCATCCAGTCAATTCAAGATCCGGTCAATGAAAACTTCATGGAACTGGAAATTGTCCTGGATGCCCTCCACCGGGCTTCAGCCCACACGGTCAACTGCGTGATCCCGTACCTGGCCTACTCTCGTTCCGACACCAAGACCCGGTCCCGGGAACCAATCACGGCCAAGCTGATTGCCAACCTGCTCCAGCTGACTGGGATCGACCGGGTATTGACCATCGACTTGCACGCTTCCCAAATCCAGGGCTTCTACAACGTGCCGGTTGACCACCTGCACGCGATGCCGCTTTTGGCCCAATACTTCCTGGACAACGGGATCGCGGTTAAGGATGACGACGACGTGGTCGTTGTTTCACCAGACCACAGCGGGACCAAGTTGGCCCGGGTCTTCGGCCAGTACTTCAACGCACCGATCGCCATCGTTGACCAGCGCGGGGCCCGCTACGATGACAGCGTCCACGACATGATCGGTGACGTTAAGGGCAAGAAGTGCATCATCGTTGACGACTTGATCGACACTGGCACCCGCCTGGCTTCATCAACCCGGTCAGTCTTCGCTGCCGGCGCGACCAAGGTTTACGCGGCTGCTACTCACGCCTTGCTTTCACAAGACGCGATTAAGATCGTGAATGGCTTGCCGCTGGAACAAATTGTGGTTACGGATACCATCAAGCATGAAAAGTATCCTGACCGGATGGTCCGGATCTCAGTTGACCGCTTGCTGGCCAAGGGGATTGACCATATTTACACCGATCGCTCAATTCACGATATTTTTGATGAACAAAACCGCTTCACCAAAGACTAA
>LACTIS1119B1_08730 hypothetical protein
ATGACATCAATTACAAAAGAAGAAATTCATAAGTTGCTCAACCCGATGAAGGTGATCGGGCTCGGCGGCAATCCGCAATTGAACGAAAAGGTAGCCAGCACGCTGGGCGTTCCTTTTGATCGAAACGACGGTTCACCACTTCAGCGACGGTGA
>LACTIS1119B1_08740 alpha/beta hydrolase
ATGATCATCAAAGTTAATGGAGTCGATCTTTACTACCAAAAGCTCGGTCAGGGCCAGCCCCTCATCCTGCTGCACGGCCACCACTTGGACGGCGGAATGTACAGCAAGGTGATCGCGCCTTTGTCACTGTATTACACGGTCTATACCCTGGACATGCGGGGGCACGGCTTAAGCGGCGGCGACGGGGCTGAGCACTACCAGACTGAAGTGGAAGACCTAGCTGTCTTCATCAAGGAGCTGGGCCTGGAGCAGCCTTACGTCTTTGGCTATGACTCCGGCGGTCTGGTGACCCTGATGCTGGCCAGCCAGCAGCCCGATATCCTGGGCAAGGCGGTCGTGGCCGGGGTCTTCATCGACGGCCGGGGGATCCACAAGTACCACTACTTGACTGAAGGGGTCCGGCGCTTTCTCCGCTTTGACCGCGACAGCCGGGTGGAACTTACCGAATCCTACATGGAGCCGGAAAGCCTGGAGCAGATCCAGATTCCCGTTCTCTGCGTGGTCGGGGAAAATGACTGGGTCAAAGTCGAACATGTCCGCTGGTACAGCAGTTTGATTCCAAATGGCCGCCTGGCCTTGATGCCGCGGCAGACCCACGATTCCTACGTGGTAAACAGCTTGAAGATTTTAGACTTGATCAAAGATTTTTGCAAGGAATAA
>LACTIS1119B1_08750 glycosyl transferase
ATGAAAAGGATAGATTTGGAGAGGGGGGATGCGGCTTTGCGAGCGAATGCCGACTTGAAGCTGACGGTCATCATGACTGTTTACAACCAAGAGAAATATCTGGCCAGAGCCTTGGACTATTTGCTTGAGCAGAAGAACCAGCAGTTCAAGCTGCTGGTCATTGACGACGGCTCGACTGACTCAACCGCGGAAATCGCGGCCAGCTACCAGGACCGCTTCCAAGCCTTCGACCTGGTCAGTAAGGCCAATGAAGGGGTGGCCGCTGCCCGGAACTTAGGCCTGGACATGGTTGACACGCCGTATTTTATTTTTCACGATGGAGACGACTGGGTTGAGCCAGACTACACGGACTACTTTATCAAGGCTTTTGACCGCCACCCGGACGATGACATGGTAACCTGCGGCTATTATGTCGACCAGGCAGGGAAGCCGTCCGTGCCGATTACTAAACCGGTTGAGGGGGAATTGACCCGGCTTGAGGCCGTGTTAAAGGTCTTGGGCAGTGCCCATTCGCCGGTTAAGGGCTATACTTGGAACAAGTGCTACAAGACCCAGCTGGTCCGCTGCTTGCACCTGCGTTTTAACGAGGACCTGGACTTGATGGAAGACCAGGTTTTCAATATTGACTATCTGATGCAGACGGAAGGCTGCTACTACAGCTCCGTGCCGCTCTACCACTACTGGCAAAGAACCGACAGCGCGGTGCACACGGTCAGCTGGGACCACTTCTGGAGCATCGTGGGGGCCAATATTTCGATTTACAAGAGCATTTTTTCTCACTTGCGGCAGAAAGCTCTCAGCAAGCGGCCGCAAACCCAGGAATACCAAGGCAGTTATGTAAGGGAAAGGATCAAAGATGATCATCAAAGTTAA
>LACTIS1119B1_08760 hypothetical protein
ATGAACACGAAAATCAAGAAAATCATTACGGCCTGCGCCCTCTTCCTGGGCCTGGGCTTGACGGCTGGCAGGGTCTCTGCCGCCGAAGACACCACCCCGGTTATTACCCTGGGGACGTCATTAACTGCCAACCAGAAGCAAGGCACCCTGGACGTTTTAAAGAGGGCCCTCAGCGACTCCAGCAGCTACAACACCTTGACAGTAACGGGCAGCGACCTGGTTACCTACCTGAACCCGTCCGGCAGCTCCTTTACCTCTTCTTCCGGGGTCTGGTCCAGTGCTGCCATTGAAAAAAACAGCTCCGGCAGCGGGATCAACGTCCGCATCCTCAACTACAACGGGCAAAACAACATCACTACCATCACCGCCAACCAGTACCGAAACGCGGCGGTGACGGCCGGGATCACTGACGCCAACATCTACGTCACTTCCGCGATCCCGATCGATGGTTCCGGCGCTCTGGCCGGGATCTACAAGGCCTACGCCAAGAGCGGGGAGAAGCTGAACCAGAAGCAGATCACCGCGGCCCAGGACGAATTGAACACCTTAAGCGGGATCACCAAGGAAAACAAGGGCAAGGAGGGCTACTCTGACGCCCAGCTCAATAATGCCGTAGCCGGGGCCAAGAAGGAAATGGCCCAAAAAGGCTCAAACATCACCAAGAACCAGATCATCACGATCGTCAACAACCAGATCGAAAACAACAATCTGACCAACGTGATCACCAACGAACAGAAGCAGCAGATCGTCAACATCCTGGTTGAGATCCGGGACTCCGGCGCCCTTAACTCCTCTTCTTTCAAGCAGCAGGCCAGCCAGGCCATGAGCGCCATCCAGAAGAGCGCCAAGGGGATCTTTGCCAAGCTGAACACCAGCGAAAACCGCAACGCCCTGCAGAAGCTCTGGGACGCCATCGTCAACTTCTTTACCAGCCTCTTCTCCAGTTTTAGCAAGTAA
>LACTIS1119B1_08770 ribonuclease HI
ATGAAAGTTTATGTTGTTAAAAAAGGCTACCGGCCAGGAATCTACCACAGCTGGCCTGAAGCTGAAGAGCAGGTCAAGGGCTTTCCCGGGGCAGAATACAAGTCCTTTAGCAATATAATGGAGGCCCTGGACTACCAGGAAATGGACCCGGAAGATGCCCTCAAGGCCTTGCAGGGGGCAGAGGACAAGCTGCAGGCCGCGATCGCCAAGGTCAGACAGGGCGGAAGCAAGAAAAAGCAGGCTGAAAATAAAAAAGAATTTGCGGCAAGTTCGAAGTATGCCGCCCACATTTTTACCGACGGGGGCTGCCGGAACAATGGGACCCACAAGGGCGGGCACGTGCAGGCAGACGACAAGGCAGCCTGGGCTTATTTGATCGAATACGGCGGCCAGAAGCTGTCCACCAGCGGCGGCCGTTTTGGGGCCACCAACAACGAAATGGAAATGACCGCTTTTTTGGAAAGCCTGAAGAAGCTGGAAGAACTGGGCTTAAATGATCAGCCCCTCTTGTTCTCTTTGGACTCCCAGTATGTCATCAAGGCCGTCAGCGACAATGACCAGGGTCCGGCCTGGATCAAGGGCTGGCAGAGACGGGGCTGGAAGAAGGCGGACGGGTCACCCGTTGCCAACCGCGAGCTCTGGCAGGAGATTGCCAAGGAAATAGCCAAGTTTGCCCAGCCGGAATTTGAATGGGTCAAGGGGCACGCCAACAGTGCCGGCAACAACTTTGTCGACGGCCTGCTCAACAAGTATATGGACCAGATGTAA
>LACTIS1119B1_08780 alpha/beta hydrolase
GTGCTCTTTTTTAATTCTAAAAAGTATGCTGAAGAAACTGAAAAAAAGCGCGGCAAAAATCCCGATCCCCGGGACCACTCCCTGGCCATGATGTTCTTCTTGGGCATCCTGGCAACCTTTCCGCCTTTCCGGATCTTTCTGAAGCTGCGGGGCAAGCGGGTCAGCGACCTGGCTGAAAACCAGGCCAGCGGCTCTGACCAGGTTCCGATCATCTACGTCCATGGCTTCCGCGGCGGGGACTACACCACCAGGATGATGGTTGAAGACGCCCTCAAGCAAAAAGGGGACGCCCGCTTTTTGAAAGTCGAGGCTGACTTAACCGGCCGGATCAAGCTGACCGGATGCTATACCGGCGACAAGCAGCCCATCATCCAGCTGGCCTTCAAGGACCGGATTGCCGGCTACCAGGCCATCAACTACTATCTCAGCTTCATCCTGCCTTTTCTGAGCAAAAAATACGTCTTTACGCGCTACAGCGCCGTGGCCCACTCCCTGGGCTCGCCCTGCGTGGTCGCTACAGAAATGCGCTATGCCAAGCGGAAAAACTTCCCCCACCTGGCCAGCTGCGCTTTGATCGCCGGCCCCTTCAACGGAGTCATGTACCTGGGCGACATCCCCAATGTCAACCGCCTGACGGAAAGTGGCCGGCCCAGCATGATGACCCCGCACTATTCCTACATGCTCCGCCACCGGCGGGACTTCAGCCCCAGCATCCGGGTTTTGAACATCTACGGCAACGTCCTGGACACGACCAATTCCGACCGCTTTATCTCCGTGGTTTCCGCCAAAAGCATCCGCTATATCCTGGCCCCGGACGCGGTCTACTACCAGGAAGTCGAGGTCCGCGGCGACAACGCCGAGCACTCGCAGATGCATGACGAGCCCTTCGTCATCGGCATCCTGAACCGTTTTTTAGGCTTAGATAAAATCAAGAAAGGACTTTAA
>LACTIS1119B1_08790 cardiolipin synthase
GTGACCGCCATCTCTTGGATCGATATTTGGCACATCATCTTCTTCGCCAACGCCATCCTGGCCCTCTGGACCGTCTTCCACAGAAAGCGGTCCGTGGCCACCTCCTGGGCCTGGCTGATCGTCTTGATCATCCTGCCCGTAGTCGGCTTCATCATCTACGGCTTCGTCGGCCGGGGGATTTCCCAGGAAAACCTTTTTGCCATCAACCGGCAAAAGCACATCGGCCTCTCCAACGTGCAAAAAATGATCACCGAGGCTCCGGCGAAAATTGACCAAAACGACACCTCCCCCAGCGCCCACATCTTGATCAAGTACCTGGACAAGAACCAGGAGTCGCCCATTACCAAAAACAACAAGCTCAAGCTTTACACCGACGGGCATGACAAATTCCGGGATCTTTTCGCCGATATCCGCCAGGCCAAGTCCAGCATCAACGTCGAATACTACACTATCTATAACGACGCCATCGGCAACGAATTCCTCAAGCTTTTGATCCAAAAAGCCAAGGAGGGGGTCCAGGTCCGGGTCCTCTACGATGCCTGGGGGTCATTCGGAGCCTCCAAGAGCTGGTTCAACCAGCTGACTGAAGCCGGCGGCGACGTTTTGCCCTTCATCACCTCAAGAAACATGATTTCCCGGAACCGGATCAACTACCACCTCCACCGGAAGATCGTGGTCATCGACGGGGTTACCTCCTGGACCGGAGGCTTCAATGTCGGCGACCAGTACCTGGGCAGGAAGAAAAAATTCGGCTACTGGCGGGACACCCACCTCCGCCTGGTCGGGTCAGCCTCCCTGCTTTTGCAGGAAAGATTCGTGATGGACTGGAACGCTTCCGCCGTCAAGGAAGAAGAACTGATCAGCTTTGACGAAAAGCTCTTTCCTGACCTGGATGAAAACGACATCTCCAAGGGCGACATGGCCGTACAGGTTGTTTCTGACGGCCCCGACAACGACGAGCCTTACATGCGAAACGGCTTGGTCCGCTTGATGATGCTAGCCAGAAGGCGGGTCTGGATCCAGACTCCTTACTTGATTCCAGATGAGGCCATGATTGCCGCCTGGCAGATCCTGGCCAGCTCGGGGGTTGACCTGCGGATCATGATCCCCTGCATGCCGGACCACCCCTTCATCTACCGGGCAACCCAGTGGTACGCCAACCAGCTGGTCAAGATCGGGGTCAAGGTCTACACCTACAACAACGGCTTCATGCACGCCAAGACCATTATCGTCGACGACAAGTACGCGACTGTCGGCAGCGTCAACCAGGACTACCGGTCTTATGACTTGAACTTTGAAGATAATGTCTTCGTCTACGACCGGGCCTTTAACAAGGAGATGTCCGACCAGTTTGAAAAGGACATGGAGCAGTCGACCCTCCTCACGCCGGAGATGATCAAGAAGCAGTCACGCTGGCTGCGGTTCCTGCAGAACTTCTCCCGCCTCCTGTCCCCGATTTTGTAA
>LACTIS1119B1_08800 hypothetical protein
ATGGACACGTTATTTTACTTGGTCGCCGACACCCTGCTGGCGGCCTATGCCGGCTACAGCTGGTACAGCCAGGCCACGGTGATCCTGCGGGCCCGCTGGCGGATGACGGCGGTGGTCATGCCGATCCTATTGGTCTGGCTGGGGGCCAGCTGGGGCTACCTGGACCTGGGAACTCCCGGCTTCATCGTCTTCCTAGCCCTCTTCATTTTGACGGGGATCCTGGAAGCCACGTCGGGCTTTGCTGACAAGCGGGTGGTTTTGAGCGGCTACTTCCGCCGGACTTTGAAATACAGCGAAATCAGCCAGGTGATCCTGACCGCGGCGCCGCCGGAAGTGGGCGACCTGTCGATCGTGGCCCTGGAAACCAGCCGCCACCAGATCTACTACCTCCGCTTCAACAAGCAGGCCAGCGATGTGGCCTCCTTCTTGACGCAGCGCCTGGAACGCGGGGTAAATATTGACGTAAGAAAAATGGGTTAG
>LACTIS1119B1_08810 NAD-dependent deacetylase
ATGGACCAAGCAAAACTTGCGGAATTTAAAGCAGACTTAAAAAAGGCCAAGCACCCTGTCTTTTTGACCGGGGCAGGCGTGTCAACCCACTCCGGCATCCCCGACTACCGGTCTAAGACTGGCATCTACAACGGGGTCAGCGAGCCCCCGGAAGTCATCTTGAGCGAGGAGACCCTTTATGACCGGCCTCAGCTTTTTTATGACTTCGTCATGCAAAACATGTACTTCCCGGACGCCAAGCCAAATCTGATCCACGAAAAGATCGCGGCCATCTGCAATGAAAAAGGGGCCCTCATCACCCAGAACATCGACACCCTGGACCGGCAGGCCAGCAACCAGCACGTGACCGAATTTCACGGCAACCTCTACGACATATACTGCTCCAAGTGCAAGCAAAAAGTCAGCTATGAGGACTACGCCAAGGGCTACAAGCACGAGTGCGGCGGGATCATCCGGCCCGGCATCGTCCTTTACGGGGAAGGCATCAACCCGGCCAATGTCAACCAGTCCATACTGGAAATGCGGCAAAGCGACCTGGTCGTGATCGTCGGCACCAGCTTCGTTGTCTACCCCTTCGCCGGTCTCTTAGGCTACGCGGCAAAAGACGCCAAAATCTGGGCCGTCAACTTGACTGAGATCCCGGCACAAGGGATCAAGCAGCTGACCGGTGACGCCTTGGAGGTCTTTAAGGAAGTTTAG
>LACTIS1119B1_08820 hypothetical protein
ATGTCAACGATCAAAACTGTCCGTATCTACGCCAAAGACCAGCCCGCCGGCTACCGGATCTTAGTCGACCGGCTCTGGCCCCGGGGAATCAAAAAAGAAGCCGCCAATTTAGACGAGTGGAAGAAAGAGCTGGCTCCCAGCCGGGACTTGCGGACCTGGTTTAAGCATGACCCGGCCCGGTACACGGACTTCCGCCAAGATTACCTGGAAGAATTGGCAGACAATCCGGAATGGCCGCCTTTCGTGGAGCATTTGCAAGAGCTTTTGCAAAAAGGGGACGTCCTCTTTTTGTACGGGGCTAAAGATGAAGAACACAACCAGGCCGTAGTTTTAAAGGAGGCAGCTGAGGAAGCTCTGGCTAAACTTCCTTAA
>LACTIS1119B1_08830 3-methyladenine DNA glycosylase
ATGGACTACAGGAATTTTTTCACCGGCCGGCCCACCAGCGAGATATGCCGGGATTTGATCGGCCGCCCCTTTTATTATCAAGCCGGCGGGAAAAAAATTGGCGGCTATATCGTTGAGGCCGAAGCCTACCTGGGCATATACGACCGGGCCGCCCACTCCTACGGGGGCAGAAGAAGCCAGGCTAACGAGGGCCTGTGGCGGGCCGGCGGGACCATCTACATCTACTCCCAGCGGCAGTACGTCTTTTTTGACATCGCCTGCCAGGAAGAAGGCAACCCCCAAGGGGTCTTAATTCGGGCCATTGAGCCGGTCTGGGGCCTAGACCAAATGCTTAAAAACCGGGGCGGCAAAGACGGGGTCCTTTTGACCAATGGACCGGCCAAATTAATGCAGGCCATGGGGATCAAGTCAAGAAACTGGGACCTGGCCCCTTTGGCGGACTCCCCTTTCGTTATTGACTTGACTGAGAAAAAGCCGGCTAAAGAAATCATTGCTTCGCCCAGAATCGGGATCGTCCAGGCTGACCCGGCCTGGGCCCAGGCGCCTCTGCGCTATTATGTGGCCGGCAACCCCTACGTCTCTGGCATGAAGAAACGGGACTGGGTGGATGATCACGGCTGGCTGTAA
>LACTIS1119B1_08840 amino acid ABC transporter substrate-binding and permease protein
ATGAAGAAGCACAGCAGCTGGATTAGCGCCTTAATGGCGGCGGTCATGACGCTTGTCTTAGCTGTCAGTTGGAGCCAGCCGGCGCAAGCCAGCGGCACCTTGAAGATTGGTATGGAAGCCAACTACGCTCCATACAACTGGACCCAGACCACGTCCGCCAACGGCGCGGTCAAGATCGACGGGACCAGCTCTTACGCCAATGGTTACGACGTCAAGATCGCCAAGATCATCGCTAAGAAGCTGGGCAAGAAGGTTATCGTGGAAAAGACCCAATGGGACGGGCTTTTGCCAGCCCTGACCAGTGGCAAGATCGACTTGATCATTGCCGGGATGAGCCCGACGGCGGAAAGACGGAAGGCCATCAACTTTACCAGCCCATACCGGACCACCAACTTCGTGGTCATCGTCAACAAGCAGAGCAAGTATGCCAAGGCCAAGTACCTAACTAACTTCAAGGGGGCCAAGCTGACTGCCCAGCAAGGGACCCTGCACTACGACCTGATCAAGCAGCTGCCAGGGGCCAAGCGGGAACCAGCCTCCAAGGACTTTGCCGCCATGCGGGAATCCCTGGAAGCCGGCACGATCGACGGCTACGTGGCTGAAGACACGGAACTGACTTCCTTCCAGATGATGGACTCCAACATTACCGGGGTCAACCTGTCTAAGATGAAGGGCTTCAAGGTCTCCTCTTCTGACGCGGAAGTTTCCATCGGGGTCAAGAAAGGCAACGACCAGCTGCTCAGCCAGGTTAACAAGGTTTTGGCCGGCATTTCCACTTCAGAAAGAAACAAGCTGATGAAGGAAGCCGTGCAGCAGCAGCCGCAGACCAGCACCAAGAAGGAAAACTGGCTGGTTTCCATGCTGAAGAACTACGGGCAGATGATCCTGGAAGGGATCGGGATGACTCTCTTGATCTCCCTGGTCGGCACCATCGCCGGTTTCTTCATCGGTTTGCTGGTCGGCATCGTCCGGACTATTCCAGAACCAAAGAACAAGTTCAAAAAGGGCCTGTTAGCCTTCTGCAAGTGGCTCTTATCCGTCTACGTTGAAGTCTTCCGTGGCACGCCAATGATGGTACAAGCCGCGGTTATCTACTACGGGATCGCCCAGTTCTGGCACATCAACCTGAACAGAACGGTTGCCGCTTTGATCATCGTCTCCATCAACACCGGGGCCTACCTGGCCGAAGTTATCCGCGGGGGGATCATCTCCACGCCGAAGGGGCAGTTTGAAGCCGCCAGTGCTTTGGGGATGACCCACAACCAGAGAATGTGGAGTATCATCCTGCCACAGGCTATCCGGAACTGCCTGCCGTCAATCACCAACGAATTTATCGTCAACATCAAGGACACTTCCGTATTGAGCATCATCTCAGTATCAGAACTGTTCTTCGTTGGTTCAACGATTGCCAGCCAGAGCTTCCAGTTCTTCCAAACCTACCTGGTCATCTCGGTCATCTACCTCTTCTTGACCTTTACGATCACCCGGATCTTCAACTTGATTGAAAAGCACATCGAAGGTCCTGAAAACTACAAAATGATGGCCAACCAAGTTCAAGTCGGCAAGCAGGAAGGAGACAAGTAA
>LACTIS1119B1_08850 amino acid ABC transporter ATP-binding protein
ATGGCTGATTACAAGGATAATGAAATTATTTTAAACGTTCAGCACCTGCAAAAGGCTTACGGTGAACACCAAGTTTTGAAGGATATTTCCTTTGAAGTCCACAAGGGCGAGGTTATGACGGTCATCGGTCCTTCCGGTGGTGGTAAGTCAACCATGCTCCGCTGCATCAACTTGCTGGAAGATACAACTGGCGGGGAAATTCTTTTCCATGACCAGAACATCCTGGATGAAAACTACAACATCCCCCGCTACCGGTCCAAGGTCGGCATGGTTTTCCAGCAGTTTGAGCTTTTTGAAAACAAGAACGTCTTGCAAAACTGCATGATCGGCCAGGAACTGGTTCTGAAGCGGTCAAAGGCAGAAGCCAAGAAGATTGCCCTGGAGAACCTGAAGACCGTTGGGATGGATCCCTACGTCGACGCTAAGCCCCGTCAATTGTCCGGTGGGCAGAAGCAGAGAGTAGCGATTGCCAGAGCCATCTCCATGAACCCGGAAATCCTCCTCTTCGACGAACCGACCAGTGCCCTTGACCCGGAAATGGTCGGAGAAGTTTTGGAAACCATGAAGAAGCTGGCCAAGACTGGTTTGACCATGATCGTGGTTACCCACGAAATGGCCTTCGCCAAGGAAGTTTCCGACCAGGTCCTCTTCATGAGCGACGGTTACGTGGCTGAGCAAGGCAGCCCGGATGAAATCTTTCAACCATCCGCAAAGCGAGAAGACCCAGAAGTTCTTAGCCAACTTCCGTAG
>LACTIS1119B1_08860 hypothetical protein
ATGAAAAGAAAAATTGTATTTGGTCTGCAATTAATCGTTAACGTGTATTTTGCTACTTGGCCTTTGCAGTTGATTGTGGATAATTCAGCTAAGTGGCGTTTGTCTGGACCAGCCAATAGCTTTTTTGGCTTCATGGACCGGGTCGCCAAAAGTATTTCTTGGCCGCTCTTTTTAGTCTACCTGCTTTTGCTGGTAATGATTGCAGTGGCCGCTCTTTGGACTTGGTTCTTTGAATTCAAGCAAGACAAGATAAAACAAGTTTGGCAGAAAACTATCTGGTTTTTGCAATTGATCATTAATGAGCTGGCTTGCCTCGGCTTGGCCTCGTCACTGCTTATGTTAGTGTACGATAGTCAGAAAACATGGACGATTATCGTTGACCTGTTCATGCTTGTTATCGTAGTTATTCTTGCTTTTGCTTTAACTGAAAAGTTTACTAATCGTGGAGGAGATAATCATGAAATTCAGTAA
>LACTIS1119B1_08870 hypothetical protein
ATGGCACAAGTACTGCAAGTAGCAGATGCAGCGACTAGTCCATTGGCTCCTGTGTGGTGGATTGCCAAAAAAGGAGCAAAGGCTGGTTTTAATTATGCAAGTGATAAGTTTTACAATGTAAAGCCAAGTATCAAAAAAGGAAAATATGGTATTGAATCTACGCCTGGCAGTATAACGCTGAATGGTAGTAAATACGGTGCTAGCGCTATGTATAACGTTAAATCGTTGTCTACGAAGCATTCATTGGCATTACATGCGACTGGTGGCGTGACTACCTTATTCAAGAAGTACTCGCTGATTGTGATTAATCCAAAAGGAAATTTCACTATCAACACTTCAATAACGACAGGGGTATATCGTGGCTTCAAATTTGGTTTGAAAGGCACTTATAAGGTCTTATTTGTAGCAAACAATAAATACAAATTAGCCCCGATCATTTCTTATAGATATGACTCTGGCAACAAGACATTTGGTACAAGAGTAGCGGCTAGAAATAGAACGACTACTAATACCGCTCCTGTTACAATGGAGAATGGAGACTATGTTTCTGTTGCTGGATACGGTGATTTGACAAGACCATCGTGGGGAGCTTCAACGGTTGATGAAAAGAAGTCGTCAGATACGCTAACCGTTTCAGAGCTGTATGATCAAATGATGGACAATGGCAGTGCGGTATACTCCGTAAAGTCTTATAAGGCAGGAGATACTATTAAGGTTTCAGATACTGTGACAGGACTCGAATACGATCAAGAAGCTGATGCAACTAAACTTTTCTTTAATAATGATGCTGATTTTTACTTGGAATATTGTGGGGACCTCACCTCTGCAATCAAGCCAGGTGACCATTTCACCAAAGAAATGCCTGTTGTTCAGTTAGGAAACAGCAGTATGTTTAGATTACCTACGTACTTCAAATATGTAGTAGATAATCCTGGATCATATCCATCATACTACTAA
>LACTIS1119B1_08880 hypothetical protein
ATGGCTGGCGGCATCGCTGGTCAGCGAAACCCTTTATTTTTGGGAGACGCCCTGGACAAGCTGCAAATGGGCGGGGTCCTGCCAGCCAGCCAGGCGGGCCTGCTCTTTACCGGTACATATAAGCTGTGGATGCTGGACTTCGTCAGTCTGGCGGTCTTCTTCTACATTGACCAGTGCGGGGAATTCAGCCTGGTTGACAGCCGGCCCAAGCGGATGCTGGTCTGCTCAGTTGCTGTGCTTAACGGCGTTTTTGAACTGCTCGTGCTCTTGATCAATCCGGGCTGGCTCTTGACGGACCAGCTTCAGCCGACCCTGCTTTACAACCTCCTGCTTTTGCTGGTCCCCCTTCTGTATTCTTTGGCCGCCATTGGCCTGGCTATCAACGGAATCCGGCAGAGCCCCTCTAAAAATATCCGGCAGTTTTACCTGACCACGGCCAGCTGGCCGATGCTGCTGGTCATCTTCGGGGGCCTGGACATCTACGTTGGCACCTTTCCTTTCTACGCCTACGTAGCGACGGCCTGCCTCTTGTTCCTGGCTGTCTACCAGTTCAGAACCCTGGTCGACACTGTTTCCCTGGGAAGCTTGAGTAATATCAAGGGAAGGGAAAAGTTAAAGTCCTACCTGAAGAGCATCCAGTGGCGGGGAGCCAGCAGCGACTACTACCTCGTCTTAGTTGACATGAACGGGCTGCGATCGATCAACGACATCTACGGCCGCTCAGAAGGCGACCAGGTCCTCTTTGCCGTCAGCCAGGCGGTTGGCCAGCTGGCTGAGAAGATGCACGGCTTCAGCTGCCACTATGGCGGGGATGAATTTTTGGCCGTGGTCAAGCTGGCTGATGACGCGGAAGCCAAGCGGGTCTTTGACGACTTGCAGGAAGAAGTCAAGCACATGGCCAGCATCCAGGGCCTGCCAGTCGTCCCCCAGCTGGTAACCTCTGCTGTCCGCTTGGATATGGCGGAAGGGGATGTGACCGCGCAATTGCGGATCGCTGAGGAGAAGATCTACCACCAGAAGCGGGACCTGGACGGTGAAATGCGGGAAAACAACTTCTTCGTCGACAAGGTGACGGGCCTGCCCAACACCAACTATTTCCACAGTTTTGCCAGCTCCTACCTTAAGTCCTGCCTGGAAAAGGGGGACCAGCCAGCCGTTGTTTTGATCAATATCAGCAATATGCAGGCTTACAACAACCGCTATGGCTTTGAAAAAGGGGACCAGCTCCTCTCGCGGATTGCCCAGATTTTGCAGAAGTTTTTCGCCGACGGAGTCCTGGTCCGCTTCGCGGAAGACAACTTCCTGCTGGCCACGGATGCCCCCGACCTCTTAAAGAGCCTGGAAGAGGCGGCGGCTGAAGTCAATAAGGTGACAGACGCCAGCATCCGGGCCGGGGTCTACCGCTACAAAGATGCCAGTGAAGGCTTGATGACGGCGGTCGACAAGGCCAAGCGGGCCCTGCGCTACCTCAACAACAACCGGGCGGTGGTCTGCCAGGTTTACAACCAGGAGGTCAAGCAGGAATTTGAAAGACGGGGCTATGTCCTGGAAAACTTCCAGAAGGCCCTGGATGAGGGCTGGATCCGGCCATACTTCCAATTGGAAAGCCGCAGCTTGACCGGGCGGATCTGCGGGGCGGAAGCCCTGGCCCGCTGGGTTGACCCGAAATACGGGGTCTTGGGACCAGGCTTTTTCATTGAAGTGCTGGAAGAGGCTCACCTGGTTCACAAGCTGGACTTGGCCATCATCCGCCAGGTCTGCGCCATGCTGGCCAGAAGAAGAGAGGAGCAGCAGCCTTTGGTGCCGATCTCGGTCAACCTTTCCCGGGTGGACTTCCAGGTCTGCAACATTTATGCCGAGATTGAAAAAATCCGCCGTTACTTTAACCTGCCGGCCAGCCTGCTGAAGATTGAAATTCTGGAGTCAACGGTGACCAGCAAGCCGCAGGAATTGCGGCAGGCCATCGCCAACTTCCATGCCAGCGGCTATGAGGTTTGGATGGATGACTTCGGCAGCGGCTACTCCAACTTCAACAACCTGGATGAGTACGACTTTGACCTCTTGAAGATTGATATGGTCTTCTTACGGGACTTTGGCAGCCGGTCCAAGGCTAAGACCTTGATTTCCATTGTGGTTGACATGGCTAAAAAACTGGGCCTGCACACTCTTTGTGAAGGGGTGGAGACCCAGGAGCAAGCGGATTTCTTGCGGGAAATCGGCTGCGAGCGCCAGCAGGGCTACTTATTCTCCAAGCCGATTTCGGAAGAGGAATTTTTGGTCAAACTGGCGGCGGGCAAGTTGGAAGACCCGGCCAGCAACAGCTACTATGACAAGGTCAGCCAGGTCAACGTTCTCTTTGACCCGATGATCGACCGGGGCAGCCAGCAGACGGTAGGCATCAAGCTGCCGATCTGCATTCTGGAGAAGGGGACGGATGCATCTGTCCGCTTCAGCTTCATGAATGAGAGCTACAGGCAGTCCCTGCGGGACTTCGGCTACAAGGTTGACGGCTGGGAAGAAGCTGCCAACCAGGAATACCCATTAAAGAAGATTATCCTAGAATTGATGGAAGAAAGCCGGCAAAAGCCAGGACCGGTCAGCCGGATTTTCGACTTCAGGGGCAAGCAATACCTGCTTGAGGTCCGCTACCTGGCCCACGACCAAAAGAGCCAGCGCGACGCCTTCGTCTACACCTTCGAAGGCCTGGCCTAG
>LACTIS1119B1_08890 cell wall-associated hydrolase
ATGAAGAAAAAGAACCTGTTGATGACTGCTTTGGCAACTCTGAGTGCATCTGGCGCCCTTTTAACTACTGGGGCCAGCGCTTTGGCTGACAGCTACACTGTTGTTAAGAACGATACCCTGTGGGGCCTGTCAAAGAAGTACGGCGTTTCAGTAAGCGACTTGAAGAAGGCTAACGGCGTTTCCGGCCACTTGATCTACGTGGGCCAGAAGCTGCAAATCCCAACTAAGTCAACCAAGGCAACCAAGACTGCTAAGACTAGCACTTCAACCAGTACCGTTGACACTACTTCAACGACTCACACGGTCGTAAAGGGTGACACTTTGTGGAGTTTGGCTAAGAAGTACGGCGTTTCAGTAAGTACTTTGATGAAGGCCAACAACTTGTCAAGCAGCACCATCTTGATCGGCCAAAGTTTAAACTTGCGGGCTGGCATGACTGCTTACGGGGTAAACGGCGTAACTACTGGCTCAACCTCAACTGCAGCAAGCACTAACACTGCTTCATCAACCAGCACGACTGCTTCCAGCCAGGCGCCAAAGGCCAAGAAGAGCACTACTACTAACACTAGCAGCAATTCCAACACCAGCACTAGTGCCAACACTCAAAGCCAGTCAACTACATCTAACAGCAGTGCGTCCACTACGACCAACACTAATACTGCAGCATCAAATGCTAACACTACTTCAAGCACTAACACTGCAGCAAGCAACAGTCAAGCAGTCAGCCAGGCACCAACTGCTTCAACCTCAACTGCAACTACAACTGCCTCAGCCAGTGCCAGCGCGATTACTTCATACGCTTTGACCTTCCTGGGCGTGCCTTACGTTTGGGGCGGGACCACGCCAAGCGGCTTTGACTGCTCCGGCTTGGTACAATACGTTTACAGCCACTTCGGCATCAACCTGGGCCGGACTACTTACACCCAGCAATACGCCGGCACTAAGATCAGCGTGGCCAGCGCCCAAGCTGGTGACCTCTACTTCTGGGGTTCATACGGCTCAGCCTACCACGTAGCCATCGCCTTGGGCGGCGGCCAATACGTCATGGCTCCAGCCCCAGGCCAAAACGTGATGACTGGCAGCGTGTCATCATACACGCCAAGCTTTGCCGTTCGCGTTTTAGGCTAA
>LACTIS1119B1_08900 restriction endonuclease
ATGAAGTTTCAGTGCAGCAGCTGCGGTTTAAGACTGGAATCCCTGCATTTCAAGCTGCCCGGCCTGGTCAATGACCGCCTGGCCAGCCTGTGTGACATCTGCCGGCAGCGGGGGCTGGATCCGGCAGCTTACCCCAATCCCGTGGTCAAGCTGTTCGCGGCCAACCTCCTCTATGCCTTTGTGGGCAAGGACGGGGAAGCAAGCGGGGACTTTTCTCTGCCGGACTTAAAAATCCGCCGGTCCTACGAGGCCCTCATGCAGGACTATGATGGAAATGTCCTGGCCAGGCAGCAGCTGCCCAGAGCAGACTTCAACCAGGCCGTGATCAAGGCTGAGGATGATCCCAGCTTCTTTTTGCCAGGAAAACTCCCTTTCGCGGAAAAACTCCAGGCCTTAGGCCTCAGCGTTGACTTTCAGTTAAACGAGGTTGACTATATCGACCGGGAGCGGATCCGGGCCAAGTACAAGTACCGCTGCCAGTACTGCGGCCGGCGGGGGCGGAGCGTGGACCACAAGGACCCGGTCTCCGTCTCGCACGATAACAGCCTGGACAATCTGATTTTGTCCTGCAGCGAGTGTAACCGGATCAAGTCTAATATGCCTTATGACCTTTTCGTCAAGCTCAACGAGGAATTGCAGCCTTTAAACAAAAAGCTGGTCAAGTACGAGAACGCCCTGGGCCCCTTGGAAAAAGAATTCCAAGACCGGCGGAACATGCTGGCCGCCAAGGTTCATTTAAAGGGCGTGGTGAATGACCCGGAACTGGCCGCCATCCGCAAGGAAAACAAGCGCCTGCGGGATGCCATCGACAGTTTAGAGAGTGACTATGACGCGGCCCGCCGCTTGCGCGAGGACCACTTCAAGTTGGGCTGGAAGCTCTACCTGGCCCAGCAGGACAAGGAAATCATCTAG
>LACTIS1119B1_08910 hypothetical protein
ATGTCAAGAAATATCCACACGGGTATCAACCCACACCGTCGTCCACGTAACGCTTCTAACGCTAAGGAACGCGTTGCTCACGCCGCTGCTATAATCAGCTTCCTGAACCAAGCAGCTAAGGACGAAAACAAGTAA
>LACTIS1119B1_08920 cation transporter
ATGGAAGCCGCCAAAAGCAAAAGTTCAAATAATTTTTTGACCATCTTTTTGACCACCTTAAAGGAAATTTTTAGCGACCGAATTCTGCAGATCACCATCGTGATCACCATCATCAGTCTTTTCTTTGCCCGGCCGCTCAGCGCCGACATGAACTGGCACACGATCGAGTCTGTCACGACCATGCTGGTCTTGATCCAGGTCTACAGCTACCTGCACGTTCTGGACATCATTGCCTATAAACTGGCGGCGATCGCTGACTCTACCCGAAAGCTGATCCTCCTCTTTACTCTCTTGTCCGTCTTCTCGGGCATGTTCCTGGGTAACGACATTACCTGCTTGACCATGATCCCCCTGTACTTGAACATCGCCAAGAAGTACAAGCTGCCGGAAATCCTGCCGGCCACTTTGATCGGGATGGGGGCCAACATCGGGGCGGCCTTCACCCCATGGGGCAACCCCCACAACATCTTCGTGGTCTCCAACTACCACTTAGTGCCCGCTATCTTCTTTAAGTGGACCCTGCCTTACCTGATCGTGGCCATGGTCGTCTTTCTCTGCATCTTCTTCTTTATCCCGAAGAAGAACATCCCGACCCAGGAAGTCGTTGAAATCAACGTCAGCTGGCCAATGACGATGATCACCACGGTCATCTTCTGCTTCTTCTTCGTTGGCGTCTTCAAGTTCGTTCCAATCTGGATGCCGATGCTGGCCTCCATCATCTGGGCCTTGATCGTCAACTGGAAGATCCTGCTCCACATTGACTACTCCCTTTTGCTGACCTTCACCCTCTTCTTCGTCTTCATCAGCGACATCCAGCAGATTCCTTTTGTCGTGACCCTGATCCACGGCCTGGTCGGCACTGAAATGAGCACTTACTGGACATCCATCCTGTCCAGCCAGGTCATGAGCAACGTGCCATCAACCATCCTGGTCGGCAAGTTCTCCAAGTACGCTGAAGCCTTGACCCTTGGTTCCAACATCGGCGGCTTCGGTTCACCAATCGGGTCCATGGCCAACATGCTGGTCATGCGGACCTTCTACGCCCACGCTTCCAAGGATGCCAAGAAGAAGTTCTTCCCGAAGTGGCTGGGCTACCAGATCGCCGGCTTGATCATCCTGTCCCTTATCGGCTGGGTCATCGTCAAGCTGAACCTGTAG
>LACTIS1119B1_08930 LemA family protein
ATGGCAGTCTGGATTATTGCTATTTTAGTCGTATTAATCGTTATTTTTTACATTTCAGCCTACAACGGCCTGCAAAAGGCCAAGGTTAACACTGAAGAGGCCTGGAGTCAGATCAGCGTTCAGCTCAAGCGGCGGAACGACTTGATCCCTAACCTGGTGGAAACCGTCAAGGGCTATGCCAAGCACGAAAAGGAAACCCTGAGCAAGGTGGTTGAACTCAGAAACCAGCTGACCCAGTTGCCAGCTGACGACCACGAAGGGGCCATGCAGCTGTCCAACCAAATCACTGACAGCTTGAAGACCATCTTCGCCCTGTCTGAAAGCTACCCAGACCTGAAGGCCAACACTAACTTCGCCAACCTGCAGGAAGAACTGACCAACACGGAAAACAAGATTGCCTACTCACGGCAGCTCTTCAACTCCAGCGCGGCTGTCTACAACAAGATGCTCCTGGTCTTCCCATCCAACATCGTGGCTAACATCCACCACTTCACTAAGGTTGACTACCTGGAAATCCCTGAAGAAGAAACCAAGGTACCAAAGGTATCCTTTTAA
>LACTIS1119B1_08940 heat-shock protein HtpX
ATGCTATACCAACAAATTGCCCAAAACAAGCGGAAGACGGCCGGAGTCCTGGTCGTTTTCGTTTTGATCTTTGCCCTGGTGGGCGCGGGCCTGGGCCAGCTGATGTGGGGCAAGCCCCTGCCGGGCGTATTGACCGCCGGCGTCATTGCCTTGATTTACTCTTTCCTGGTCTTCCAGGATCCGGTCAATGTCGTCATGAGCATGAACCATGCCCAGCATTTAAATAAAGAGGACAATCCCCAGCTTTTTCATATCGTGGAAGACATGGCCTTAGTGGCCAATATTCCCATGCCCGAAGTCTACTTGATTCCGGACAAGAGCCCCAACGCTTTCGCGACCGGCCTGTCGCCGGACAAGTCAGCCATTGCTGTTACCCAGGGCCTGCTGGACATGATGAACAGAGAAGAGCTGGAAGGGGTCCTGGGCCACGAGATTTCCCATATCCGCAACTATGACATCCGCCTGTCCATGGTAGCCCTAGTTTTGGTCAGTGCCATCAGTTTTATCGCCGACTTTGCCCAGCGCTGGGTCTGGTTCGGCTTTGGCCTTGACCGGGACGATGACGACGACCGAGAAGGCGGGATGATCGGGATGATCATCGGCGTGATCGGGGTTATTTTCGTTCTGATCCTGGGGCCTTTGGCGGCCAGCCTGGCCCAGATGGCCCTGTCCAGAAACCGGGAATACCTGGCCGACGCCAGTTCAGTTGAGCTGACCCGGAACCCGCACGGCTTGATCAGCGCCTTGACCAAGATTGAAAACAGCCAGCCAATGCAGGCGGCCAACAGCGCCAGCGCCTCCTTGTACATTGAGGACCCGATTAAGCGGCACAGCCTGAGTCATCTCTTTGACACCCACCCGGCGACCGCTGACCGGATCAAGCGCTTGGAAAAGATGTAA
>LACTIS1119B1_08950 hypothetical protein
ATGAGTAATCTTAAAAAATCAAATATTTTCAAATTGTTAGTAGTTGCAGCCATTGCATTATCCTTTAACATGTTATATTACCTAAATAAGGGGAACCTTAGTAGACTGGTTGTAAACGCAGAAGAAGGAGCTATTACCGAGGAATTCGATAGATCGTATGAAAAAGTTAATGATATTGATTCTAACGATTTATCTGCTGATGAAGTAGAAGAACTGAAAACATATGTTAAACTAGCACCTAAGGTTATTGTTGCGGATGCTAACGAGGATTTGCCAGATGGCGAAATTCCAGGTGGCGATACTTTAGACTTATCTGAGGAAGTTGATGCAAGCGTAGGCAGTACAATTGGCAAGAAATTAATTAAGAAATTTGGCAAAAAATTTGTAACCAAGAAATTGCCTCGAATAATCTATGGCAAATTGCCAAAAGCTGTCATCAAAAAAATCACATTAAAGAAGTTCGAAAAAGCTTGGAATGATCTTTTCTTAGGTAGTGTAGCAGGAATAGTCAGCGAACAGGCATATAATTATATGGTGAAGAATCATGTGCCGAAGTGGGCAGCAAAATCAGCAGCCGCTGTGTTATATGGTGTAATTTGGTATTATCTAAATTAA
>LACTIS1119B1_08960 hypothetical protein
ATGGATAAGCTAAAAAAGAAAATGCCGAAAAATAAGTATGCAAGAGCTGCTATCTCATTGACAATCTTTTTTGCCTGCATTCTGCCAATCCAATACTTATTTGAGAAATTGTCATTTAGTACATTTTGGTCAAACTTTCTTGGCTTAACTATTGGTGTGTACCTCTTTCGGAAAATCATCGTTGCTTTGGGAATTCAACGACACAATTTTTAA
>LACTIS1119B1_08970 XRE family transcriptional regulator
ATGGGTGAACTTTTAAAAAATGCGCGGCTTAGTTTAGGCTTGTCGCAAAAAGAAATGGCTGCGGAAGTGATGTCTGTTACGCAGTATTCTAGAATCGAAAATGATCAACAAAGAATTAGGTTTGATGATCTAGTAAAAATACTCCATGCTCATCAAATTGATATAGTATCTTTTATTAATCAATTTTTACTGAGGCGGAAATTAACAGATTGCAATCATGACTATTATTTGCAAAAAATTGAATCCATGTATTGGGAGCGTGATCTTTCGTCAATTGATGAATTACTTGATAAGTTAAAGCAGTTTGGGCAGCATGGGCTCTTAAATCTTTTGACTAAGTTGTTGATTGTGAATGTAAAAGATAGTTTAGATTGTCCAATGGCACAACAGTGTCGTCAAGAATTATGCCAACGCTTGCTAGCAGTTGATAAGTGGACAGATAATAACAACTTGTTGATCTTATTTGCATATGGAGTCTTCATTTTAGACTCTAAGCACTTAGATTATTTTGCTAAACAATTATTTGAGCGATATCAAAGAATCGATGGTATGCCGATTAAGAAAGTAGAAATTTTAGCAATTATCGCTGTTAATTATTTGGCAAATGACCTTCATAAGGGAAGGGGCAGCCATTCGGGTGAAGCTGTTGATTTTCTATACTCATTACCAGCTCATCCGCACTTTTTACTCTATAAACTGCTAGCCAAGTATTATAAAGCGGTAGCTTTAGAGAATGTAGAACAACAAAAGAAGATTTCTAGGATGTTAGCGGAATTTGGTTATAGGGATTTAATAGTTGCGTTTAGTACCGCACCATAA
>LACTIS1119B1_08980 AraC family transcriptional regulator
ATGACTGAAATTGCCAAGCTGCAGAAAAAATTGCAGGAAGCGGGGGATGCCACCCTGCCGCTGAGCAAGGGGAAGGGGCAGACCGCGGACTGTACGTTTGTTTTACTAGGCGACAAGGCTGAAGGCTGGAAGAATGACTCTTTGACTGCCTTGCTGCTTTTAGCGGGGACGGGGCGCTTCCGGGCTGGCCAGCAAAAGTGGCAGGTTAAGCCCGGTGACTGGTTCCTCCTGGCAGCTGGCCAGGACTGCAAGGCCAGTCTGAAAGAGGGGCTCCTAGTCCAGCTTGTCTTGCCAGAAGCTTTTTCAGTGAAAGACTTGAAAAAGGATCTCATGCTGGGAGAAGCTGAAGAAGTAGGGACCCACGGCCGGGTGGCGGTTGACGGGCCAGCTGGGGCGGCTTTCCTGGCGGCCTTGAATGAGTACCAGACTAGCGATTCTGTATCTTCAGTCTTGCTCAAAAGCCAGCTGCTAACTGCCCTGGCTCTGGCCTTGCGGGCACTAAATGAAGTGGGCAGCTTGAGTGAGCGGGAGATCCGCCGCTATATTAGTGAAAACTATGTCTCGACCAGCGTGAAGGATGCCGCGGCTTACTACCAGCTCAGTCCCAACTATTTTTCCGACCTGGTCAAAAAGAAGACCGGGCAGAGCTTTATTGAGCTGGTTGACGAGCAGAAGATGGAGGCAGCCGTCCGCCTTTTGGCCCGGCCAGACCTGTCGATCAAGCAGATCATCGGCCTGGTTGGCTACCGGGGCAAGTCCTTCTTTTATGAAAAATTTGGAAAGTACTACGGGATGTCGCCGGCGGCCAAGCGTAAGGAGCTTTTCCGCCAGCAGGGCATCAATTTATAG
>LACTIS1119B1_08990 major facilitator superfamily transporter
ATGTCAGATCAACGAAGACAAGTAATTACCGTGGCCTTGATGTTGTCAAACGTCATGTCCGGCCTGGACAACACGATCATCAACACCGCCTTGCCGCGGATCATTGCTGATTTGCACGGGATTGAGTATACCGGCTGGCTGGTGGCCATCTTCTTATTGGGGACGGCTGTTTCCACGCCGCTTTGGAGTAAATTAGGCGAGCGGCGGGGGAACAAGCTGGCCTACCAGCTCGCGGCTGCCTGCTTTTTGCTGGGGGCACTGCTCCAGGGCTGCGCCCAGCAGATGTCCTTTCTCTTGACCTTCCGCCTGTTGGCCGGGATCGGCAACGGGGGGATGGTGTCGCTTCCTTATATCATCTACTCTGACCTTTATCCAAACGCCCACAAGCGCCTAAAGGTGCTGGGGATGGTCTCTGCCTTCTTCACCACGGCCACCATCTTAGGACCGCTCTTTGGGGGCTGGATCGTTGATGCCCTGTCCTGGCGCTGGGTCTTTTATATCAACATCCCGGTGGCCTTGATTTCTATCGTTTTGATCCAGATCTTTTTCCTGGATGAGAAAAAAGACCGGCCAGCTCACAGGGTCGACTTAGGCGGGGCCATCTGCCTATCCTTTGGGGTGGTGGCCCTCTTATTGGGGACCCAGCTGGTGGGTTCAGCCAGTCTGGCCACGGCGCTTTTGATCTTCGCGGCGGCCTTGATTTTCATCGGACTTTTGGTCATTATTGAGCGCCGGGCAGAGGACCCGATTATTCCAGGCCGCTTGTTCAAAAATATCCCCTTGGTGGTCGACTTTACTTTGTTCGTTTTGATCTGGGCCGCCATGTCGGCTTACAGCGTCTACGCGCCGATGTGGGCTGAAGGCTTGATGGCCACGACTGCCCTGATCGGGGGGATGACCCAGATTCCCGGAGCCCTTACCGACATGCTGGGCTCCTTGTCCGTGGAAAAAATGCGCCGGCGCTGGTCAGCCTACCAGGTTATGCTGGCCACCTGCTGGCTTTTGGCGGCAGGCTACCTGGCTATGGCCATGGCTCCGCGCTATTTCCCTTACTGGGGGATCTTGCTGGCCGGGATGCTGCAGGGCTGGGGCCATGGGGTCATGTTCAACCAGCTTCAGGTTAAGGTGCAAGAAGACGCGGAAAGCCAGGACGTGCCGGTTGCTACTTCTTTCTCCTACCTGATCCGGATGCTGGCCATGGCGATTTCTTCCAGCGTCTTCGGGGTCATCTTGAATGAGCACTTGGCTAAAGGGGTCAAGGCTAGCGGAGGCAAGATCACTTTGTCCATGCTCAACCACTTGTCAGACGCCAAGACCCGGGCCAGCCTGCCCAAGCAGGATTTGGTCCAGATGGAGAATATCCTCTACGGTGCTATTCACGCAATTTTCTGGGCGGCCTTTATCCTGGTCTTCCTGTCTCTGCTTTTGGCCATCTGGGCCCGCTGGCGGGAGAAAAAATTGGCCGGCAAGCGGTAA
>LACTIS1119B1_09000 energy-coupling factor transporter ATP-binding protein
TTGCAAGCAGAACTGACAATTGACCACTTAACTTTTTCCTACGGGGACCGGGAGGTCATCCGCGACCTGTCCTTAACCCTGCCGGCGGGGACTTTTTCCCTCTTGATCGGGCCGACCGGCTGCGGCAAGTCGACCCTGTTGAAGATCATGGCCGGCCTCTACCCGAAATACGGGGGCCAGCTGACCAGCGGGCAGGTTTCTTTGGGCGGGCGAAGTCAGGCCATGATGTTCCAGGAAGCCGGCGAGCAGTTTACCATGGCCACGCCTAGAGAAGAGATTATTTTTGCCATGGAAAACCTGGGCAAAAGCAAGACAGAATTTGCGGACCGGCTGAAGCTGGCCAGCGAATTCGCGGAAATCGACTCTCTTTTAGACCAGAAGATCGTAACCATGTCCGGCGGGGAAAAGCAGCGGGTAGCCTTGGCCGTCCTGGTCGCCATGGACGTGGATCTTTTCTTATTAGATGAGCCTTTTGCCAGCGTGGATCCGGCGGCCCGCCGCTTCTTGATTGGCCGCTTGGCCAAGCTGAAAGAGCAGGGCAAGACCATCATCATCACCGACCACCTTTTTGACGACTACCAGGGCAAGGTGGACGGGGTCTACCGCTTCAAAGGCGAGCAAGTGGACTTATTGACTAAGGATGAACAAGCGCTTCTCCTGGCTACTGAGCCAATCGGCCTGCACTTCCCCCTGCCGGAGAACGAGCCAGCGGCTTTTGTCATGAAAAATTTCGCCATCAAGCAAGGCCGGCCTTTGCTTGAGCAAAAGGAATTAGCCATCCCCAAGGGGAAGGTGACCTTGATCACGGGGCCAAACGGCAGCGGGAAGAGCTCTCTGTTTAAGGCCATGACCAAGTTGCTGGACTACCAGGGGTCTTTGACCTGGGAGGGCAAGGAAGTGGCCAAGCTCAAGGAGCGGACCTACTTCCAGCATGTAGCCCAGATTTTTCAAAATGCAAGTGACCAGTTCATGGCCATCACCGTCAAAGAGGAGCTGGCTTTGAGCCAAAAGCACGCTTCCCCCTACTTCACTCCGGAAGTCTTAGACCAGGCCCTGGCTGACCTGGATTTGGCCGACCACATTGACCAGGTGGTCTACTCCTTGTCGGGCGGGCAGAAAAAGAAGCTGCAGATCCTCTTGATGCTTTTGTCGGGCCAGGAAGTGCTCTTGATCGATGAGCCTTTGAGCGGCCTGGACCAGAAGTCGATTGAACAGGTCGTGCAGCTTTTGCAAAAGTGCCAGGAAAAGAGCGGGCAGACGATCCTGCTGATCAGCCACCAGTTCTACGGAATCAGCACTTGGTGCGACTACCACCTGCGTCTGGCCGGCAGAGAGCTGGCTTTTGTCCAGGATTAG
>LACTIS1119B1_09010 hypothetical protein
ATGACTAAAAGCAAAATGAATCCCAGCTTGAAATTCCTGCTGACCTTGATTATTTCACTGGAGTTATCTTTTAAGGTCAGCCTTTTCAGCAATGTCATCGTTATTGTTTTATCATTAGCCTATCTCTTATACCGGCGGATCAAGCCTAAGGCCCTGGGCGGGATGCTTTTTTGCAACGGGCTTAGCGGCAATTACCGTCTTTTCTTCAGGCTACATCTTCAGTGA
>LACTIS1119B1_09020 hypothetical protein
TTGGACATCTCCAGCCGGGCCTTCGTATATACCTTCACCACGGCCTGCCTGACCATTTCAACCACGGCAGAAGAGATGGCCCGGTCGCTGGAGCAGAACCTGCACTTGCCGAGCAAGTTTGCTTATGGAACTTTGGCGGCTTTAAACATCATTCCCCGCATGCAAGCCGCGGTCAAGCAGATCCGGGTGGCAGGGATGATGCGGGGAGTCTACCTCTCCTTTTGGTCCCCGGTCCTCTACTTTAACGCGATTTTGGTAGCTTTAAACAGTGCCGACAACCTGGCCCAGGGGATGGAGTCCCACGGCTACCGGGAAGGCGCTCCGCGGTCCGTGATCGTTGAGGTGCCGCTAACTAACAAAGATTGGCTGCTCTTTATTATTGCGGTTCTTCTTTTGAATCTGGGCGCTTTTTTACTCCCGTAG
>LACTIS1119B1_09030 pyridoxamine 5'-phosphate oxidase
ATGAAGAAATTAGACGCTACTACTTTGACTGCTGACCAACAAAAGTTCTTTAACGACGCTTTGGCCTTCGTTGCTTCCGTTGACAAGGACGGCAACCCACAAGTTGGTCCTAAGGAATCATTGACTGCTTTGGACGACAAGCACCTGGTCTGGAGTGAAGTTACCTTCTCCCACTTGTGGGAAAACATCAAGAACGGCAGCAAGGTTGCTGTTGTAGTTGCTGACGTGCCAAGCCACACTAACGTACGCGTGCTCGGCAGCGTGACTATCCACGAAGGCGACGACTTCGCTAAGGAATACGCTGCTAAGGTTGGCAAGAAAACTGATACTGCCGTAGTAGTTGAAGTTGAAGAAATCTTCGCTTAA
>LACTIS1119B1_09040 hypothetical protein
ATGAAATTCTTAAAGATTTTAGTCAAAGTGGTTGATGTAATCTTACTATGCTTTTTGACTGTGGTAGTTTGCTCAAATCTAAAGGACTACATCAATGCCCTAAGAACGATCAAAGGGACTGATTTAAAGGTAACAGTTTTTGGCCATGTGGTTTTAATTTTGGTCTTACTGACAGAATTAGCCTTAGCTGTATTTAGCCAAAAAATTCCCCGTAAGCTGTTCTTGATTATTGGCCTAGTTTGCCTTGCCTTGACATTTATAGGACTGATTACGCCAATCGCTTTTGGTCCGGGCAATTTGCCACTTAACCTTTTGGCCTTAGTGTTATTGGCTGTTAGCCGCTTTTTGCAAGAAAACATAGCTCAGAAGAGAACGTTGTAA
>LACTIS1119B1_09050 hypothetical protein
ATGAAAAAGCGATTTTTTAGTTATCAATTTTTGTTTAGCTTATTGCTGGTTTCTTTGCTTTGTATCAATATCCCTGTAGTGTTAGCTGATTCGAATGAATCGATTCAACAAAAGAATGTATTCGATCAAGTTTATGACCTTGGTCGTAGTAAGGGAATTTTAAACGATCAGAATATGTCAAAAGAGTATTTTGAAAAATTGTGCTCAAATGTTCTTTTCCCGGACTATCTGTCGTATTCTCAAAACAATCCTGGAGTTTCTTTTCAAGAATATGTCTCAGATGATAATTTTGAAGTGCCAAAAGTTGAAAAAGGTGATCATCCTACAGAAGTTAACGCTAGGACAACTAGTTCAAAACTTAGCGGCCCGTTTGTGAACTTTATTTCAGCTAAATCGGGTTATAGTATGAAAGCTGGCGATATCTTAATTTGCTACGGGGGTGGTAGCAGTAATAACTCCTTGTCTAATTTTCCTGGCCATGCTGCAATTGCTACATCAGCTGGATATATTCTAGAGATGCCAGGTACAAAAAATCGCAGCGCTAAGAAAAACGCAAGGCATATCAGTAAAAAGGAATTTTTTACTGCTCATACTAAAGGAAATGACTATGTATGCGTTTATAGAATAAGTAAACACCCACACTATGCGAATGATGCGTCCACATATGCATATAACTATATGTATAAAGATGGTAATCCTACTTATTCAATTGTGAAAGGATATGAGCTGTATAAGAAGTCACCAAGTTACTGCTCAAAATATGTATATTACGCTTATTGGAAGGGCGCAACCTCTTCAGCTGTAAATAAGTACCCTAAGTATTGGTGGGTTAAGCCTCATAGTTTACCAAATTACTTTTCTAAGTCCTTCCATCCGTCGTATATCCATAAAATAACCAAGTACTAA
>LACTIS1119B1_09060 hypothetical protein
TTGCTGGGCCTTGTAATTGACCGGGTAGTAGGCCTGTATTTCGGCTTGACCTGGTACTGGACCTTGGCTGTTGTTGCTTTGGCGGTCAGTCTGGTTTTGGCCAGCTACCGCTGGCGGGGGAAGGCAGTCTTTAACTATTGGCTGGCCGGCATCCTCTTGGCTATCAGTTTGGTCAGCTGCGTGATGGCTTGGGTTGGGTGA
>LACTIS1119B1_09070 XRE family transcriptional regulator
ATGGAGATCTGTGATTTACTTAAGCAGACGAGAATAGATTTGGGCCTGACCCAGCAGGGAATGGCGGGAGAAGTCATGTCAGTGGCCCAGTACTCCCGGATTGAGAGCGGGGAGCAGCGGATCAAGGTTGAAGATCTGCTGGAGCTTTTGGAAAGCCATAATTACGATCTAGGCTACTTTTTCACCAAAATGATTTACAGCCGGCGGGGGGAAAAAGAGGCTGACTGGATCAATATTGAGTTCCGGGTGAAGAACGCCTTTTATGATTGGAACTGGAAAAAGATGAGCTTTTTGAAAGAGCAGGCGGCCAATCTGACGGGGAAGACAGCCCTGCGGGTTGGCGGGGACCTGGTGGCTTATCTGCTGGATCCGGAGCTTAAGGATCATGAACAGCTGAAAAGCGAGGTATCGGATTATTTCTTTAGTCTGGACAATTGGATGGATGATACGGAAGCGATTGTTGTATTTGCCGTGGCGATTCAGTTGATGAAGTTTGATATTGCTTATTTTTGGCTGAGTGAATTGCTTGACAAGTACCAACAGATCGATAATTTTTCCAGAGACCAGCAGGAAGCTGTGGGCAAGGCTTGTGTCAGCTTCTGCCAGCGCTGCAGGAAAGAAGGCGTTGCAGAGGCAGCAAAAGAGGCAATTGAAGTTTTAGGTCAGCTGTCGCCCTGTCCGGAGTTCGTGGCCTACCGCTTGCTTGGCAAGTATTACGCGGGGCTTTTTTCCGGAGAAGATGAGGAGGCGGAAAGGATCAAGGAGATACTCAGAGAGTCTGGATTAGAAAGATTTGTCGATCATTTTCTCTTGTGA
>LACTIS1119B1_09080 rRNA methyltransferase
ATGAATATCAAAATTGTTTGCGTTGGAAAATTAAAAGAGAAGTATTTTAAGGACGGGATCGCGGAGTACCAGAAGCGGCTGAGCCGCTTTGCCAAGGTGGAGATCGTGCAGGTGCCGGATGAGAAGGCGCCGGAAAGCCTCAGCCCGGCCCAGATGGAAGAGGTCAAGAAGCGGGAAGGCGAGCAGATCTTGAGCAAGATCAAGGACAAGGAATATGTTTACGTTCTGGCCATTAAGGGCAAAGAGCGGGCTAGTGAAGAGTTCGCCAAGGAACTGAAGGACCTGGGGACCTACGGGCATTCCGACATTACTTTCGTGATCGGGGGAAGCCTTGGGACCAGTGACGCGGTCAACAAGCGGGCCAACGACCTCTTCAGTTTCGGCAAGCTGACCATGCCCCACCAATTGATGCGGCTGGTTTTGATTGAGCAGATCTACCGGGCCTTTATGATTAACTCCGGCAGTCCTTACCACAAGTAG
>LACTIS1119B1_09090 serine protease
ATGTCTGAAGAACAAGATAAGCAAAGAAACACGCGCAAGAAGGAAAACAACCGTTTGCTAACTAAAGCGGCCATCATTGGGGTCGTTGCCGGTCTTTTGGGCGGGGGGATTGCCTACGGCGGCTTGTCAGCAGCCAATTTGAACAGCAATGCTTCATCATCCACGGCCAGCTCAAGCAGTAGCAACACTGGTGAAACCGGGTCAGTGACGACTTCATCCAGCGGCACGACTAAGGTCAACAAGTCCAGGACTACCAGCGGGACGATGACTTCCGCCTACAAGAAGGTGAAGAACTCGGTTATTTCAGTTTTGAACTACAAGTACACTTCCAGTTCATCATCAAGCCCTGACATCTACAGTATATTTGGTTACGGTGACTCGGACAGTTCAGACTCATCCAGCTCCAAGAAGTCGTTGACTTTGTACTCTGAGGGTTCCGGGGTCATCTACACGACGGCAAACGGTAAGGGCTACATCGTCACTAACAACCACGTTATTTCTGGGGCAGCCAAGGTGAAGGTCATGCTGGATTCCGGGAAGACGATTGCCGCTAAGGTTGTCGGCAAGGACTCAACCAGTGACCTGGCAGTTTTGTCAATCGACTCCAAGTACGTGACTCAGACTGCTTCATTTGGTGACTCCAGCAGCCTGCAGTCCGCGCAGACGGTGATTGCCATCGGTTCACCAGAAGGGTATGAATACGCGTCTACGGTAACGCAAGGGATCATTTCCTCACCAAGCCGGACGATCACTTACAACTCCAACCAGATGACGGTCATCCAGACTGACGCGGCCATCAACTCCGGTAACTCCGGCGGGCCCCTGGTCAACTCTGACGGTCAGGTTATCGGGATCAACTCCATGAAGCTGTCCAGCTCCAGCAGTGGCGACTCCGTCGAAGGGATGGGCTTCGCGATCCCGTCAAACGAAGTTGTGACGATCGTCAACCAATTGGTCAAGAATGGGAAGATCACCCGGCCGCAACTGGGCATCAAGGTAGCAGCAATTGATGAACTGAACAGCTACTACAAGAAGCAGCTGGGCATTTCAACTAGTCTGAAGAAGGGCCTGTACGTGGCCGGCGTAACTTCAGGCAGCGCGGCAGCCAGTGCCGGGATCAAGAAGGGCGACGTGATTACGGCGGCTGACGGTAAGACGGTCAACGACGTAGCCACCCTGCACAGCATCCTGTACAGCCACAGTGTTGGTGATAAGGTCAAGATTACGGTCAACCGGAATGGCAAGACCATGACCTTCACGGTAACCCTGCAGGCAAGCAACTAA
>LACTIS1119B1_09100 metal-dependent hydrolase
TTGCAATTCGCGGTATTATCGAGCGGATCAGCGGGCAACTGCAGCCTGCTGATGACTGACCAGCACAAGATTTTGATGGACGCCGGCCTTTCAGGCAAGAAGACCAAGGAGCTTTTAGCCAAGGTAGGCGTGGCGATCGAGGACCTGGACATTGTCTTTTTAAGCCATGACCACGGCGACCACAGCGGGGGGATGGGGGTCCTTATGCGCCGCTATCCCCAGCTGAATGCCTTCAGCAACACGGGCACCTGGAAGTACTTGGAGGAGACCGGGAAGATCGGCTGCCTGCCGAAAGACCAGATCAATGTGATTGAGCCGGGCCAGACCAAGTGCTATGGGGACTTGGAAGTGACGGCTTTTGCCACTAGCCATGACGCGGCCCAGCCCCAGTACTACGTTTTTTCCAGCGGGGGCAAGCGCCTGGCCTGCTTGACGGACACGGGCTACGTGTCTGAAGAAGTCGAATATGAGATTCAAGACGCGGATGCTTATTTGCTCGAGTTCAACTATGACGACCTGATGCTGAGAAGCGGCCCCTATCCCTGGAGCCTGCAGCAGCGGGTCCGGTCAGACCACGGCCACCTGTCAAACGAGCAGGCGGCTGAGACTCTGGCCAGGGTTATCAGTTCTAAAACCAAGCATGTTTTCATGGCCCACCGCAGCCAGCAGAACAATTTAAACTATTTGGCCCGGGACGTGGCGGAAGAGGTTTTGGCGGCCAGAGACGCCGACGTGGCCAGTGACCTGGAATTGCACGATACCGAGCCGATGACGCCGAGTTCTTTAATTAATTTATAA
>LACTIS1119B1_09110 hypothetical protein
ATGGATCATCGCAAAATTGAATGGCTTTTTCTGATCCTCTTCTGCTTAGTCGACATCTATCTCTTGATTGAGCTTTGGCGGGCCCCGGTTACCTTGACCTCATCGACCAATTCGGTGACGACCTCAACCAGCTTGAAGGCTGAAATGAAGTCAGACAATATTACGGTTCCTTCCCTGTCCAGAAAGGGGGACTCGGGCTACTACCTGGCCACTAGAAGTAAGAGCGACTTGAAGGAAGCCGCCAAGAAGCTCAGCAGCGACGTCTCCACCAGCTACGCTGAAGGGGACAAGACCCTGTACGCGACCATGAAGACCGCGATTCCGCTGGAGCGGATGACGGTGGGCGAGTTCAAGAATGACAGCAATTACGTCCCGCATGGCAAGCAGTATGTCTATGCCAAGAACCTCTCCAGCAACAGCAGCTACGTTTACGTGCAGAAGTCCCAGTACGGCCTGGTTTACAGCAGCCTGGCCCAGCTGGTGGTCAATGTCAAGAACAAGAAGATCACGGGCTACTACCAGACCTACTTGACTGACTTGTCCAGCGTCCGCGAGCTGCAGGCAACTATCAGCCCCTTGCGGGCGGTCACCAACCTCTACACCACCCGGGAACTGGCCGACAACTCCCGGGTAATGCAGGTCAAGCTGGGCTACACCAAATTGACCGAGGTCCGGGGCAGCGTGATTTTCGTCCCGACCTGGCTGGTCTGGATCGAAAATAAGAGAAGCAAGAGCAGCTGCTTGAAGCGGGTCAACGCCTTCAGCGGCCAGCTTTTGCAAAACAGTACATTGGACGATTAA
>LACTIS1119B1_09120 hypothetical protein
ATGAAGTTTAAATTCAAGTTCAAATTCAATGATTTTCTCCTCCACCTGGCGACCTTGACCGTGATTTTGATCTCGATCGGCCTCTGGGTCACGGTGATGACCAGTGACCAGCGCTTCAGCCGGATCAGCAATGAATCATCCTCCCAGAGCTCGGCTTCTTTGTCGACCCACTACCGGAATGTCCAGTCTTTTTACGCCCCGGGCCAGACCTATGTCTTTCAAAACGGGGTCCGCTACCAGGTCCATGACGCCAAGCGGAACCTGCCTTTGAAGTTTGTCCAGTACCTGGAAAATGTCAAGCTGGGGACGATCGAGAAAATGTCAACCACGGCCAGTGATTATGAGAGACTGCTGGCTGACCAGAACTATATTATGTTTGCCTACCCGGACCAGATCAATTTCACGGTCCTTTTAGGCAAAAAACAAGCTAATTCCAGCCTGCAGTTCAACCGGGTCTTTGTCCCGGTCAAGAGCAAGACCCGCTACCTCTATTTCGGCAACGACAAGGGCAGCCGGGTCTACCGGGTAAAGATCAAGTCCGGCTCCTTCCGGCAGCTGGCAAAGTACGTCAAGAGCGCCCAAGACCGGCAGGAGGTCAGCTTCCTGCACTTAAAGAAGCTCTACGTGCCTTTTTATGCCAAGGAAATCAAGGCCAAGGAATACAGCTACCTGATCAGCTACCAGTCCAGCAGCTACTATGCTTCCCGGCTCTTGGGCAGCAGCTACCGGAAGTCAGTGGCTAAGAACGGCCGCACTGTCTACACGGCTGGTTATTCCAAGCGCCTGCAGATTCCTGAGGAAGGCAAGAGCAATGACCACCAGTATCTGTACCAGAACTACTTGACCAGCCAGGAGCGGACGGTCACCCAGGAGATGCTGGAAAGTGCCGCCTATGTCAAGCAGCTGGGCCTGGCTGAACAGGACCTGCGCTTTTTTGAAAGCAGCGGCAAGACGGTGTCCTACATCAACTATATTGAAGGCTATCCGATTTTTGCCAACGACGCTTTGGCTCAGACCCAGGTAACCATGGGGACGGAGTCGGTCAGCGTGGCTTTCAGCAGCATGAACCTGCAGATCCCGATCCCGTATGACGGCCGTGTCAAGACCTTGCCGAAAACCGCGACTCTGCTGAAGGAGCTGAATAGCATCGGCATCAAGGAAAGCGAAATTGAAAAAATCACCATAGGCTACCATATCCAGGCCGACAAGAAGCGCAGCGACTTGATTACCCTGGTGCCGACCTACTTCATCAAGGTTGGCGGCAGCTGGAACAGCCTGGCCGGCTGGAAGAAGATTAAGGCGGAAAACACGGATCTGTTAATGGAGGGGTCAAGTTCCAGCTCCAGCAGCTACTCGTCTTCCAGCTATTCCAGCAATGAGTCGAGCAGTGAAGCCAACTCAAGCGCAAGTTCCAGCGTCAGCCAGGCGGGCAGCCAGGCACCGGCCAGCAGCCAGGAAGCATATTCCAGCAGCCGCAGCCAGCCGGCGGCTGAATCAAGCTCCAGCTCCAGCAGCTCCAGTTCAAGTTCCGCCGTATCAGCAAGCTCTGCCAGCTCAAAGGAAGGAGAAAAGTAA
>LACTIS1119B1_09130 two-component system sensor histidine kinase
GTGGATGGATTAATGAAGAAAGATAAAAAAGCACGCAAAGAGAAAGTGAAGAAAGAGAAGACCAACCTGCTTAAGCGCGCGGTCAGCTCGATCCAGACCAAGATCGCCCTTATCTTTATGCTCCTTTTGCTGGCCACGATTGAAATCATCGGGGCCTACTTTACCCGGCAGATGGAACAGACCAGCATCAACAACTTTCAAACCACGATTCAGCTGCAGTCGATCGTGACCGACCAGCTGACTGCCCAGCTGGTCAAGAACGACAAGAGTGCTGACCGGAAGATGAACCAGATTATCACTGACTACAGCAATGACGCGATTTCTGAAATCCAGGTCGTGGACAGCAAGAACGTGATCCGGGCCGTGTCCAACTTAAACGACAAGAACCGGGTGGGACAATTGTCTAACAACGGCGATATCCGGGAAGTGATCAACTCCGGCCAGCAGAAGACCCAGGTTACCAGTGACCAGAAGGGCAGTTTCATGGTTCAGATCGTGCCTCTGACCAGCGGAACCAACATCGTCGGGGCGGTTTACGTCCGGGCCAGCATGGCTGACGTCTTCAATAACTTGCGAAATATTTCGATGATGTTCTTGACGGCCTCACTTTTGGCCGTAGTCGTGGCGGCGATTGCCTCCATGTTTATTTCCCGGGCAATAACCCGGCCGATTGAAGAGCTCCGCCAGCAGGCCATCCAGGTGGCTAACGGGGACTACTCAACCCAGGTTAAGATCTACTCTAATGACGAACTGGGCCAGCTGGGGGCGGCCTTTAACACCCTCTCAGTCAAGATCGAGCGGTCCAATGAGCAGTCAGAATCTGAGCGCCGCCGGCTGGACAGCGTCCTGTCCCACATGACTGATGGGGTGATCGCGACCGACCGGCACGGGAATGTTTCGATCATGAACCAGATGGCCCAGGACTTCCTGGACGTCAAGGCCGAAGACGCGATCAAGAAGCCGATTTCTCAAGTTTTAGGCCTGGGGGAGGACTACACTTCCCAGGACTTGATCTCCAACCAAAGCGACATGCAGGTCACGGTCAATGCCGGCACGGATGATGAAATGATCCTGCATGCCAGCTTTACCTTGATCAAGCGGGTCACGGGCTTTGTTTCCGGGGCCGTCTGTGTTTTGCACGACGTGACTGAGCAGATCAAGAACGAAGACGAGCAGCGGCAGTTCGTTTCCAATGTTTCCCATGAATTGCGGACTCCTTTGACCAGTGTCCGGGCTTATATTGAAGCCTTGAATGAAGGGGCCTGGAAGGATCCGGAGATTGCCCCCCAGTTTTTGGATGTGACGCAAAAGGAAACTGAGCGGATGATCCGGATGGTCAACGACCTCCTGGTTCTGTCCAGAATGGACCGGGGAGCCACCAAGCTGGAACCGGAGTGGGTTAACTTTACTGACTTTGTCTCCCACCTGCTCAACCGCTTCGACATGATTGTCGAACATGACCAGGGCGAGGCCCAGAGCGATACCAAGGAATACGTGATCAAGCGGGACCTGGGCAACCAGGCCCTTTGGGTGGAAATCGACACTGACCAGATGATGCGGGTGATCGACAACATCATGAACAACGCTATCAAGTACTCCCCTGACGGGGGGACCATCACGGTCCGCCTGACCCAGAACCAGAACCAGATCCTGCTCAGCATCAGCGACCAGGGCCTGGGGATTCCAAGGAAGGACCTGGGTAAGATCTTTGACCGCTTCTACCGGGCAGACAAGGCCCGGTCCCGGGCCCAAGGTGGGACCGGTTTGGGCCTGGCCATCGCCAAGGAAATCGTGACGGCCCATGGCGGCCGGATCTGGGCAGACAGCCGGGAAGGGCACGGGTCAACCTTCTATATTGCCCTGCCTTACGAACCAATGGATGAGGAGGATGAATGGGATGAAGTTTAA
>LACTIS1119B1_09140 two-component system response regulator
ATGCCTAAAAAAATTCTCGTCGTTGACGACGAAAAGCCGATTTCCGATATCATCAAGTTCAACTTGACCAAAGAGGGTTTTGATGTAGAGACCGCTTATGACGGCGAGGAAGCTGTCGAGAAGGTTGAAGAATACAACCCTGACTTAATGATTTTAGACTTAATGCTTCCGAAGAAAGACGGGCTGGAAGTAGCCCGGGAGGTCCGCCAGACCCATGACATGCCGATCATCATGGTTACTGCCAAGGGCGGTGAGATCGACAAGGTCCTCGGCCTGGAAATGGGGGCGGATGACTACGTAACCAAGCCTTTCTCCAACCGTGAGCTGGTGGCCCGGGTCAAGGCCAATTTGCGCAGCCGGGACATCGTCAAGAAGGCAGTGGAAGTTAACCAGCAGAAGGAAAAAGAACAGGAAAGCAATGACATCCAGATCGGCAACCTGCTGATTAAGCCGGATGCCTACCTGGTTGAAAAGAACGGGGAAAAGATCGAACTGACCCACCGGGAATTCGAACTGCTCTACTACATGGCCCAGCACATGGACCAGGTTATGACCAGAGAGCACCTCTTGCAGACGGTTTGGGGCTACGACTACTTTGGCGACGTCCGGACGGTTGACGTTACGGTTCACCGCTTGCGGGAAAAGATCGAGGACAACCCGGTCCGGCCGAAGATTTTGGTTACCCGGCGGGGAGTCGGCTACTTTGTCAAGCAGCAAACAGAAAAATAA
>LACTIS1119B1_09150 1-acyl-sn-glycerol-3-phosphate acyltransferase
ATGAGTAAAAAGATTTACTACTACCACAGCGAAAGCGAGGACCTGGTCAGTTCCGCCCAGCAGGACTTCCAGCTCCCAGATGACTACCAGGTCTTCCGGAAAGGGGCGGCTTGGCAATTCTGGAACGTCCTGGTCCGCAGCCTGGCCTGCGCCTTTGCCTGGCTCTACTCCCGCCTCTTCTTACTAGTTAAAGTCAAAGGCAAGGAAAAGCTGCGCCCTTTTAAAAAGCAGGGCTATTTTGTCTATGGCAACCACACCCAGATGCTGGGTGACCCCTTCACCCCCATGACCATCGTCAACCCCTACCACTACTATGCCCTGGCCGCCCAGGCCAATTGGGGGATTCCTTTTTTAGGCAAGTACGTGATTCCGGCAGCTGGCCTGCCGGTTGGGAAAAACATCAAGCAGTCCATCCGCCTGCTCAAGGACGTTAAATACGCCTATGAAGAAAAGCAGGCGGCCATCGTCATCTACCCGGAAGCCCATCTTTGGCCCTACTACACCAAGATCCGCCCTTTCCCGGCGACCAGCTTCAACTTCCCGGTCAGCCTGAAGGCCCCGGCTTTTGCCATGACGACCACCTACCAGCCCTGCCGCTGGCGCAAGCGGCCGAAAATCACGGTCTACATCGATGGCCCCTTTTACCCGGACGAGAAGCTGGGCAAGAAGGCGGCTCAGGAAAAGCTGCACGTTGAAATCGCCAAAAGCATGCAGGAGCGGGCAAAACTGAGCACTTGCGAGTATTGCTCGTATGTTAAAATTGACAGTAAGAACTAG
>LACTIS1119B1_09160 lipopolysaccharide biosynthesis glycosyltransferase
ATGAACTTTCTTTTTTGTGGTGACCACAACGCTGAAAGAGGCGTGCTGATTGCCGTCTTATCCCTGCTCAAAGCCGAACGCGGCGAAGAGGTTCACGTCTACATCCTGACCATGAGGGCCAAGAGCAAATCCAGGTCCTTCAAGCCCTTCAGCCAGCACGCGGCCGACTTCATCCGCTCGCTCATCGTGGCTGACAACCCCAACAGCAGCCTGGAGCTGATCGACTGCACCGAAAACTTCATCAAGGAACCGCCGACGGCCAACATGGGCACCCGCTTCACCCCCTACGCCATGCTCCGGCTTTTTGCCGACGAACTGCCGCAAATTCCCGACCGCATCCTCTACCTGGACGATGACGTGATCATCCGTCGGCCGGTTGACCAGTTTTACACCCAGGACTTGACCGGGACGGAACTGGTCGGGGTCCTGGACTACTTTGGCCGCTTCTTCTTCCACAATCAAAAGAAGATTTTTGACTACTTGAATTCCGGGGTCCTCCTTTTGAACATGCCGGAAATCAAGCGGACTGGCCTCTTTAAACGGGTCCGCCACTTGATGCAGGTTAAGAAGATGTTCCTGCCTGACCAGACGGCCATCAATAAATTAGCCAAAGAAAAGCGGATTGCCCCGCGTAAGTACAATGAGCAATACGCCCTCCAGGACGATACGGTCATCCAGCACTTCACCACCAGCTTCCGCTTCTTCCCTTATTTCCGCACCCAGACGGTCAAGCCTTGGGACGTGAAACGGGTCCACAGCGTGCTCAACCTGCACGAATACGATGACTTGTTAAACGAATATCTCAAGTTAAAAGATCAACTATAG
>LACTIS1119B1_09170 phospho-beta-glycosidase
ATGATTATTGGTGACCACCGCCTGGACGTCATCCACAATATCGAGCTAGCCGCAAACAACCGCGACTTTACGGCGAAAACCGAAATCGGCGACCCGCAAATGTCTATGGAAGAGCGGGTTAAGCTGGTTGAGGACTTCTGGGCCAAGCAGGATAAGTTCAAGACTAAGGCAGAAGGCCTAGCCGGCAACCTGATCTTGCAGGCTTTGACGCAGAAATTTTTTGGCAAGATTCAGGTAACAGGCTTAGACAAGCTGCAGCACCTGGCTAAGGGCGGGGCCATCGTGACCGCCAACCACTTCAACCAGGTCGATGCCTTAGCCGTCAACCGCCTAGCCCAAAAGGCCCACCACCGGATGGAGATCGTAATTGAAGACACCAACTTGAAGCTGCCGGGCTTCTTCAGCTTCATCATGAACAATATGGGGTCCATTCCCCTGGTGCAAAGTCCCAACTACATTGGGCGAGAATTCATCCACCACTTGAGCCACGCCTTCAACAAGAGCCACTGGGTCTTGATTTTCCCAGAGCAAGAGATGTGGTGGAACTATCGCAAGCCAAGAAAGCCGCAGCGCGGAGCCTACTACTTCGCGGCTAAGTGCAACGTGCCGATTATTTCAACTTTTGTGGAGATTCAAGACCTGCCAGACGTTGAAAAAGACAACGAGCACTTTTACCAAACGCGCTATACCTTGCACGTTTTGGGGGTGCTGTATCCAGACCCAACCAAGTCGGTGAACTTTAACGCGACGGACTTGATGGAAAAAGACTATGCCTTGAAGGTGCAGGCTTTTGAAGACTACTACCATAAAAAGTTGGACTACGACTTCACTCCATGGGATATCGCTGGCTGGCGCGGTGAAGATGATTAA
>LACTIS1119B1_09180 hypothetical protein
TTGTTAACTATCTTAAGGCGAATCCATGTAAAGAACCGAAAGCTAGAGCAATTCGTTGCTATAGTAGAGCAAGTTCTTGCCGACTACGTTGCTCTTTACCGCCGGATTGGCTTTTCTAATCAGGAAAAGCAGAACATCGTGAATTCGATTGCGGCTATTTTGAAGGAAAAGGGTTTCAAGCTCTCTAGTGAAGATGTGGCGCAAATCGAGAAAATTGTTGACAGTAAATTGCTAGATAAAGTCGAATAG
>LACTIS1119B1_09190 hypothetical protein
ATGGACGAAAGAGTAAAAGATGTACAGGTTTGGCTTAATCAAACCTATGGCAAGGTATCTGGTTTTAAAAAGGCACCAGAAAATGGCTTAACTGGTTGGTCAACAATTTATAGCTTAAGAGAAGGCTTGCAACACGAATTGGGGATTACTGCTCTTGCAGAAGGCTTTGGCGATAGCACTAAAAAAGCTTTAAGTGCGAAAATTGGCGACTTAAAGCGTGGCTATCATGGCAATATCATCAAGTTGGTTAAGGGTGCATTTTGGTGCAAAGGGATCAGTCCTAATAACTTTACGGATAGCTTTGACAGTGATTTAACTACCGCTATTAAGAGCTTGCAAGGCGATGCGGGGATTACTGCCAATGGTCAGCTTACTGTTAATTTAATGGCTGCATTGTTTGATATGAGTGCTTTTGTTTTAATCCCTGGTCAAGGCAAGTCAAAAGTTCGACAAATGCAGCAGTATCTTAATGGTAAGTATGGCGATGAGTTGGGGATTTTACCCTGTGATGGCATCTATCAAAGAGCAACCAATACAGCTTTGATCTTTGCCTTGCAAAAGGCAATTGGCGTAGCAGGTGCTAATGGCAATTATGGTCCAGGTACTGTAGCAACAACGCCAACGGTTAGTGAAGGTGCTAGCGGTGAAGTGGTTCGGGTGATCCAATACGGTTTGCTAGTTAATGGTTTTTATGATGGTGATTGCGATGGCAAGTATGACGCCGATGTGGCTAGTGCCGTAATTGCTTTCCGTAAGTTTATGAATCTACCGCCATTTACTGGCAAGTCTGATCTTTCTGTTATCAAAGGACTGTTAACTAGTAACGGTAATACTGATCGTGATTCAATTGCCTTGGATACCTCAGCACAGCTTACTGATAAGGATATTGCCAACTTTAAGAGATATGGTTTTAGCGTCGTTGGTCGATACCTAACAGGATCGGTTGGTACTGGTGCAAGCAAGAGGAGCAAATACTTAACGTCTGATGAGCTGGAGCGGATTACTGATGCCGGATTGCGAGTCTTTCCAATCTATGAAGACGGTGGGTATGAAATCGAATACTTTAGTAGAAACCGTGGCTATCAAGACGGGATTACTGCTGCAAAGAAAGCAGCTGAGCTAGGCTTTCCAAGTAAAACAACAATTTACTTTGCAGTGGACGTTGATATTCAGGATGGTGACATTGAAGGTACAGTCGTTCCTTACATGAGAGGGATCATCGATGCCTTGAAGCTCAGTCCATATGAACCAGGTATTTATGGCACTAGAAATGTCTGCCTCCACGGCGAAGAAGTTGGGATGAAATACAGCTTCGTGGCGGATATGTCCTATGGTTGGAGTGGGAATCTTGGCTTTAGAATGCCAACAAATTGGGCTTTTGACCAGTTTACTGAATATCCAATTGGCAGCACGGATATTGACCAAGTAGCAGCTTCTGGCAAAGATGCCGGTGTTAATAAGTTTGTTCCACAGTTATACGGTACTATTTCTTATAGGGAAGTAGCAGCTGATGTACTAAAGGGTCTTGGTAAGTCGGTATCCGTTGAGTTTAACAAGAAGATTGAATTAGTAAATATCCCATCACTAAAAATTTCAGTGGAATTGGTTAATTCGCTGTCAGTAGCTGATGAAACTCCTGCAATTACTATTTCAAATGGTAAGTTAGACTCAATTAGTTTTGCAAGTTGGCTTCAAACCTCGGGACACATTAAAGGAAACGGTGTGGATACACTTGTTAACGAAGCGAATAAGGTGATCTCAAGTGCAGGCATTACCAATGGTAACGTGGCGATAGAAGCTTCGATTAACAACTCTGGTGAAAGCAAGCTTAAATTTATCTACCATATTTTAGAAGCTAAGGATAAGCAATTGGATAATGAACTGTCTGTAGTTATCACTGTCACTTCAAAGCCAACAGATCTATTTACTGGCACGAAAATTCCAAACGTTGATGTTCCGAAGCTCGTAACCCAAAGTCAAACTGATCAGAAATCATGGGAGACCTTAATTGGCTTTTCAACGGTTGTTGCAATAGCTGGAGTATCTATTTTTATTAGTGGAGGGACTCTTTCAGTCTTATTAGATCTTATTCCACAATTGTTTACCGGGTTGTTAGTAGGTTAG
>LACTIS1119B1_09200 hypothetical protein
ATGAAGGAGATTGATATCCGGGATCCAAGATCTAAGGGAAGAATAAAAACGAAAATTTGCAACTACATCAAAACTGATGATGGAACTGAGCTATTAGAGTTTAAATACCAAAGAATCAGAAGGACTATCTTAGTTGATGACTTCTTAAATGAAGTCATGCAAGCACGTAAAAATAGTTACACTACCGAGCAATAG
>LACTIS1119B1_09210 peptidase S24-like protein
ATGAAGATTGGGACTAAAATTAAGCAGCAAAGAAAAAAGAAGGGCTTGACCCAAAAAGAGTTGGCGTCAATTCTAGGTCTTGGCGGGGTAACCACGGTAGCATCTTGGGAACAAGGATTAAGCAACCCACCAGCTAAAAGAATTCCAGCAATTGCTGATGCACTAGATATTTCAGTTTCAGAGCTACTAGGTAATGATGATGCAAAACCCAAAAACTTAGTTGATTTAGCAGATGCCAAGGTCATCAGCATCCCTATCCTGGGAACTATCGCCTGCGGTAAGCCAATTTTTTCTGAAGAAAATTACGAAGGGCATTTAAACAAGGTCTATTTTGGCGATCCACCAACTGGAGAACTATTTGCCTTAACATGCCAAGGCGATAGCATGGCGCCATACATCCTTGACGGCGATAAGGTAATCGTCAGAAAGCAAGAAACGGTAGAGAATGGTGAAATTGCAGCTGTTTTAATTAACAATGAAGCTACGCTAAAAACTGTCAAATATGTTGGCGATAAAACCCTTTTAATCCCTAAAAATGATGCCTACGACCCTTTAGTGCTGACGCCAGATAATCAAAATCAAGTACTAGGTAAAGTTGTCAGCATCATTCGGGATATTTGA
>LACTIS1119B1_09220 hypothetical protein
TTGTATAATCAGGACTTTGAAGGGTGTACCCTAATCTTAAAAAATGCATATCCGATTATTCAGAAACTACATAGATATGATTATCTGGCTATTTTTTGTGTTAGAGTAGGAATTTGCCATAGTAACAAAAAGCTAATTGATAAAGGGGTTAATATTTTGCAGCTAGTTGGTGAAAAAGACTTACTTAAAAAGTTAGATGATGAAGTTGATCAATTTTTTGAAGAATTATAG
>LACTIS1119B1_09230 ATPase
ATGCTAGTACCAAGACCAACTTACTTACAAAAACTAGAAAAATTAGCTAATAAGCAGATTATTAAAGTTCTAACCGGGGTTAGACGCTGCGGCAAATCTAGCCTGTTGCAGCTGTTTCAGCAACAGCTTTTAGCTGATGGCGTTCAACCAGAGCAGATTCAAGCAATCAACTTTGAGGACCTAGCTTTTTCCAAGCTGACTGACTACCAGGAACTCTATCGCTACCTAAGTCAACGCTTGCTGCCTGATCAGATGAACTATATCTTTTTGGATGAAATCCAAAATGTTCCTAATTTTGAAAAAGCAGTTGATAGTCTTTTTATTAAAAGCAATGTTGACTTGTACATTACCGGTTCTAACGCCTTTATGCTGTCAGGTGAATTAGCGACGCTGCTTTCTGGACGTTATATCGAAATTCCGGTATATCCCTTATCTTTTAAGGAATTTGCCCAAGCTAAGCCTGATCAATCTTTGCAAGAGAGCTACCAGCAGTACCTGCTCAGGGGCGGCTTTCCTTTTGCCTTGCAGCTGCCAGATGATGAAAGTTTCCGCGACTACATTGATGGCGTGGTAAACACGGTTTTAGTCAAGGACGTGCTTGCCAGAAAAGATAAAAGCGATTCAACTTTGGTTAGACGATTAGCAGCTTTTTTAACAGAGACAGCAGGTAGCTTGACTAGCCCTAAGAAAATTGCGGATACCTTGACCTCAATGGGAGAGAAGACGACGCCGAACACGGTGGCCTCTTACCTGGAGCTCTTAGAAAATGCCTTTCTTTTTTACCGCTGCGACCGTTTTGATATCGGCGGAAAAAAGTATCTGAGCATCAATCCCAAATATTATCCAGTTGATATTAGCTTGCGCCGGGCCCTAGTGGGGCAGAAGCGGCCCAACAAGGGGAGCCGGCTGGAAACGATTGTGTATCAGGAGCTTCGCCGGCGGGGATATGAGATTTATGTTGGCGTGATGCAGCAGACTGAGGTGGACTTTGTGGTGGTGAAGGATGGAAGATGGGAGTACTACCAGGTATCGCTGTCTTTGGACGATGAACAGACCTACCAACGGGAAGTTAGAAGTCTGCGGCTGATCGATGACAACTATCCCAAGATCATCTTGACTGAAGATCCGGGGCATTTTGACGACCAGGGGATCAGCCAGGTGAACATTATTGATTGGTTGATGGGGGAAGGAATATGA
>LACTIS1119B1_09240 alpha/beta hydrolase
ATGGAAAAAGATATCACGATCATGCGTGACGGTTTAAAGCTAGCAGCGAAGGTTTCAATTCCGGAAAGTAAAGAATACGACATTGCGATCCTGGCTTACGGCTTTGTGGGGATGATGGACCCTAAGGTTAACGACTTATTGCCAGTTTTAGCAGAAAAATTGCAGGAAAAAGGTCTGGCAACCGTTCGCTTTGACTTTAACGGCCATGGCTTAAGCGAAGGACCACTGGACAACATGTCCATTTATAATGAACTGGAAGACTACCATGCAGTAATGGATTACGTTTCGAATCGGGACGGCGTGAAGCACATCAACTTGATTGGCCACTCCCAAGGCGGTGTCTTATCTTCAATGATGGCTGGCTTTTACGCTGACAAGGTCGACAAGCTGGTCATCATGTCCCCAGCTGCCACCTTGGTTGATGATGCCCGCATCGGGACTTGCATGGGGATTGACTACGATCCTAACCATGTTCCAGCTAAGCTTGATTTCAAAAAATTTAAGCTGAACGACTGGTACTTTAGAACGGCTAAGTTTATCAACACCTTTGAAGTTGCTCGTGCCTTCCACGGTCCAGTTTTGGCTTTGCATGGCAGTGAAGACAAGATTGTTAACCCATATGCGGTTAAGCACTATCAAGCAATCTTGGACAACTGCGAAATGCACCTAATCGAAGGCAGTGACCACGGTTTGCACCAAAACCGCGAGGAAGTTTATACCAGAGTGGTTGACTTTTTGACTTTGTCTCAATTAATTTAA
>LACTIS1119B1_09250 hypothetical protein
GTGGCCTACAGCTTGGTTGAAGGCATTATCCCTTCAGTTGTTTTGAACACGCTCAACACCTTTATTTGTACAGGTGCCAGCATCTTCTACAACGAAGCCATTCCTAAGGCTGCCAGAATGACAGCTTACCTGAATGGCTGCAAAGAAGCTTGGATTCCTTGCTTCATTGTTTCCTACATTGCCTCCTTTGCGGCAGTAGCTTTAGGCAAAAAGGTTGCGCAAAAGTACGTTAAGTAG
>LACTIS1119B1_09260 hypothetical protein
ATGTTCTACAAAAGCCACTTTGGCACCATTTTGACTTCTGTATTGTCCATGTTCATGGGCCTGGTGATGGCAATCTTCATCATCTTCTTGAACCACCTGCCATTCAACTGGGTCAACCTGTTTGAATTGACCGCGGAAATCAACCTGATCGTCTTCTTCTTCAGCCTGTTCATCCCTTACAATGCTTGGGGTGATTGGTTTGCCGGCCCGGCCTCTTCCACCTGA
>LACTIS1119B1_09270 fumarate reductase flavoprotein subunit
ATGTCAATGAAATCAGGTACTTATAGGGTTAAGGCCAAGGGCCACGGTTCATCATTCATGCCGATGGAAGTCACCATTGAAAACGACAAGGTGGAGGACATCACGGTTGACTCAGCGGGTGAAACCATCGGGATTGCTGATGAAGTCTTCAAGCGCCTGCCAAAGGCTATCATCGACGGGCAAACCTTGAACGTCGACGCCGTTTCCGGGGCTTCAATCTCCTCACAAGGGGTGATCGACGGGGTTGCTGAAGCGATCAATGAAGCCGGCGGGGATGCTGAAGAATGGAAGAAGCGGGAAAAGCCGGCTTCCTCAGCCGCCAAGGATGAAGAATACGACACTGACGTGGTTGTCATCGGTGCCGGCGGGGCTGGTTTAGCCGCTGCTACCCGGTCTCTGCAGCATGATAAGAAAGTTGTTATTCTGGAAAAGTTCCCGCAACTGGGCGGCAACACTGCCCGGGCCGGCGGTCCAATGAATGCGGCTGAACCAGACTGGCAAAAGGGCTTCAAGGCCCTGCCAGGTGAAAAGGAAACCTTGCAGGAACTGGCTGAAACGCCAACCAGCGAAATCGATCCGGAATACGTGGTAGACTTCGAAAAGCTGCGTGACCAGATCAAGGCCTACCTTGACTCAGGTGAAGACTACCTCTTTGACTCAGTTCTGCTGCACGAAATTCAAACCTACCTCGGCGGCAAGCGGGTGGACCTCAAGGGCAACGAAATCCACGGCAAGTACGAACTGGTAACGACCTTGGTCAACAATGTCCTGGACTCAGTCAACTGGCTGACCGACTTGGGTGTGAAGTTTGACCGCAGCGACGTAACCATGCCAGTTGGTGCTTTATGGCGCAGAGGCCACAAGCCGGTTGAACCAATGGGCTTTGCCTTCATTCACGTTTTGGGCGACTGGGTTAAGCAGCATGGGGCAACCGTTTTGACTGAAACCCGGGCCAAGCACTTGATCGTTGAAGGTGGCAAGGTGACCGGTGTGATCGCGGAAAAGACTGACGGCTCAAAGGTAACTGTCCACGCTAAGAGCGTTATTTTGACGGCCGGCGGTTTCGGGGCCAACACCAAGATGGTGCAAAAGTACAACACTTACTGGACTGAAATCGCTGACGACATCGCTACGACCAACTCACCAGCTATTACCGGTGACGGGATTGCCTTGGGCCAGGAAGCCGGCGCTGCTTTGACGGGGATGGGCTTCATCCAACTCATGCCAGTTTCTGACCCGCTAACCGGGGAACTTTTCACCGGCTTGCAAACTCCGCCTGAAAACTTCATCATGGTCAACCAAAAGGGTGAACGTTTCGTCAACGAATTTGCTGAACGTGACACTCTGGCAAAGGCAGCGATCGACAATGGCGGCCTCTTCTACCTGATCGCCGACGACAAGATCAAGGAAACTGCCTACAACACCACGCAAGAATCAATTGATGCCCAAGTGGAAGCCGGCACCTTGTTCAGAGCTGACACTTTGGAAGAACTGGCTGAAAAGGTGGGCATGGACCCGGCAGTTTTGACCGACACCATCAAGAAGTACAACTCTTACGTTGACGCCGGCCACGACCCGGAATTCGGCAAGAGCGCCTTCCACTTGAAGTGTGAAGTAGCACCATTCTACGCAACTCCGCGTAAGCCAGCCATCCACCACACCATGGGTGGTCTGGTTATCGACACTAAGGGCCACGTTTTGGACGAAGCAGGCCACGTGATCGCCGGCCTGTACTCAGCTGGTGAAAACGCGGGCGGCCTGCACGCCGGCAACCGTTTGGGCGGGAACTCCTTGGCTGACATCTTCACCTTCGGCCGGATCGCCGCTGACACGGCTGATGAGGAAAACCCAGCTAGCGACGCGGTCAGCGGGGCATCTCACCACTAA
>LACTIS1119B1_09280 LysR family transcriptional regulator
ATGAACGATCCCGACATCATGCTCAACTACCTGGAAACCCTGCTCAAGGAAAGCAACTTCACCCGGGCCGCCGAACACCTCTACATCTCCCAGCCCTACTTGACCCAGCTGATCAAGCGGGTGGAGAAAAAACTGGGGACCACCATCATCAACCGGGACAAGGTTCCCTTTACCCTGACTGAATCCGGCCAGATCTACTACCAGTATTTGGAAAACATTTCCGCCCAGCGCCACCAGCTGGCCAACGCCCTGGAGCGCTTCAGCAACCAACAGGAAGAAGTCATCCGGATCGCCATTCTGGAAAGCCTGGGCACCTTCCTCTTACCTAAGATCCTGCCTGCCTTTTTGACAAAACACCCCCAGGTCAAGATCCAGATCGCTGAAGGCTTTCCCCACACCAGCGAAGACCGGCTGCTGGGCGGGGATGTCGACTGCTATATGGGGCAGACGCCGGAAACCGTCGCGCAAGGAATTGATACTTATATCAACGGCGGGGAGGTCTACTATATCGTGATTCCGGAAAATTCCAAGTTCTATCTCAAAGACCACTTTATCCTGGATCCGGCTGATTATGATCCCAAGGAGCTGCTCCAGCAGCCTTTTGTCTTAAGCAACGGGGAATCCGCCATCCGCCACCAGGTCAACGGTTTATTTCATTACTTCCGCGTGCAGCCAAATATCCGGATGACCTCCAACAGCGTTATCACGGCCACCAACCTTGCCGTCAACGGGGTCGGCTTCACGATCTCCTCAGCCAGTATCTTGAAGCGGCTGGAGCACCTGCCAATCAATCTCTACCCCCTTGACCCCCGCCAGATCAAGCTTACCTACTTCATCGGGGTCCGGCGCGGGGCTGACCTTTCGCCGGCCTTAAAAGACCTGGTCGAGGCCTTCCAAGCGGCCGAGCTGCAGGAAAAGATCAGATAA
>LACTIS1119B1_09290 shikimate 5-dehydrogenase
ATGACTGACGAAAGAAACAATGATATTTTGCCGGTAAAAATTAGCGGGATTACCGGACCGGTGACAGGCTGGCTGGATGGGCACACCATTTTGCTGGGTCTGTTCGCGAATCCAATCAGACACTCAGTTTCACCAACTATGCACAACAATGCTATGGCTAAGCTAGGCTTGAATGGGGCCTACCTCTGCTTTGAGATCGGGCCGGACCGGATTGAAGACGCGGTCAAGGCCCTGCGGACTTTGGACATGCGGGGGGCCAATGTGTCCATGCCAAACAAGCAGGCAATCATCCCTTACCTGGACAAGCTGGACCCGGCAGCAGAAATCTGCGGGGCGGTCAACACGGTGGTCAATGACCATGGCTTTTTGACGGGCTATATCACTGACGGGACCGGCTGGCTGCGGTCTTTGCAAGAAGACGGCCAGGACGTGAAGGGGCAGGTTGTGACTTTAGCTGGTGCCGGCGGGGCGGCGATTCCGATTGCTGTAGCCGCGGCTATGGGCGGGGCCAAGGAGATCAGAATTTTTAACATCCATGACCGCAACTGGGAACCAGCCAAGGACAAGGTGGCCGCGATCAATGAAGCGACTGGCTGCGCCTGCAGCTTGAACCCGATGGAAGATAAGGAAGCTTTCAAGCAGGCGATTGCTGAATCCGGGATTTACTGCGACGCGACCGGGGTAGGGATGCCGCCGCTGGATGACCTGTCACTGGTGGAAGACCCATCCTGGCTGCATGAGGACATGGTGGTCAGCGATACGGTTTATGAACCGCGGGAGACCAAGCTGATGCGGATCGCCAAAGAGGCTGGTGTCAAGCATATCTATAACGGGCTGGGCATGGTGGTCGGCCAGGGGGCAGAGTCCTTCAAGCTCTGGACTGGCAAGGAAATGCCGGTTGACTACATTAAGGAAATCGTCGCTAAGGCGTAA
>LACTIS1119B1_09300 hypothetical protein
GTGCCGATTTCATCATTCGTGGGGATTCTCGTCTTGCTGGTTGCTGGAGTAGCCATTGGCATAGCTGTCTATGGCTGGGTTAGTCATAAACGGGGCTTAGCAGTTGAAGCCCTGCTTGCTGGGGCAATCTTTCTAGGCTTAGTCTATTGGGTTGGCAGCAATTTTATCGGCTCCATGTGA
>LACTIS1119B1_09310 hypothetical protein
ATGCTAATGGTGATAGTTTTCTTCAGCTTATTCGGTATATCAAAAAATGCTAAAGCAGCTACAGAGGATAGACCTATCAAAGTAATTGCAAAGTATAACTCTAGTGAAGTCTCTGAAAAGACATTAGCTATTTTTAGGGAAATCGCTGCCACTGATAACACAGTGGATTTAATAATTAAAGATAATATTGTGACTATAGAAAGACTATATCCTAATGAAAGTATACGGACTGATGGAACTACAATAACTACACCATTTACCGCATCATTTATCCAATTGCCCGCACAACCAAATGAAAAAATTATAAACTTTAAATCCTGGATAGATGAGATGGATGTTAGAAACGGTCAGACATCTGTTAAATCTGGATCTGTTTTTGTCGTAATGCCAACTAGTGGAGGGGGATATTCTGGTCAGTACGATGGTGAAAAAGTAAAAACTGGAGCACACGTACATTGTAATAGATTTAATGGGACCAAGAGCGATCATCGATATTGGAAGAAGAGCAATCCAAAAGCTTGGATTGATTTCTATCACAGTGATTGTGACTACCACGCAAGCAAATATGGTTGTGCAGATTTTGGTAATATGTCAAAATGTGATGGGCTTGATAAACGAGGAAAAGGTGTGAAGGACTGTTCATCATGGTCAGGAAATCCTAAACATAAGAATTGGCCCAAAACTTGCTGGTATCGCAAATAA
>LACTIS1119B1_09320 hypothetical protein
TTGCGGGACGTAGTTGGCGAACTGCCAATCCTGGTTACTTTCAGAACCAAGAATGAAGGCGGCGTCCTGGAACTTGGTGAAGATGAATACCTGGACCTGGTGGCTACTGTAGTAACCAACAGTTTGGGTGACGCGGTCGACATTGAACTTTTCCACGATGAAGAAAGGGTCAAGGACCTGGTTAAGCAGGCCCACAACTACAACGTAGTCGTGATCATGAGCAACAACGACTTTGAAAAGGTGCCAGCCAAGGATGTCATCGAATTCCGCTTAAAGAAGATGGCTGACTTGGGCGCTGACGTGCCAAAACTTGCCTGCATGCCGCACAGTGCTGACGACGTCTTGACCCTGCTCAGTGCTACTAATGACGCCCGTAAGGCACTCTCAACGCCAATCATCACCATGGCGATGGCCGACCTGGGCAAGGTCAGCCGGATTGCCGGCCAAGTCTTCGGTTCCTGCCTGTCATTCGGTGCTGTTGGTAAGACTTCAGCACCTGGCCAGTTGTCAATCGAGGACTTGAGAAACGCTGAAAATTACTTGGAATTGCACTAA
>LACTIS1119B1_09330 hypothetical protein
ATGGCAGACGAAAGAAACAACGAGATCGAAGAAACGAAGATTCAAGGCGTTAACGGCCCAATCACCGGCTGGCTTGACGGGCACACGATTTTGGTCGGTTTGATGGCTTACCCAATCCGCCACACCATGTCACCAACCATGCACAACAACGCTTTTGCCAAGTTGGGCTTGAACGGGGCTTACCTTTGCTTTGAAATCGACAGCGAAAAGCTTCCAGGCGCTATCGACGCTATCCGGACCCTGGACATGCGGGGTTCAAATGTTTCAATGCCTAACAAGAAGAAGGTCATCCCTTACCTTGACAAGCTGGACAAGACTTCACAAATGTGTGACGCGGTAAACACTATCGTCAACGAACACGGCGTTTTGACCGGCTACACCACTGACGGCATGGGCTGGCTGCGGGCCTTAAAGAAGGACGGCCAAGACTTTGCGGGACGTAGTTGGCGAACTGCCAATCCTGGTTACTTTCAGAACCAAGAATGA
>LACTIS1119B1_09340 LysR family transcriptional regulator
ATGAACATTCGACATTTACGTTTCTTCGTCGAACTGGCGAAAACGGAACACATGGCCAAGACGGCCGAAAAGCTGGGCATCTCCCAGCCTTCCCTCTCCTACGCCATCAGCAGCATTGAGGAAGAGCTCGGCGTGCCCCTGTTTGAAAAAGAGGGCCGGAACATCCGCTTGACCAACTATGGCAAGATCTACCTGGAATACGCCAAGAGCGGCTTGAGCGACCTGGACCGGGGCGGCGAGTACATTGCTGAATTGCTGGACGTCAACCGGGGTCATATCAGGGTTGGCTTCACCTTTACCATGGGCCAGGACCTGATTCCCCAGCTGATCTGCAAGTTCAAGCAGGAAAAAGACACCAAAGACATCACTTTCTCCTTCGTACAGGGAACCACTGACGATTTGGTGAACCAGCTGGTCAATGACGAACTGGATTTGGTCATCTCCTCAGCTCCTGACCTGCCTGGCCTGGAAGACAAGGTCGACATCTCCCATCTGGTTGACCAGGAAATGCTGGCTGTCGTTCCCTTTTCCAATCCTTTAGCCAAAAAGGACTCTGTCTCCCTGGCTGATTTGGCCAAGTACCCGATGATCTACTATAGCAAAAGCAGCGGCCTGCGCCCCCGTCTGGACAAGATGTTCGCTGAAGCCGGCGTCAAGCCGAAAATCATCATGGAGTCCATGGAAGACCATACCATCATCGGCTTCGTTCACTGGGGCTACGGGGTAGCCATCGTGCCCCACCTGCCCCAGCTGGACCCGCGGACGGTCAAGCTCTTGCACATTGATGAAAATGTCGGCGTTCACCCGATTTTTGTCGTGAAAAAGTCCGACCACTTCCTGACCCCGGCCGTAACCAGATTCGAACAATTTATCAAATCCTACTGCCGGAAGCATTACAATAACGAATATAAGTTCGTTTAA
>LACTIS1119B1_09350 hypothetical protein
GTGGTGGAGATTATGCCAAAGATGCTGGCCAGCCAGGGCAATCATCGGCCCGTTGACCAGGAGGCAAAGGAGGGTGCCGATATTGACGGCATAGACTTTAAGCCAGTTGCCAACTTCTACGCTGTCGGCGAACTGGTTGGTGGGGCCAACGGCAAGGACTCAATGCCGTCAATGATGAACTCCTGGTCCTATGCTTCCGGTTTCGTGGCTGGTAGGGCAGCTGCTGACAATGCCAACAACTACGCCGTTGACGTTGTTACCAGCGCCAGCCATGCTCCGGCTCCTAAGCCAGAAGCAACTTCCGGTGCCAGTCGCTAA
>LACTIS1119B1_09360 major facilitator superfamily transporter
ATGGATAATACCAGCTCAATGTCCACTAACCAAAAGTGGGTTTTGGCCTCTATGTCTTCCGGCTTCCTGCTGGAAAACATGGACGTCATGTTCCTGTCTTTCTCCCTGTCGGAAATCATCGCGCAGATGCACATCAGCTCCGCGGCCGGCGGCTGGATCGGAACCTTTACCAACCTCGGAATGTTCTTCGGTGGCGCGCTCTTTGGGCTGCTAGGAGATCGTATCGGCCGGGTCAAGACTTTCAGCTATACGATCTTTCTTTTTGCCATCGCGACTGGCTTAACCTACTTTGCCCACAACATCACCGCCCTTTACGCTCTCCGCTTCTTAGCCGGGATCGGGGCCGGCGGTGAATACGGGGTCGGAATTGCCTTGATCGCGGAAAACTTCCAGGCTAATCAAATCGGCCGGGCCAGCTCGGTGGCGGCCGTGGGTGGCCAAATCGGCTCTATCGTGGCCGCTCTTCTGGCCGCCTGGATCATTCCGGCTTACGGCTGGAACACCCTCTTCCTCTTTGGGGTAGTGCCGGTTGTCTTGACCTACTTTGTCCGCCGCCACGTCAAAGAAAGCGACGAATTTTTGGCCGCTCACAAGAAGGCGGAAGAAACGAGTGAAAAGATCTCCTTCGGCCGCTTGTTTGAGACGCCCCGCCTGGCTTTGCAGACCCTGGGCTTGATGCTGATGACGATCGTGCAGATTGCCGGCTACTTTGGCTTGATGAACTGGCTGCCGTCAATCGTGCAGAAGAAGCAGGGCCTGTCAGTTTCCGGCTCTTCTTACTGGATGATCGCTACTATCATCGGGATGAGCCTTGGGATGATGGTCTTCGGGACGATCATGGACAAGATCGGTCCCCGCTGGGCCTTCGGCATCTTCCTTTTGGGCAGCGCGGTCGTGGTCTTTGCCATCGTCAACGTGACCAGCTACTGGGCCATGCTTTTGACCGGAGCCTTGACCGGCTTCTTCTCCAACGGGATGTTTGGCGGCTACGGGGCGGTAATCAGCCAGCTCTACCCGACTGAAATCCGGTCCACGGCTAACAACTTGATCATGAACACCGGCCGGGCCATCGGGGGCTTCTCTTCCGTCATCATCGGCGCCTTGATGGTCCACTACAACCTGTACGTGGTTATGGGCTTCTTGTCCGCCCTCTACATCATCAGCTTCCTGGTCATGATCAGCCTGCCAGGCCTTAGGGAAATCCAGGCCAAGAAGCGGGCAGCTTAA
>LACTIS1119B1_09370 L-lactate dehydrogenase
ATGAGCAGAAAAGTCCTGCTGGTTGGCGACGGTGCTGTCGGTTCCAACTTTGCCAACGATTTATTGCAAACAACGCGGGTGGATGAACTGGTCATCTGCGACTTGAATAAAGACCGGGCCGCGGGCGACTGCCTGGACCTGGAAGACCTGACCTACTTTACGGGCCAGACCAAGCTGAGAGCTGGTGACTACAGCGACGCGGCTGACGCCGACGTGGTAGTTATCACGGCCGGCGTGCCCCGCAAGCCAGGTGAAAGCCGGCTTGACTTGATCAAGAAGAATGAAGCCATATTGCGGAGCATCGTTGACCCAGTCGTAGCTTCCGGCTTCAGCGGCGTCTTCGTCGTTTCCGCCAACCCGGTTGACATCTTGACCACTTTGACCCAGAAGCTGTCCGGCTTCCCAAAGAAGCGGGTCATCGGGACCGGGACTTCCCTGGACTCAGCTCGTTTGCGGGTAGAACTGGCCAAGCGGCTGCAAGTGCCAATTGAATCAGTCAACGCCTGGGTTCTGGGTGAACATGGCGACAGCAGCTTTGAGAACTTCTCAAGTGCCGTGGTCAACGGCAAGCCCTTGCTTGACTATCCGGGCATGACTAAAGAAGCCTTGGATGAGATTGAAGCCCACGTCCGGGAAAAGGGCGGCGAGATCATCGGCAAAAAGGGCGCAACCTACTATGGCGTGGCCATGATGCTGGCCAAGATCGTGGCGGCCATTTTGGAAAACAACGACCTGGCCCTGCCTCTTTCCGCGCCATTGCACGGCGAATACGGGATCAAGGATGAGATCTATCTGGGCACCCTGGCCATCATCAACGGGCAAGGAATCAGCCACGTGCTGGAATTGCCGTTAAATGACAGCGAATTGGCCAAGATGCAGGCCTCAGCCGCGACGATGAAGGCAACCCTGGACTCTTTAGAATAA
>LACTIS1119B1_09380 glucokinase
TTGAAGAAATATGCATTTGGTGTTGACATCGGTGGTACCACTGTAAAGATTGGTTTGTTTGAAACCAACGGTGAATTGTCCCAAAAGTGGGAAATCCCAACCAGAAAAGAAGGCAACGGGGCTAAGATCCTGCCTGACATCGCAGCTTCTCTGAACGACAAGCTGAAGGAACTGGACATTCCTAAGGAAGAAGTAGCCGGGATCGGCATCGACGTGCCAGGTCCAATCCTGGACGACGAAATCGTCAACCGCTGCGTCAACCTGGGCTGGGGCGTCTTCAACGTGGCTGAAAAGGCCCGCAAGCTGACTGGCCTGGACGAAGTCAAGGTAGCCAATGACGCCAACGCTGCTGCTTTGGGTGAAATGTGGCAAGGTGGTGGTGAAAGCCACCAAAACGTTGTCATGGTTACCCTGGGTACCGGTGTCGGCGGCGGGATCATCTCTGAAGGCAAGATCGTCGCTGGTGCCTTTGGGGCCGCCGGGGAAATCGGCCACATGCTGGTCAACAAGGATGAAACCCAGCTCTGCGGCTGCGGCAAGAAGGGCCACCTGGAACAATACGCTTCCGCTACTGGCATTGCCCGCAAGGCCAAGGAACTTCTGGCCGAAAGCAGCGAAGAATCAAGTCTGCGCGGGGTAGACCAGCTTGACGCCAAGGCCGTCTTTGACGCGGCTAAGGAAGGCGACAAGCTGGCTTTGGAAATCGTCGACTTTGTCGGCGAAACTTTGGGCACTGCCCTGGCTTCCATCTCCTGCGTCTTTGACCCAGAAGTCTACGTTATCGGCGGCGGGGTCTCCAAGGCTGGCCAAATCTTGCTCGACACTGTGCAAAAGCACTTCGTTGACGCGGCCTTCCACGCTTCTGAAGGTACTGAATTCGCCCTGGCCCAACTGGGCAACGATGCCGGTATGTACGGCGCCGTTAAGATGGTTCTGTAA
>LACTIS1119B1_09390 5-methyltetrahydropteroyltriglutamate--homocystei ne methyltransferase
ATGTCATTTCCACGTTACGATATTGTCGGCAGTTTCTTGCGTCCAGCAGCATTAAAGGAAGCCCGGGAAAAATTTGCCCGCGGCGAAATCAGCCAGGCTGAGCTTACGGCCGTAGAAGATCAGGAAATCAAGGACCTGGTGCAAAAAGAAGTCGCTGCCGGCTTAAAGGTAGTTTCTGATGGGGAATTCCGCCGCAGCTATTGGCACTTGGACACTTTTTGGGGCTTTGGCGGGGTAGAACATGTACGGGCTGAGCATGGCTACTTCTTCCATGATGAAGAAACCCGGCCAGACGCGGCCAAGTTGGTTGGCAAATTGACTTATGAAGCCGGCCACCCGGACGTGGCAGCTTTCGACTTCCTCAAGCCTTTGGCGGATGCAGCTGGCGTTGAAGCCCGGCAGAGTATCCCAGCCCCAGCCCCAGCTCAGCTCTACTGTGAACTGATCTGCCGCAACGATGAATTGATCGCGGCTACTGATGCCGTTTACCCTGACCGGGCAGAACTGGCCAAGGACGTTTCCAAGGTCTACCGGGAATTGATCTTGGACTTGTACAAGCACGGTGCCCGCGACATCAAGCTGGACGACTGTACTTGGGGCGTCTTGGTCAACGACAGTTTCTGGCATGCTTTTGACGAAGGCCACCTCAAGCGCGAAGAAATCCTGCAGCTTTACAAGGAAATCAATGAAAATGCCTTGGTTAACCTGCCAGAAGACTTGCGGATCACGACCCACATCTGCCGGGGCAACTATGACTCAACTTGGGCTTCAGAAGGCGGCTACGGCCCAGCTGCTCCTTACGTCTTCAAGGAAAAAAGGATGGAGGCCTTCTACCTGGAATTTGACGATGACCGGTCAGGCGACTTCGCTCCTTTAGCTGAAGTGCCAGCTGACAAGGTAGTTGTTTTGGGCCTGGTAACCAGCAAGAAGCCGGAATTGGAAGACTCGGAAGCTTTGAAGGCCCGGATCAAGGAAGCCGGCCAGTACCACCCATTGGCTACCACGGCTCTCAGCACCCAGTGCGGCTTTGCCTCAACTGAAGAAGGCAACCACTTGACTGATGAAGAACAATGGGCCAAGATCAAGCTGGTCATCGACACGGCTAAGGAAGTTTGGCCAGACGCTGAATAA
>LACTIS1119B1_09400 LysR family transcriptional regulator
ATGCGCATCCAGCAACTGCTCTATCTGCAAAAAGTCGTCGCCCTCGGCAACATGACCGAGGCAGCCAAAGAACTTTTCATCGCCCAGCCCACCCTGTCCAGCGCCATCAAGCAGCTGGAAAAAGAAATGGGGATCACCATCCTGATCCGGGGCAAAAAAGGGGTTAGCTTAACCGAAGATGGCCGGGAGTTCATGCAATACGCCCAGCAGATCCTGGACCAGGTCCAGTTGCTTGAGCGCCGCTATGGCGACCAGTCCAGCGCGCCGAAGATTTTTTCCGTGGCGGCCCAGCACTATGCTTTCGCCGTTGACGCCTTTGTCCAGCTGCTAAAAGAAATCGGCCAGAGCGACTACCAAGCCAGCCTCAAAGAGATGCGGACCTATGAAGTCATCGAAGACGTGGCCAACCTCCACAGCGAGATCGGCATTGTCTACCTCAGCCGCTACAACCGCCAGGTCATGGAAAACAGCTTCCAGGAAAAGGAACTCAGCTTTATGCCCCTCTTTAAGGCCCACCCCCACGTCTTTTTATACAGAAACCATCCCCTAGCCGGCAAAAAATCTATCTCCTTAGCAGACCTCTTGCCCTACCCCAAGCTCAGCTACGACCAGGGCCAGCACAATTCCTTCTATTACTGGGAAGAAACCCTGGCTGACCAGCATTCCCCAAAATCCATTATTGTCAGTGACCGGGCTACCCTGTTTAACCTGGCAATCGGCTTAAACGGCTATACCATCTCTTCAGGGATCATCAACGCTGACTTAAACGGGGACGACATCATCGCCCGGCCTTTGATCAGCGACGAATACATTGAAATCGGCTACCTGACCAACCGCCTGCACCAGCTTTCTTCCATTGGGCAAAAGTACCTGGGCTACTTAAGGGAAAGCATTGAAAAGAATGCCTAG
>LACTIS1119B1_09410 hypothetical protein
ATGGGTTGGATACTTTTATTATTGGTCATCATCATCTGTGTCGGTACTTACATCAACTCCCGCAATGAAAAGAAGAAGCAATCCCAGCTGTGGGCACAGCGTCAAAAGGACAGCAATGTTCCGCCAATGCCGATCACCATTCTGGAGACCGTTGATGGCGCAAGCAAGCTGGTTGTCAAGAACGACTCAAGCGTCTACTTTACCCAATATGAAAAGGGCAAGGCTCCTTGGCCAGGTGGCGTTGAAAACTTCAGCGTATACTACGACAAGGATACTAAGCACTTGTTGATCTTGTCATTGGTACAAGAAAACGACAACATCGACTTTGGTGAAGTTGACCCTGAAGCAACCGAAAAGTTCCTGGCTGTCTTCCAAAGCGTTGGCGGTCACCTGGCTCAGCACTACGAATTGCTGACCTTGAACAAGGTTGACTCCAGCGACCTCAACCTGGCAGTCAAGTCCTTCCCGGCCAAGGTTTACTTCTACACTGAAAAGTCAGTAACTGACGGCAAGAAGCGCCTGTACTTCTCACCAGACCCGACTTCAACTGCCTACAAGCTTTTGGGCGTGGCAGTCAGCGATGGCAGCAATGGTGAAAAGAGCGTCGAACTTAGCCTGGAAACCTTCAAGGGCGTTAAGTATTCAATCTACACCACCCTGTCAGAAGCCGGCGTGAAGGACCTGCAGGAAAACTTCGCTTAA
>LACTIS1119B1_09420 S-ribosylhomocysteinase
ATGGCTAAAGTAGAAAGTTTTGAATTGGACCACACTAAAGTTAAGGCACCTTACGTCCGCCTAATCACCGTTGAAGAAGGCCCTAAGGGCGACAAGATCTCCAACTTCGACCTCCGCCTGGTGCAGCCTAACGAAAACGCCATCCCAACTGGCGGCCTGCACACCATTGAACACCTCCTGGCCAGCCTCCTGCGCGACCGCTTAGACGGCGTCATCGACTGCTCCCCATTCGGCTGCCGGACCGGTTTCCACTTGATTACCTGGGGTGAACACAGCACCACTGAAGTAGCCAAGGCCCTGCGCGACTCCCTCAAGGCCATCAGAGACGACATCACTTGGGAAGACGTGCCTGGTACCACCATCGAAAGCTGCGGCAACTACCGCGACCACTCCCTCTTCAGCGCCCAGGAATGGTGCAACGACATCTTGAAGAAGGGCATCAGCGACGACCCATTTGACCGCCACGTGGTTGAAGACTAG
>LACTIS1119B1_09430 hypothetical protein
ATGAGAAGAAAGAAAAAGCAGCAACGGCTCATCGCCGCCGCCATCGCCCTGGCCAACAATGCCGCCAACGAAGCCAGAGGGCTCCTGCTTTTGCAAAGCGCCGGCCTGATCAAGCTGAAGAAGAACTTCGACTCAGCCAGCGGCAACACCAACGACATTGTTTCCAACACGAAGAAGTTCAAGTTCAAGCTGATCGATGACACCACTGGCCCGCGGATCATCAAGTCCGTCGACGCCGTCCTCATCGGCAACACCATCGCCCTGGCCGGCAACTTGAACGTGCTCAAGGACTCTCTTTACCACGAAAAGATCGACCAGAGCACCAAGAACAACAACAATGTCCTGGCCACTGCCAAGAAGAACAAGAACAATGCCGCTTACAAGAAGCTGGGCAAGCTCTACCATAACAAGCAGATCCAGAAGTGGATCGCCAAGAAATACTCCGGCACCAAGGTCGAAGTCAACAAGCCGGTCTCCTACCTGACCGATTAA
>LACTIS1119B1_09440 peptide deformylase
ATGACAGTGCAAAAAATCATCCACGATCCCCTCAGTTTAAGCCAGCCGGCAGCTAAAGCGGCGGCCAGTGACCGGCAAGCGGCCCAGGACCTACTGGACACCCTGCTGGCCCACCGGGAAAGCATTGACGGCCTGCCGCCTGCCGCTGGCCTGGCCGCCAACATGATTGGGGTAAACAAGGCGATTATCGCGGTCAACGCCGGCTTTTTACCTATAGTTATGCTCAACCCCAAGATCGTTAAAGGATCCGGTCACTACCTGGCAGAAGAAGGCTGCCTGTCTTTGCCTGGAGAGCGGCCGGCTGACCGCTATGAAGAGATTACGGTCAAATACCAGGATATGGACTTAAAAGAGCATGAGCAGGCCTTTACGGGCTTTGTGGCGGAAACTATCCAGCATGAGGTCGATCACTGCAAGGGTAAATTAATCTAA
>LACTIS1119B1_09450 FAD/FMN-containing dehydrogenase
ATGGGATTGAATTTTTCAGCCTACAACACAGACGAAATAATTGATTTTTTGCAGGAACAAGTAAAAGATGGGATCGTCAAAACTGATAAAGACAGCTTACAAACCGCATCCTATAGCCAAAACCTGCCTGGCCAGCACGGCCTGGCTCTAGCCCTGGTCGAAGCAGGCTCAATCGCTGACGTCCAGGGAGTCATGCGGGCTGCCCGCCGCTTCCACCTGCCAGTTGTTTCCCAGAACCGCTTCACCAGCACCGTTGTTGGCGCTGATGCTGTTGACCACGCCATCATTCTTTCAACCGCCAAGATGAACAAGATTCTGGAATTGAACGCTGAGGATGCCTATGCCGTCGTTCAGCCAGGCGTCATCAACAATGACCTTGACCAAGCCGCGAGAAAGCAAGGGCTCTTCTACGCTCCAGATCCAGCTTCAAAGAAAATGTCAGGCATCGGCGGCAACGTCGCGACCAACGCCGGCGGCTTGAGTGGCGTTCGCTACGGATCAACCCGCGACAACGTCCTGGGCTTGAAGGTCGTCCTAGCTGATGGTCGCCTCCTTGACCTGGGCGGCAAAACCAGCAAGCAAGCCTTTGGCTACAACTTAACTCAATTGTTTGTCGGCTCAGAAGGGACGCTGGGTACGATCGTGGAAATTACGGTCAAGTTGCTGCCGCTGCCTTTGGGCGAATCCTTGATGGGCTTGGCCTACTTCAAGGATATGCACACTTTGGCTGAAGCCACCAAAGATCTGCGGATGTCAGGGATCTACCCTGCCATGTTAGAAGCCATGGATTCCCACACCCTGCAGGCAGTCAGCGAATTCCGTGATAACAAGGAGATGGCCGGCCGCGGCGCAGCTTTAATTTTCCGCGTCGACTCCATTTCTGATGAAGGCAAACAGATCGTCAAGAACATTATGGACAAGTATCATGTGACCGACGTCCAGCTGGCTACTGACCCAGCTGAGCAAGACAAGATTATCAGCGTCCGCCAGGACATGTTACCAGCCATCTTCACTGGTCGCAGCACAGTTATGGAAGACATGGCCGTGCCAACTTCACGCATGGCTGAGTTGGTTGACACGATCCAGGCTTTGAGCGACAAGTACCCGGAACTGGAAATCTTCACCGCCGGACATGCTGGCAACGGCAACCTGCACCCAACCGTTACCTGGTCCAAGGATGCCAAGGAAATGCCTGAAAGTGTCAATATCGTCTTGCACGAAATGTTTACCAAGGCCTTAGAACTGGGTGGAACCATCTCTGGCGAACATGCCGTAGGGATGTTGAAGAACCAGTGGAACAATGTTGAATTGGGTGAAGACGTTGACTGGATCCAACACCAGATCAAGAGCTTGTTTGACCCAATGAACCTGCTCAATCCAAAGCGCAAGATCGATTAA
>LACTIS1119B1_09460 D-lactate dehydrogenase
ATGACTAAAATTTTTGCTTACGCAATTCGTGAAGATGAAAAGCCATTCTTGAAGGAATGGGAAGACGCTCACAAGGACGTCGAAGTTGAATACACTGACAAGCTTTTGACCCCAGAAACTGCTGCTTTGGCAAAGGGTGCTGACGGTGTTGTTGTTTACCAACAACTTGACTACACCGCTGAAACTCTGCAAGCTTTGGCAGACAACGGCATCACTAAGATGAGCCTGCGTAACGTTGGTGTTGACAACATCGACATGGCTAAGGCTAAGGAACTTGGCTTCCAAATCACCAACGTTCCAGTTTACTCACCAAACGCCATCGCAGAACATGCTGCTATCCAAGCTGCCCGCATCCTGCGTCAAGACAAGGCTATGGACGAAAAGGTTGCCCGTCACGACTTGCGTTGGGCACCAACTATCGGCCGTGAAGTTCGCGACCAAGTTGTTGGTGTTGTAGGTACTGGCCACATCGGTCAAGTCTTCATGCAAATCATGGAAGGCTTCGGCGCTAAGGTTATCGCTTACGACATCTTCCGCAACCCAGAATTGGAAAAGAAGGGCTACTACGTAGACTCACTTGACGACCTGTACAAGCAAGCTGACGTTATTTCCCTGCACGTTCCTGACGTTCCAGCTAACGTTCACATGATCAACGACAAGTCAATCGCTAAAATGAAGCAAGACGTAGTTATCGTTAACGTATCACGTGGTCCATTGGTTGACACTGACGCGGTTATCCGTGGTTTGGACTCAGGCAAGGTCTTCGGTTACGCAATGGACGTTTACGAAGGTGAAGTTGGCGTCTTCAACGAAGACTGGGAAGGCAAGGAATTCCCAGACGCACGTTTAGCTGACTTGATCGCTCGTCCAAACGTTCTGGTAACTCCACACACTGCTTTCTACACTACTCACGCTGTTCGCAACATGGTAATTAAGGCCTTCGACAACAACCTTGAATTGGTTGAAGGCAAGGAAGCTGAAACTCCAGTTAAGGTTGGCTAA
>LACTIS1119B1_09470 cobalamin adenosyltransferase CobO
ATGCTTAAAGTCTACACTAAAGTCGGTGACCAGGGGAAAACCAAGCAGGTGACCGGCAAGATGGTCGCCAAATACGACCCGCAGATCCAGACACTGGGAGCTCTCGATGAGCTGCAGTCCTGGCTGGGGGTTACGGTGGCCAACCTTTCTCCGGCCTGCCAGGGCCTGGAAGAAAAGCTGATCAAGCTGGAGCGGGAAATGTATGAATTGCAGGCTGACCTGGTGGTCAAGCGGCACCATACGATTACCTTGGCTGAAGTGACTTACATGGAAGAGCAAATCGATGCCTGGACGGAAGAATTGCCGGAAATGAAGGAATTCATCCTGCCGGGCGGGTCAAAGACCAGCGCCAACCTCCAGTATGCTCGGGCGCTGGCCCGGACCAGCGAGCGGGTCTGCGTGCTGTACGCGGACGAAAGCGGGGAGGTCAAGAGCGACAGCATCAAGTACCTGAACCGCCTGTCAGACTATCTGTTCGTCATGGCCCGCTACGCCAACCTTTTGGAGGGCGTGACTGATGTCAAGAGCAAGCCCGCCCGGCCGCGGCGGCGTCCGAAAAAATAA
>LACTIS1119B1_09480 membrane protein
ATGCAGACCAAGGAACGCTACCAGTTGCAAAGGCTGACCCTGCTGGCCTTGCTGACTGCGATGTGCGTGGTTTTGCGGATCTTTAAAATCATCGATATCCCCAATGTCCAGCCGGTGACCGACATTATCATGCTGACGACGCTGGAACTGGGGGCAGGGACGGGGATTCTCCTGGCCATTTTGGTCATGGTGATCTCTAATATCTTCCTGGGGTTTGGCATTTGGACCTTGCCGCAGATCTTTGCCTACGCGGCCTGCGCTTTGACCGTGGCGTTATTTGCCAGGCTTTTGCCGCTGAAAAGCCGGAAATTCTTCTGGCTGCAGGAGCTCCTGGCCGGCTTTCTGGGCCTGGAATACGGCTTCTTCGTCAGCCTGGGCATGGCTGGCTGGGGCGGCTGGGCAGCCTTCATTGCCTACTGGGTCAGTGGCCTGACCTTTGACTTGTATCATGCTGCCGGCAACCTGGCCTTTTATCCTATCCTTTATCTGCCATTGGTTTTGGGCCTGGACCGGTTTAAAAAGAAAGTAGGGTGGAAGCAAAATGCTTAA
>LACTIS1119B1_09490 hypothetical protein
ATGAAAAAGAAGATTTTAGCAGTCGTAGTTGCCTTGGCAGCCTTCGTGGGCCTTTTTGCCAGCCAGCCAGTCCAAAAGCAAAGTATTCAAGCAGCCAAAACCACTAAAACGGCTAAGAAGACTACTAAGAAGGCCAAGGCTAAGCAAATCAGCGTGACCTACACTTTGAAGGACACGACTAAGGCCAAGAACAAGCAAACCCTGGCAAAGAAGACCTTCAAGGTCAAGAAGGGGACGACTGTCTTCACTGTTTTGAAGAAGGCCTGGAAAGTCAACTACACTAAGTCTTCATATGGTGTCTTCATTACCAAGATCAAAGGCCTGGGCAATGAAAAGAAGAAGCTCTACTGGACTTACACCGTTGACGGCAAGATGGCCAAGGTGGCAGCTGACAAGCAAAAGCTGACTAAGAACAAGTCCAAGGTTGTCTTCACTTTGAAGAAATACTAA
>LACTIS1119B1_09500 ribonucleoside-triphosphate reductase
ATGAGTGAAGAAATATCTCTCTCGGCGGAATTTATCGACCGGGTGAAAGCGAGTGTAAAACCTCACTGGGGCAAGCTGGGCTGGGTCACCTACAAGCGTACCTACGCCCGCTGGCTGCCGGAAAAGGGACGGAGTGAAAACTGGGATGAAACCGTCAAGCGGGTGGTTGAAGGCAACATCAACCTGGATCCCCGCCTTCAAGACTCCCCAAGTCTGAAACTGAAGCAGAGCTTGACTGAAGAAGCAGAGCGGCTCTACAAGCTGATCTACGGCCTGGGCGCGACGCCATCTGGCCGGAACTTGTGGATTTCCGGGACTGACTACCAGAGACGGACCGGGGATTCCTTGAACAACTGCTGGTTTGTGGCCATCCGTCCGCAAAAGTATGGGGACAGCAAGATCGTGCCCAGCTACCTTGGCAAGCAGGAAAAGGCCGTTTCCATGCCTTTCTCCTTCCTCTTTGACGAACTGATGAAGGGGGGCGGGGTTGGCTTCTCAGTTGCCAGATCCAACATCAGCCAGATTCCCCGGGTCGACTTTGCCATCGACCTGCAGCTGGTGGTCGATGAGACCAGTGAATCCTACGACGCTTCCGTCAAGGTCGGGGCCGTCGGTAAGAATGAATTAGTTCAAGATGCTGACAGCATCTACTACCGCCTGCCGGATACCCGGGAGGGCTGGGTTTTGGCCAATGCCCTATTGATTGACCTCCACTTTGCCCAGACCAACCCAGACCGTAAGCAAAAGCTGATCCTGGACTTGTCCGACATCCGTCCTTACGGGGCAGAAATCCATGGCTTCGGCGGCACGGCTTCCGGCCCAATGCCCTTGATCTCCATGCTGCTGGACGTTAACGAAGTCTTGAATAATAAGGCTGGCGGCCGCCTTACGGCTGTTGATGCCGCCGACATCTGCAACTTGATCGGCAAGGCAGTCGTGGCCGGCAATGTCCGCCGGTCAGCGGAACTGGCCCTGGGCTCAAACGATGACCAGGACTTCATTTCTATGAAGCAGGACCAAGAGAAGCTGATGCACCACCGCTGGGCATCCAACAACAGCGTGGCAGTTGATTCAGCCTTCAGCGGCTACCAGCCGATCGCTGCCGGGATCCGGGAAAACGGGGAGCCAGGGATCGTGAACCTGGACCTGTCCAAGAACTATGGCCGGATTGTTGATGGCTACCAGGCTGGAATTGACGGGGACGTGGAAGGGACCAACCCTTGCGGGGAGATCTCCCTGGCCAACGGGGAACCTTGCAACCTCTTTGAAGTCTTCCCGCTGATCGCGGAAGAACAGGGCTGGGATTTGCAGGAAGTTTTTGCCTTAGCGGCCCGCTACGCCAAGCGGGTAACCTTCAGTCCTTATGACTGGGAAATTTCCCGGGAAATAATTCAAAAGAACCGCCGGATCGGGATCTCCATGTCCGGGATCCAGGACTGGCTTTTGACCAGACTGGGCAACCGGGTGGTTACCGGCTTCAAGGATGACTTTGACCCGGAAACCCATGAAGCTATCAAGGTGCCAGTCTACGACAAGCGGGCCATTAAGATGGTTGACCAGCTTTACAAGGCCGTGGTCAAGGCTGACCAGGCCTACAGTAAGACTTTGGGCTGCAATGAATCAATCAAGCACACCACGGTCAAGCCATCAGGCACGGTGGCCAAGTTGGCCGGTGCCAGTGAAGGCATGCACTTCCACTACGGGGCTTACTTGATCCAGCGGATCCGTTTCCAGGATTCTGACCCGCTTTTGCCAGCCTTGAAGGCCTGCGGCTACCGGACGGAAGCCGACATCTACACGGAAAACACGACCTGCGTGGAATTCCCGATCAAGGCAGTAGGGGCGGACAACCCTAACTTTGCCTCAGCTGGGACGGTTTCAATCGCGGAACAGTTTGCCACCCAGGCCTTCTTGCAGACTTATTGGTCGGACAACGCGGTTTCCTGCACGATTACTTTCCAGGATTCCGAAGGTGACCAGGTTGAATCCTTGCTCCGCCAGTACCGCTTTATCACCAAGTCAACCTCGCTTCTGCCATACTTTGGAGGTTCCCTGCAGCAAGCGCCAAAGGAACCGATCGATAAGGAGACTTACGAAAAGCGCAGCCAGGAAATTACCGGCAACGTGGAAGAAGTCTTCAGCCAGCTGAACAGCGACGTCAAGGACCTGGAACTGGTCGACCAGACCGACTGTGAAGGCGGCGCCTGCCCAATTAAGTAA
>LACTIS1119B1_09510 2,5-diketo-D-gluconic acid reductase
ATGACTTTGCACGGTTTGGAAGATACTTACGAATTAGCCAATGGGGTCAAGATCCCGGTAATCGGTTTCGGGACCTGGCAGACGCCAGACGGTGACGTAGCCCAAGAAGCAGTTGAGACAGCCTTGAATGCCGGCTACCGGCACATCGACACGGCCGCAGCTTATGGCAATGAAGCCAGCGTGGGCCGGGCCATCAAGCGCAGCGGTGTCAAGCGGAGCGACTTGTTCGTGACCAGCAAGCTTTGGAACGGGTCCCACAGCTATGAAGGGGCCAAGGCGGCTATTGACGACAGCCTGCTCAAGCTGGACACGGACTACCTGGACCTGTACTTGATTCACTGGCCAAATCCAGTTGCCATCCGGGACCACTGGGCAGAAGGCAACGCGGAAGCCTGGCGGGCCATGGAAGAAGCCGTTCAAGCTGGCAAGATCCGGGCAATCGGGGTCTCCAACTTCCGCCGCCACCACCTGGAAGCCCTCTTAAAAACGGCAAAAATCAAGCCTGTGGTCAACCAGATCTGCCTCAACCCAAATGACTTGCAAGCGGAAGTAACGGCCGCTAACAAGGAATACGGCCTTTTGAGCGAGGCTTACAGTCCTTTGGGCACGGGCGGTCTTTTGGGCAATGAGACCATCAAGGCAGTTGGGGCCAAGTACGGCAAGTCCAGCGCCCAGGTTTTGATCCGCTGGTCCCTGCAGCATAACTTTTTACCACTACCGAAGTCAGTTCACCCGGACTACATCAAGGCCAACGCTGAGGTCTTTGACTTTGCGCTTACTGCAGATGACATGGCCAAGCTGGATGGCCTGCAAGGGATCGGCCAGCCAGTCCTGGATCCGGACCAAGCCGAATTTTAA
>LACTIS1119B1_09520 L-2-hydroxyisocaproate dehydrogenase
ATGAGAAAAGTAGCAGTGATCGGCATGGGACACGTTGGGGCCACGGCGGCCTTTATTCTTTTTACCCACGGGGTAGCGGACGAATTGGTCTTGCTGGACAAGAATGAGACCAAGTGCCGGGCTGAATGGGGCGACTTGCGCGACACCCTGGGCAGAAACGACTTCTACGTCAACGTCAAGTGGGGCGACTGGAAAGAGCTGGCGGACGCTGACTTGATCATCACCGCTTTTGGTGACGTGGCGGCCTCAATCACGACAGGAGACCGGTTCGCGGAATTCCCGATCAACACCAAGAACGCGGTTGAAGTTGGCCAGAAGATCAAGGACAGCGGCTTCAAGGGCGTCATCATCAACATCTCCAACCCTTGTGACGTGGTAACCTCCATCTTGCAAAAGGTTACAGGCCTGCCAAAGAGCCAGGTCTTTGGGACCGGGACCTTCCTGGACACTTCCAGAATGCAGCGGGTTGTCGGGGAAAAGCTGGGCCAGGACCCGAGAAACGTGTCCGGCTTCAACCTGGGCGAGCACGGGTCCAGCCAGTTTACGGCCTGGTCAACTGTTTGGGTCAACAACCGGCCAGCCAAGGACCTCTTCAATGAAGCAGAGAAAGAAGAAATGGACCGCTTGAGCAAGGACAATGCCTTCATGGTCGGCAAGGGCAAGGGCTACACCTGCTACGCTGTTGCTACCTGCGCGGTCCGTTTGGCCAGAGCCGTCTTCTCTGACGCCAAGTTCTACGGCCCGACCAGCTGCTACGTTGAATCTCTGGGGACCTACATCGGCTACCCGTCAATCGTTGGCAAGCATGGGGTAGAAGAAGTGCCAGTTCTGGACTTGCCAGCTGACGAACAAGCCAAGCTGGAAGCTTCCGCTAAGAAGCTGAAGGACAGCCTGGCCAGCTTGGAATAA
>LACTIS1119B1_09530 hypothetical protein
ATGAAGAGATTGGAAAAAGGGGTCATCGGCTTGATCCTGGTCATTTTTGCCGGCACGGTGATTATGGCCGTCTCGAGCGGTGGCCAGAAAGCAGAAAGCAGTTCAGACGCCTTCGATACTTCAGAGTACCGGAAGGCAGTCAAGTCAACCGACAACCACCACTTCAAGAACATGAAGGTGGAATTGTCCGGCAAGAAGAGCAAGATTACTGGCATCCTGCCCAAGACGCCGACTTCTGTCAGCCTGCTCAAGCAGTGGGAGAGCAAGAAGGTTGACCTGGATTTTACGGCCAGCAAGAAGGACAGCGTGCTGATCAGCAAGCAGACGGTTAAGCTGCCAACCCCTAAGGGGCAGGAATTGACTCATGCCACGGTTGGTGAAATCGGCTATGACCCGGACAGCGACAAGGTCTTGATTTTTGCCAGTGACAAGAACTACAGCCGGGGGTTCTATCCTTTAGGTAATTTGAAGCGGAACGAACCGAGCCCGGCTAGTTTGAGTGCCGACCAGGATCCGCTGGAATTCAGTTTTAAAGATTAA
>LACTIS1119B1_09540 exodeoxyribonuclease III
ATGCGACTGATTTCTTGGAACATTGACTCATTGAACGCGGCCTTGACGGGGACTTCCCCGCGGGCGGAAATGACCCGGGGGGTCTTGAAAAACTTGCATGACCTGGACCCAGATGTCCTGGCCCTGCAGGAAACCAAGCTGCCGGCCAGCGGGCCAAGCAAAAAGCATCAGGCGGCTCTGGCTGATCTTTTTCCGGAATACTATTTCGTTTGGCGGTCCAGCATGGAGCCAGCCCGGAAGGGTTACGCGGGCACGATGTTTTTGTATAAGAAGGGCCTGGATCCGGTAGTGACCCGGCCGGAAATCGGGGCCCCGGAGCCGATGGACTTTGAAGGGCGGATTTTGACTCTGGAATTCCCGGACTTTTACGTGACCCAGGTCTACACGCCAAATGCCGGCAACGGTCTGGTCCGCTTGGGTGACCGGCAGGAATGGGACAAGTGCTACCGGGCCTACCTGGAAGAATTGGACAAGAAGAAGCCAGTCCTGGCCAGCGGGGACTTCAACGCCGCCTACCAGGAAATCGACTTGAAGCACCCGGAAAACAACCACCATTCCGCCGGCTTTACGGATGAAGAAAGAGCGGGCTTTGGCCAGCTTTTGGCGGCGGGCTTCACGGATACCTTCCGCCAGATCCACGGCCAGGTGGAGGGCGTCTACTCCTGGTGGGCCCAGCGGGTGCGGACGGCCAAGGCCAATAATTCCGGCTGGAGAATCGACTACTGGCTGGTTTCCAACCGCCTGGCTGACCAGGTGGAGAAGTCGGAAATGATCGAGACTGGAGAAAGAGCGGATCATTGTCCAATTTTATTGGAAATTAAGCTGTGA
>LACTIS1119B1_09550 hypothetical protein
ATGGAAAATTACTTTTTTGATTTCGACGGCACGATCTGCGAATCGCGCCACATCTACGCGACCTGCGCCTGCACTTGGGGCGCCTTTGACCCGGCTAGCCTGAAGAAGGAAAAGGCTGGCTACACGGTCGACTATCCCCTGGAAATTTTGGCGATCTAG
>LACTIS1119B1_09560 HAD family hydrolase
ATGCGCTATCAGCAAATTATCCTGGACGTTGACGACACCTTGCTCGACACTGAAGCAACGGTCCACGACTCCCTGGTTCAGCTCTTCAAATCCCATGGCTGGGAGATCAGTGACGAATTTGAAAAAGAATTCCACGCCTACAACCAGGGGCTCTGGCGGCGGCTGGAAAAGGGTGAGCTGACCTTGAACCAGCTCTACGAGATCATGTTCCCGGATATTATCAAAAAATACTGCGGGGTCGAAGTCGACGGGATGGAGACGGCTGACGAATTCCACAGCTACTTCCACACCGGCCACAAGCTCCTGCCCGGGGTCAAGGACACCCTCCGCTATGCCAAAAGACTGGGCTACAGCCTGGCGGTTTTGAGCAACGGGGAGCAATTTGGCCAGGAGCACCGGCTGGAATTAGCCGGGATAAGACACTACTTTGACCTGGTCGTGACCAGCCAGGAAGCCGGGGTGCAGAAGCCAAACGCGGAAATTTTTGACTACTTTTTCGCCAGAAGCGGCTACAGCCCCAACCAAACTGTCTTCTTCGGCGACGGCCTGTCCTCTGACATCATGGGAGCGGAAAACTACGGCTTTGCCAGCATCTGGTTCAACCACCGCCACAGGCAGAAGACCCTGCCAGTCCACCCCCTCTTTGAGGTGGACAACTATGCCCAGTTCCAGCGGATCTTGAAAAAAGACTTCGCCCCGACCGCTCTGCGTTAG
>LACTIS1119B1_09570 biotin biosynthesis protein BioY
ATGTCCAGAAAAAACACTTTTCAGCTCTGTCTTTTGGCCTTATCCACGGCCTTGATCATTGTCGGCAGCCAGTTGGCGGTCCCCTTGCCGGGCGGAGTCCCTTTTACCCTGCAGACCCTGGTAATCCCCCTAATCGCGGCTGCCTTTGGCTGGCAGCTGGGAACCGGCGCCGTCGCCCTCTACCTACTCTTAGGGGCCGCCGGTCTCCCCGTCTTCAGCGGCGCCAGTGGCGGCATCGCCGTCCTTTTCGGGCCTAACGGAGGCTTTCTCTGGGCTTTCTTGCCCCTGGCCCTGATCACGGGCCTGGCTAAAGGAAAGCGGCTGTATTTGACACTGACGGCCGGGATTGCCCTCTTTTTGCAGCTGCTAATGGGTGCGGCCTGGCTAGCCTGGATCAGTCATTTGCCTTTTACAGCCGCGGCTAACGCTGCTATCTGGCCTTTTTTGCCAACAACCTTAGCCAAACTGGCCCTGGTCATTGCCCTAGCCCCGCGCCTGCGAGAGATTTTTACCACTTACGCCGGCAAGGTCGGCCGCGGCTATTAA
>LACTIS1119B1_09580 hypothetical protein
TTGACGTCTACTGTTCAAGCATCAACTACTGAGGGTAGTCAAACACAACCCAAGTTAAGTTTGTCTGCTCAAAAGAAGCTAGATCCATATGTAACAGTTAAAAATAATCATTATGTTTTGGGCGAAAATGCGAAAAGAGTTGTTTCAGAAGAATACAACGTTGCAAAACAAGTAATTGCTCAAACTAATGTTACTGTTGAAAATTCAGGATCTGTAATTAACAAAGATATAAACCTGAGGGGAAGGCATTTAATTGGTTGGGGTTGTTAA
>LACTIS1119B1_09590 hypothetical protein
ATGAATTCCATTAAAAAAGTTTTAAAGTGGGTATTAGGATTATTAATAATTAATTTTATCGGGTTAATGCTAATTACACTTTATTCAGCTTATTATAGTTTTGGTACTATGATTTTCGGTGTCCATACTGAATCTGCAATTAAAGATTTTTGGAGTACAGAATTTATTACTGCAATTCCATTTGTTATTGGTATAAATTTACTTGCAATTATTACTGCAAGTGTTCGAATCTATAAGAACAAGAAAAAAGAAAACAACTCTTAG
>LACTIS1119B1_09600 hypothetical protein
ATGGACAGATTTAGTAAGTTAGCAGTATCAACTGCTGTAGCAGTGTCATTATTATCAGTAACAGCACCTACTTTTACATCAGCTGTTTATGCATCTGAAACTACACAAAATGAAAGTGATAATCTTTCTAGTACTGAGGTTAATGCTGCAATTGATAATTTAGCTGAGCAGCTAGAAGAAGCGTATAATGCAGCGCCTAATGTCGATGTCGAAGAGATGGCACGAGGAGTTATGGCATATGCTTCAGGAGATGCTCAAGAAACGACATTAAGAAGATTATCAAGAGGTGGAAGGTGCAGTACAAATGCTTTCTCGGCTGATAGATTTGGTAAATGTATGTTAAATAAAATGGGATTAGGAGAGTTAAAGAATTTAGCTAAGGTAATTTTTAAGCCTGCAACTGTAAGATATTTAAAATCTCATGCATGGAAGAAAGCATCAGCACTAATGGTAAAGGCAATTATGAAATATGCACCTAAGAAAGTTGCTAGTTTAGCTGTTAAGAAACTTGCAAATCTTGCATTACCTGGAGTGGGTTGGGCTTCAGTAGCATGGTGGGGGGCTCAATGTGGTTGGGATGAATTCCATTAA
>LACTIS1119B1_09610 hypothetical protein
ATGGAGCATGAAAATGCCAATCGGGTGTTTCTGCTCAACAGGGACGGCAAGCCGCTGATGCCGTGCTGTCCAAGAAAGGCCAGGCTGCTTCTGAAAAGCGGCAAGGCTTTTGTGGTCAAGAAATATCCGTGGCTTTGCTGTGGTCAGTTCACGAAAATGATTAGAATGAGATGCCAAAAAAGTACAGGTTAA
>LACTIS1119B1_09620 hypothetical protein
ATGATTAGTAAAGAAAACAAGTTGTTGATCCGGCGCTATCTTTACGCCATGATCAACATGTACGGTATTATTCCGCTGAGACACGCGTACCATATTTTCAGCCACCAGAACCCATTGCTCAACATTGACGAGGACGACTTCTGGGAATTCACCATGTTGGACCAGAGCGACCAGGACTACAATGTGGCCGGTGAAAGGGAACTGCTGGTGGAAGAGCGGGGCGAAGATGAGGATGAGGATGAGGAATTCTACCTTTACGGCGACTGGGTCTTGATGGACCTGCCACAAGATTTCAAGCGGATCAAAAAGCTCCAGCACAACCGCCTCTATTACGTGCCGGAGAAGGATGAATTTTTGCGCCGGGAAAACGAATGGTATTATGAACGGACCACGGCGACGGAAGAGTACCGCCAGTATCTGAAAGACAGCAATCCAGGCCTCAGCGACGACCGGCTGGAAGAAGCCTTCTTTGAGGCGCTGACCCAGCTGCACTCGGTCAGCTACGGCAAGACGGTGGAAGAGACCATCAACGCCGTGCCCCGGTCCCTGCGCCTGATCGGCTTCACTGTAACGGACGAGCAGGAAGATGAACTGCGGGACTTGCTCAGACGGATGCTGGACGGAACCCGGCAGGAGGCTTTGCGGGGGAAGATGTACAAGTACCACAAGCTGCCGACCACTTTGGAAATCATTGAGACGGAAGGCTTGACGCCAGAAAATGTATCTCGGATCCACAGCGGGAAGATCGACGCCATGGAGCTGGTTCCCCAGATCGAACTTAAGCAGCCTGACCTGGCCCAGCAACTGGCCACGATTTACCAGCAGTAA
>LACTIS1119B1_09630 phosphoglycerate mutase
ATGAAGAAGATCTACGTGGTTCGCCATGGCCGGACCTATTTGAACAAGTACCAGCGCCTGCAGGGCTGGTCTGACGCCCCTTTGACTGAAGAAGGGATCGAGGGTGCCCACCGGATGGGGAAGGCCTTGAAGGACCAGCATTTTGACTTGGTGGCCTCCAGCGACTTGAAGCGGGCCGCTGACACCCGGAAGATCATCGTTTCGGAAAATGACAACTGGGAGTCAACCGAGATGACCCAGACCGCTGACTTGCGGGAGCTATTTTTTGGCTACTACGAGGCCTTTCATGATACGGAAGGAGTAGCGGCGGCCTTCAAGTCCACCAAGTACCCCCGCCTGGTCGACGCGGTCAAGGACGGCTACACTTGGCAGGAAATCGGGGACTTATTCCACGCGGCTGACCCGGAGGGGGATGCTGAAAGCGGGAGCGAGTTTGAAAGCCGCCTGAAGCGGGGGATCGACTACCTGGTCAACCATGATGAGTCAGAGCGGATCCTTTTGGTTGGCCATGCCTGCGTCATCCATTGCCTGGCCTGCATCTACGGTGGCAAGCACCTCAGAACCGACTTGCCTAAGCACAACGAGATGACGGTCTTGAATGTCGATGATAACGGCCAGGTCAGCCTGGAAGAATTTGGCCGGCCGATGTACTGA
>LACTIS1119B1_09640 esterase
ATGCGAATTTTATTACTTGGTGACAGCATCTTTGCCCGCAAGGAAGGGCTGGATCAGCCTAGAATCAACTGGACCCTGAAAGAGAAAAAGCCTGACCTGGAAATCGACAATACGGCGGTGTCTGGCATCAATTCCGGCGCCCTTTTAGCCCTGTTAGGAGACCTGGCCTTAAAGCGGCCCCGGGCTGACCAGCTTTTCTTAATGGTCGGAGTCAATGACGCGGCCAGCCATAAGCAAGTGCCACTAGACCAGTACCGGAAGAACCTCCAGGCTATTGTCTCCGCCCTGGTCTGCTTTTATCCGGGGACCAAAACCGTCCTGGTCTCCGGTCCGGCGGTGGATGAAGCTAAGCAGAGGAGGCGGACCAACGCGAAACTGGCAAAGTATGCTAAAGTAATGGAGGAAGTCGCGGCTGAATACCAGCTTGCCTATGCCGACTTTTTCACGGCCATGCTGAAGGAGAGAGACCTGAAAGCCCTGTGCCGGGGAGAACTTGACGACGGCCTGCATTTTGGCCCGCGCGGTTATCAATTGCTGGCAGCGGAAATGATGAAGCAGCTGCCCAAGGAAGAGGTTGAACAATGA
>LACTIS1119B1_09650 hypothetical protein
ATGCTGTCACCAAGTAATAAAATTCGCATTTGTACCTTTCTATGCCAGGAAAGCATCAAGTCTGCCATCGACAAGGCGAGGGAGGCCCTCCAGTACACCGGTGATGACTTAACTCAACTGTATCACGTTTTTGACGAAAGCGTCCGGGAAAAGTACGTCAATCGCGACTATGTCCTGACTCACTTCCAGGAGGCCCTGGATAAGCGCTGGATCAAGCCTTACTACCAGATGGAGACGAGAAGACGAGAAGTAAAAAATCAGCACCCGGACCGGTGCTGA
>LACTIS1119B1_09660 DegV family protein
ATGCCAATTAAGATAGTAACTGATTCCGGAGCTAACATGACAGCGGGCAACTTGGGGAGCTGCCAGTTGGAAGTAGCGGCCTTGAGCCTGATTCAAGGGGATAAGACTTGGCTGGACGACGCCAGCTTTGACCAGGCGGAATTCAATCAAAGAGCCAAGGACGGGATCGCGGCGTCTTCAGCCTGCCCCAGTATTTCAGCCTGGCTGGACGCTTACGCCGGGGGCAGCGAGATCTATGTCGTGACCATCTCATCGGTCTTGTCCGGCAGCTACAATTCAGCAATGCAGGCGGCAAAGATTTACCAGGAAGAATACCCGGATGCCTTGATTCACGTTTTTGACAGTAAAAGCGCGGGTCCGGCCCAGTTTTTGGCGGCGGAGAAGATCGCGGAACTGAAGGAAAAGGGGATGCAGTTCCCGGACCTGGTGGAAGCAGTGAGCGACTACCTGGAAAACCATGTCCGCATCTTTTTTGCCTTAAAGTCGATGACTAATCTGGCCAACAATGGCCGGGTCAGCCCGGTGGTGGCCAAGATCGCCGGACTTTTGAAAATCTGGGTCTATGGCTGGGCAGAGGAAGGCGAAATCAAGCCCCTGGGCAAGGCCAGAGGGGAGAAGAAGACCCTGGCAGCCCTGCTGAGAACTTTGGAAGAGAAGGGCTACAGGGGCGGCCGGGTCAAGATCGACCACGCTGACAACTTCGACAGCGCGGCTGAGCTCCACGACTTGATCAGGAAAAAGCGTCCAGAGGCCAGGGTTGACCTGGGCACCTGCCGCGCCCTATGCAGCTTCTACGCTGAAGCGGGCGGGCTGATGATTGGAGTAGAAATTTAG
>LACTIS1119B1_09670 hypothetical protein
ATGGAAAAAATTGCCCGTTCCCTGGCCGGCCTGCACCTGCCCCGTTACCAGGAACTGCCCCAGATGGGCCTGTACCTGGAGCAGACCGCGACTTATATCAATGAGGCCCTGGCCCCCTTGGAAAACGTCCACCTGACCAGTTCCATGGTCAGCAACTATGTCAAGCATGACCTGATCGCCTCACCTAAAAAGAAGCTCTACAGCCGCCAGCAGATCGCTGAGCTGGCCTTTATCGCCGTGTCCAAAAACGTCCTCTCCCTGGCTGACCTGTGCGAGGCCCTGAAGCTGCAACGGTCCAGCTACGACACTGAGACAGCCTACAACTACATGGTTGATGAACTGGAAAACGTTCTGGCCTACGTCTTCGGCTTTAAAGGCGAGCTGACCGACGTCGGCCACGAGCATGGCGAATACAAAACCATGCTCCGCAACGTCATCATGACCGTCAGCTACAAGGTCTACCTGGACAAGTACTTTGCCCAGTTTACCGGCCAAGAAGAAGAGTAA
>LACTIS1119B1_09680 glutathione reductase
TTGAAGAATCCATATGATTTTGATGTCTTGTACTTAGGTAGTGGGCATGGCGCGTTTGACGGGGCCGGCCCATTGGCAGCTTCGGGAAAAAAAGTTGCGGTGGTTGAAGGTGACATGATCGGCGGCACCTGCCCGAATTATGGGTGTAACGCGAAAATCACGCTTGATACGCCGGTGGTTTTGCAGCGGTTGGCAGAACGGATGCAGGGTGTTGTGTCTGGCAATATCAAGATCAACTGGTCGGCATTAGTGGCCCATAAACAAGCCGTGATTAAGCCGTTACCGAATGCTATCGGTACGGGATTAACCCAAAACGGCGTGACGATCATCCATGGCTATGGAAAATTTCAGGACGCGCACACGGTTGTTGTGGGTGAAAAGACTTATACCGCTGACAAAATTGTCATTGCGACCGGCCAGCGCCCGCATCGCATCGATGTTCCGGGGACCGATTTAGCCCATGACAGTCGGGCCTTCATGGACTTGGACGTCTTGCCGAAGCGAATCGGTATTTTGGGATCTGGCTATATCAGTATGGAATTTGCGACGATTGCCAATGCGGCAGGCGCCGATGTCCATGTGTTGATGCATCATGATCGTGCTTTGCGGGAATTCCACCAGCCGTTTGTCGAAGATGTGATGGCCGACATGACGAAACGGGGCATTCAATTCACGCCGAACGCGGCGGTGACGGCGCTTGAGAAGACCACTGATGGCATTGTGATTCATTATGGTGACAAGGAACAGTTAGTTGTCGATTGGGTGCTGGACGCAACCGGCCGAATCCCGAATGTTGAGCAACTGGGATTAGAAAACATCGGTGTCAAGTTTAACCAGCACGGGATTCTTGTGGACGACTATCTGCGAACCAATGTGGCCAATATTTATGCATCGGGCGATGTTTTAGACAAGCTACAACCCAAATTGACGCCAACAGCCACGTTTGAGTCCTATTACCTTTACAAGTTACTGAGCGGCCAAACAACTGCGCCGATTGATTATCCAGCGATTCCGTCAACGGTTTACACCTCGCCAAGAATTGCCAAAGTAGGTGTGGCACCGGAAGCGGTCAAGGATGATACTAACAAAGTCGTGCACAACCACATTCCGGATGACTGGTATCATCAAACCGATCAGGAAACGGTGGGTGATAGCCTTTTGGTGTTCGATCAGGAACATCATCTTGTCGGCGCCACGGAGTACAGTGCTCAGGCCGAAGATGCGATCAACACGTTATTGCCGGCGATTGTCTACCATCTGAGTCGCGATCAGATGTGGCAAATGGCGCACATTTTCCCGGCTGAGGGTGCAGCGGCATGGCATAAGATTCGGTAA
>LACTIS1119B1_09690 hypothetical protein
ATGGTTAAGAGTGATTTGCCAGAAAAAGAATTAAGGGCAATCGATGCGGCGCTTGACCGAGACAATGCAACGCTTGACCGCCTTGTTACTGACCCGGACGAAAACGCTAGAATCTGGGTAGCAAAGGCCGCTAGACCGCAAGACCTTGACCGATTAGTTACTGACCCATCCCCGCTAGTAAGGGCGGCTGTGGCACGGTATGGACGACCGATTGACCGCCAAAAGCTACAAGTTGATCCATCCCCACTAGTGAGGGCACAGGCACGGCGGAACTAA
>LACTIS1119B1_09700 hypothetical protein
ATGGCTAACAAGATTAAGGTAGATGCTCAGGACGTAATGCAAAAGACCGCACAGGCGGCCGAAATGGCCGAGGAAAAGCCACAGGCGGTTAAGGTGGTAAGACCCCGGGCAAAAAGGAAAAAGCCCGCTGAGGTCAAAAGCGAGCATATAAACATGGTAATCAGTAAGGAAACACGTGCTAAGCTTGAGGCGTACAAAGCGATCACGGGCAAGACCACAACCGAACTCTTTCAAGAATATTTAGACAAGCTGTGGGTAACAGATCGGGACGTTACGGATAGCGAGCTCTTTCGTGACCTGTATATTAACAACATGAAGAAATACGGTTTATAG
>LACTIS1119B1_09710 ATPase, para family protein
ATGGCAAAAATAGTAACTGTAACCACTCAAAAAGGCGGGGCGGGTAAAACTACCCTTGCCCTGTTACTAGCGACAGGCGAGGCTCTAAGAGGCGAGAGGGTGCTACTAGTGGATCTTGACCAGCAAGGGGATGCATCTTATAGTTTGGTCAGCGATTACGATCCCAGCAAAACGAGCTATGAGTTATTGACCAGCGAGAGCGTGCAAGTCCCGGCTGTGGCTACACCCGTTAGTGGATACTTGAATCTTGATCTAGTCCCGGCATCCCTCACTTTAGAGCGTGTCGAGGTAGAGCTAGCGGGCGTGCTAGATGCTCAGTTTATCTTGTCTGACAAGCTAGAGGCGGTCAAAGATGATTATGATTTGATAGTCATTGACACCCCGCCAAGCTTAAACGTCATTGTCAGCAATGCATTGACGGCGGCGGATAAGCTCATCATCCCCGTGCAGGCGGACATTTACAGCTTTAAAGGCATGGCAACCCTTGCCCAGCGTGTCAAGGCAATACAGCGGCGCTCTAATCCCCGCCTTTCAATCTGTGGCATTGTGCTAAACAGATATAACCCCCGCACTAACCTAAGCAAGGCGATCACAGAGGCTTTAAATGAGGTAGCAGAGCAATTTAATACTAAGGTTTATCGATCTACCCTAAGGGATGCAACGGCCGTGAGAGAGGCGCAAAACGCCAAACAGAGCCTGTTTGAGTATGCTGCCAAAGGGGCAAAGGTAACCGAGGATGCAAAAGCACTATTAAACGAGATTGAAGAGGATTTAAAGAATGGCTAA
>LACTIS1119B1_09720 hypothetical protein
ATGACCAATGACATCACGCTTGCCCAAACCTTAGACGGGGCAACCCTTGATAGCTTTTTACTGTATCTTGAAGACATGCCGAACACGGCTAAGACCTATAAAAGCTGTATCAAGCGCTTTAAGCTGTGGCTTAAAGACCAACCGGACGCCCAGCAACCGACAACGAACACTGTTAGACGCTATAAAGAGGATCTGACCAAGCGAGGTTATAAACCTAATGCAGTGCACCTTTACATGGTAGCGATCAAGCAATGGTTTAAATGGCTTGAGAGCATCGGCAAATATCCCAACATTGCCCAGTACGTCAAGTCGGGCAAGGTCAACCGTAAGAGCCCTAAAAGCTATTTTGAGGCGGCTCAGGTCAAAGAGATACTAGACCAGATCGACCAGACCACACAGGCCGGGAAGCGGGATTATGCGCTGTTAGTTTTGCTCTTTACCTGTGGCTTACGGACGATTGAGGCATCCAGGGCTAAGGTCAAGGATATAACCATTTTAGGGGCATCCCGGGTGCTTTTAGTGCAAGGCCGATGCGAGCGACTATGTACCGTTGCCGGATCACGTTTACACTGTCTTGACCGACTATTTAACCACCCGTGGCATCGATGCAAAGGATATCCCAGCATGCACAGAGCCGCTTTTTACAAGCACTAG
>LACTIS1119B1_09730 DNA-binding ferritin-like protein
ATGAAATATACGAAAACTAAAGCAGTATTAAATCAACTCGTTGCCGATTTGAGCCAGATGTCAATGATTATCCATCAGACGCATTGGTACATGCGTGGACCCAACTTTTTGAAGTTGCACCCCTTGATGGATAAGTTCATGGAAGAAATTGATAGCCAACTCGATGTCATTTCTGAACGGCTGATTGCGCTTGATGGCAATCCTTACTCGACCTTAAAAGAAATGGCCGAAAACACTAAGATTCAAGACTGGCCTGGTGAATGGGACAAAACAACCCCAGAACGCCTCGCACACTTAGTTGATGGCTATCGTTACTTGGAAGACCTTTACCAATACGGCATTGAAGTATCCGATGTTGAAAAAGACTTCAGTACCCAAGATATTTTCATTGGTCTCAAAACCGCAATTGAGAAGAAAATCTGGATGATTCAGGCAGAGCTTGGGTCGGCGCCGGAAATTGATGAATAA
>LACTIS1119B1_09740 hypothetical protein
ATGTTACATAAGTTACTAGATCAGCAACAAAGCTTGGCCTTACAGGACAAACAACTGCTCGAAGAATACAAAGCAGAAAACGACAGATTAAAAGTTCTCAAAATGCCCTCACAGGAAACAGAATTCAAACACTTAGACAATCAATATAAAGATGAAGTGAACGCTCTTAAAGAGAAGTTGGAAAATTTGCAGGAACAAATCAAAGTTCAAAAAAGGATAGAAGAACAAGAAAAAACAAGAAAATGGTGGGGATTATGA
>LACTIS1119B1_09750 hypothetical protein
ATGAAAAATAATAAAAAAATGTTATATGTATTTTTACATATAATAACTTCTTGTATTTTAATATATAGTTTTTTTAAAAATGGTAATATTACTTTTACACTCTTTTTAATAGCAATATTAGTGGAATTGTGTGGACGTAGTGCTATTTATTTATATAAAAAAATGTAA
>LACTIS1119B1_09760 cell wall teichoic acid glycosylation protein
TTGTATTCTATATTTATTAAATATAAACAAGTTATACTGTATTTATTTTTTGGCGGGTTAACTACTATTATAAATATTCTATCTTTCGAAATATTATTAACTAATTTCAATTTATATTACCAACTTTGTAACGTAATAGCTTGGATAATATCTGTAACGTTTGCTTATTTTACTAATAAAGTGTGGGTATTTGAATCAAACTACACTACTAGAGCTAGCTTTTTTTTTGAATTTGTTAAGTTTTATTTTTTTAGATTACTATCATTAGGTTTTGAGTTAATAATAGTTCATGTAGGTATAAAAGTATTACATATGGACCCATTACTTGTTAAACTAATTGACAATGTTTTTATAGTATTAATAAACTATATATTTAGTCGTGTTTTTATTTTTTTAAAAAATACCTAA
>LACTIS1119B1_09770 hypothetical protein
ATGAAGAAATTTTTAGTGCTAATGCTATCAAGTTTAACATTTTTAACATTAGTAAGTGTTATCTCACCAAGTATCAAAACTAATAGTAGTAGCAATAATACACTAACAACTACTGTATATGCGGCTAGGAGATATCATGAAGGAAAAAACGGAGCTCGTCGTATAAATTGGCATACAACTAGATTTTATATAAAAAGATCTACCCTACGTCATATGGGAGCAGGAGCGACTATAGCAGGAGCTTGGCTTCCTAAATGGTGGGTAGCGGGCTTTGTTTCTAGTTATGGATATGTTTTATCTAACGCACCTGGTGGAGTATACGTAGACTATGACAGACTTCTATCTGGATTTGGTGGCGGTATTACAAAAGTAGGTTGGCAATAA
>LACTIS1119B1_09780 hypothetical protein
ATGAAGATGCCGAGAACGAAGAATATTAAGACAATTGAAGCCGAGATTTCCCAAACAGAAGAACAACTCCGGCGCCTTAAAGAGCGCTGCGATAAAGCGTCGCAGAAGCTAGATGCTCTCTATGAGCTCAAGAAACACCGAGAGCAGGAGGAATTACTAAAAGCTATTGATAAAAGTACCCGAACTAAAGCTGAGATCCTCGCGTTTCTGGAAAGTCATGCATAA
>LACTIS1119B1_09790 phage primase
ATGCGGAATTTAAAGAGCACTGAGGCCACAGGTTGGACGGACTACCAGACCGCCTCAAAAGCCCTCACAGCCGCTAACAATGCCTTACAAGAGGGCAAGATTACAGGCGTTATTAAATTCACCTTCAGTTTACGGATCACGCCACCCCTTGTTTTTATCGATGTTGACGATATCCCAGATCCCGAGGCCTCAGCCCAGTTTAAGGATCTGACCAAGCTTACAAAGGGCGGCTATTGCGAGGTATCTCAGAGCGGCAACGGATTGCATTATTTCGTTGAGGGCAAGCTTGATAAGGCACACAAGGGCAAGACGTACGAAATGTACACAGGCGGCCGCTATGTTGCTTTTACGGGCAATCAGGTATCAAATAGCGACAGCATCCTGGCACTGACAGAGAGCGAGATTAAAGCGATCGTGTCATACTGTGGCTTTAAATGGACGGGCAAAAAGCAAGCCAAAGAGCCTTTATTGGTTACCACCCCGCAACCGACCGGGAATGGCCGCCACTGGGGAGCAGATAACGGGCTGACAGCTGAACAGGTACTTTCTAATGCAATCAATAACCCCGAGCTAAAAGCCGTTGCTAGCGGCGATTACAGCGCCTATAACGGGGATCACAGCTCAGCGGTGCAAGCCCTTGTTAATAGCCTTGCCTTTTACGCTAACGGGGATGCGGCAAAGACTGACCAAGCATACAGATCAACCCCCAGCTTTACGGATGACACAAAGTGGGATGCATCCCGGGGCGACACAACGTGGGGTGCTCAAACCATTGCTAAGGCGATCAATTACGTTCAGACCAAGCATCCCGATCACGGCTATTTCCCAGCCCGCCAAAATTCCGGCATGAGGGTTGTTGAACCGGGCGAAAGAGCCACAGCCGAAACGCTTAAAATCAAGATTGACGGGGTGGAAAGAGAATTTCCGTTTAACGGTTATTTCTATAACAGAGATTACGAAATGACCGAGGTTGGGTTTGCTAACCGTTTTGCTGATTGGTACGCTAAGGGAAAATTAGTTTATCATCCCGGCTTAAAGGCGTGGCTTATGTACAACCCAGAAACGGGGTCATGGATGCCTAACGGGGATGACAGACTGGGCACGACCTTTAACCAAACCCCAGAAAAGCTCATTGATAATTTGCGGGTAAATCTCAAGAAAGAAAAACGCCTGTGGCTTACAGTCGGTCGTGATCCCCACAAACCGGATAAACAGTCATTCGGGGAGAAAGCCTATAACAAGGGTTACGAGCGAATCAGCTCAGCGGCTGGGCAAAAGGCAACCCTTGAATTAGCTCAGAGCCGTTTAACCGTGCGTGCATTTAACGACTGTAAGACCGAGCTTAACACCCGGACAGGTTGGATTGACCTCAAAACGGGCGCTATTAGCCCTCACAGCCCGGCTAAGCTGTTTGATAAGGCAACGGATGCTGGTTTGCCTAATAAAGCCACAGAGGGGGACGGTGGCAAGCTCTGGGATCGTTTTTTAAAAGAGACCTTTTGCGGGGATCTTGAATTGATCGATTACGTTCAGGCATGCATCGGCTATAGCGTTACGGGCAAAATCAATGAAGAGGTTATGTTTATCTGTGAGGGCAGTGGGGGCAACGGCAAGAGTATTTTTCTTGAGTGCATAAACGAGGTGCTGGGCGATTACAGCTCTGTTATCCCAATCGAAACATTGATAGATAACAACAAGGCACAGCGGGACGGCTCAGCACCAAGTCCAGACCTTGCAAGCCTTAAGGGCAAGCGGTTTGTCATGACAACCGAGCCCAAAAAACAGGTTACAATCGATGACGGGATAGTTAAGACGGTGACAGGTGGCACTAAGCTGAATGTTAGAATGCTACATCAAAACCCGATTGTATTTTTACCTCAGTTTAAAATTTGGTGGCAATCTAATGGCTTGCCCCGGATTGCTATTAAGGAACACTCTATGTTACGGCGCTTGATCGTTATTCCGTTTAAAAACGAGGTACGAGGGGATGCGGTAGATATCAACCTCAAAAGCAAGTTGATGAAAGAGAAAGAATTTATCTTGAAATGGTGCATTGAGGGCGTGGCCAAATGGCAAGCACGGGACGGAAAAGCCCTTTATCACCCTAAGTATCAACCAGCGGCCGTTGAAGAGGCCACAGCGGGGCTGTGGAATTCCGCTCACGTTCCGGTTGACAGCATCAAGCAATGGCTTGAAAACGGGAACTATGAAGAGGGGCATTCATCCACCCCACCAAAGGTTAAAGAGGTTTACGAGGACTATTTAGCCTATTGTAAAGAGCATGAATTGAAAGTACCGAGTGCATACACCAAGCAAGGATTTAATAAGGAATTGGCACGGCGGGGACATCACAAGCGCCCGGGAACGGGTAATTCCTATGTTTGGATCAGTTTAAAAAAGCGTGGTTAA
>LACTIS1119B1_09800 hypothetical protein
TTGAGTACAAGAAACAAAGACATTAGGGATGCAATTAAAACGGCCGGATTGTATCAGTATCAAGTAGCGGACACGCTGGGGATCGATGAAACGAAACTCAGCAAGATGTTGCGGTATGACCTGTCAAAGACAGACCGGGAATCTATCTTAAACGCTGTGGCAATGACCAAGATTAACCAGCAAGCGGAAAGAGAGGCCGAATAA
>LACTIS1119B1_09810 hypothetical protein
TTGCTAGCGGCGTATTTCTGTTTCCGGCAGATGCTGACCGGGAACGTCATCATCGGTTCAGATACGATCTTTCACTATAACCGCTTCTATGAAACGGCGGAACAGATCAAGCACGGCAACTTCAACTGGTTCATGAGCATGTATGGCTACGGTCACTCAGGCCGGGTGATCAATGCCCTGTACGGGCCGCTGTTTGCCTACGCCAACGGCCTGCTCTTATTGCTCGTTAAGACCTGGTATCGGTATCAGATAGTCAGCTCCTTTATCGTCTACGCGGTTGGGGGGATCGGCATGTACCGGGCCTTGCGCCGCTTTAACAGCCGGCGGTCAGTGGCCACGATTTTGGCCATGCTCTATCTGACGATTGGCTGGATGCCCCGATGGCAGGGGGCAACCAACTTCTCCGGGATCAGTGCTGCTATGATGCCTTATGGCATTCTAGTAGCCGCGGATATGATTTTTGCCGAGAAAAAAATCCCCTGGGTCAAAATGGGTCTCTTAATGGCCCTCGCGCTGGAAGTCCACCTGCTGACGGCCGTGATGTATATGGCCTTTTTGCTTCCGGCCTGGCTTTATGTCTTGATTAAAAACAAGGGGCAGCGGCAGTTGTGGCTGGAGACTTGCCAGGCCGTGGGCCTGGCGGTCTTGCTGGCCTTAAACACCCTGGCTCCCCTGTTATGGCTGTCCAAGACCAACAGTCTGGCGGCGCCATCGACCATGAATATGATGGCCAATGCCCTGCACCTCAAGCACACTTACCTGGCAGTCGCGCCAAGGGGGCTTTTGGGCTACAACCAAAGAGACGGTTTGACTTACTGGCTCTTCTGCATCTTTGCCGGCCAGATCCTCTATGCCGTCTGGCAAAGACAAAAAGACCACCTGAACAGCTATATTACTTTATATGGCGCTTTTTGGCTCTTTATGTCTTCCCGGCTCCTGCCTTGGGAACGGATCTCCAACCGCCTGCCAGCCTTGGCCCGCTACCTGCAGTTTCCGTCCCGTTTCACCTGCATCGCTTATCCTCTGCTATTGATCGGGATAGGGATGTCAGCAGAAATCCTGCTGAAGAAGTCCAAGCACTTCTCCTGGCTGGTTTATGGTCTAATTGGTGCGGCTTTAGCCCTTACTACGAGCAGCATGGTCCGTTACATGAATGCTGATGCTTGGAACGGCTATTTGAACAATGTTGGTCATAATGCCAGCACTAATTTTGGCCATGAAGTCACCAATCCAGGCAAGCATAAAAACAAGAAGACCAAGTCAGGTTTGATCGCCATGACTCCCGCCCGGAAAGAGGCCATGCGGCAGGCCAACGCGGCCACGCACACGAATGACTTGCGTAAGTTTTTGACTTTGACTAAAAAGCCAATCGCTGACTACCTGCCAGTTTACAAATTTGACCCTAAGCCGGTTATTACCGGCTGGGCAGATGGCTACAAAAATAAGGAATATTGGCAAGAGCAGACGAATAAGGCCGCCCGCTCTTACGACAAGACGGTTTTAAATCACAAGGTTAGAAAGCCAATTAAGTTTGAGATCCTCAAGGGGGGAAAAGTCAAGCTGACCTGGACTAGCAAGGGCAAAAAGAAGCGCCTGCCGGTCGTTACTTATGCCCAGTCGAAATTGACGGTCAACGGCAAAGTTTTGACCAAGTATGAAAGAAGCCGGATTGGCGCGCCAAAAGTAGCCAGCCACCAGGGTAAGAACGTGGCTTACCTGGAATTCGTGACTCCCCTGTGGCTGAAGCTGCTCTTGGCGATCTCCCTTTTATCCTGGCCAGGCTTTATTTGCCTGGGCTTAGGGATTAAACTTAAGGGGAAGAATGCAGAAAGGGAAGGGAAAAAGCAAAAATAA
>LACTIS1119B1_09820 sucrose phosphorylase
ATGAAATTGCAAAACAAAGCTATGTTGATTACTTACCCGGACAGTCTTGGCCATAACTTGAAGGACCTGTCCCAGGTGATGGACCGCTACTTCTCCAAGGCGATCGGCGGGATCCACTTGCTGCCGTTCTTCCCGTCTCATGGAGACCGGGGCTTCTCACCGATGACTTATGAAAAGGTCGCTCCGGAATTCGGCAGCTGGTCTGATGTAGAAAAGCTGGGTGAGCAATACTATTTGATGTTTGATTTCATGATCAACCACATCTCAGCTCACTCTGACTATTACTTGGACTTGCAAAAGAACAAGGAAAAGAGTCCTTGGCGGGACCTTTTCTTAAGCTGGGATAAGTTCTGGCCAGCCGGCCGGCCGACTCAGGCAGATGTTGACTTGATCTACAAACGCAAGGACAAGGCGCCTTGGGAAGAGCTGGAATTCGCGGACGGCAGCCGCGAGAAAATGTGGAATACTTTTGGCCCCGACCAGATTGACCTGGACGTGCGGACCGAAGTTACCAAGCGTTTTGTCAAGGAAACCCTCCAGCAGCTGGTCAAGCACCAGGCCAGCTTGATCCGGCTGGATGCCTTTGCCTACGCGGTTAAGAAACTGGACACGAGCGACTTCTTCGTTGAACCTGAAATCTGGGACCTGCTGGATGAAGTCCGCCAGGACCTGGCTGGAACAGACGCGCAAATTTTACCGGAAATCCATGAACACTATAGCTTGCCGCGCAAGGTCAGCGAGCATGGCTACTTTATCTATGACTTTGCCCTGCCGATGGTCCTGCTCTATTCCCTGTATACTGGCAAGAGCCAAAGGCTGGCCGCCTGGCTGAAGCAGTGCCCGATGAAGCAGTTTACTACCCTGGACACCCATGACGGCTTGGGGGTGGTTGACGCCAAGGATATTTTGACTGATGAGGAAATTGACTACACGACCCAGGAGCTATACAAGGTCGGGGCTAACGTCAAGCGGAAATACTCTTCAGCTGAGTACAACAATTTGGACATTTACCAAAGCAATACGACCTATTACTCAGCCCTGGGCAATGATGACCAAAAGTACTTCCTGGCCCGGCTGCTGCAAGTTTTTGCCCCGGGGATTCCGCAAATCTACTATGTTGGCCTGCTGGCCGGGGAAAACGACCTGGACCTGCTGGAACGGACCAAGGAAGGCCGGAACATCAACCGCCACTACTACAGCCTGGAAGAAATTGACCAGGAAGTTAAGCGGCCAGTCGTTGCCAAGCTTTTGAAATTGCTGGAATTTAGAAATACTGAAGCGGCCTTTGACCTGGATGGCCGGCTGGAAGTTGCTGCTCCAAGCGAGCATGAGATTGTCTTAAAGCGGATCAACCAGGCTGGGGACCGGGAAGCGGTTCTCCGGGTGGACCTGGCTGCCTTGACTTACCAGATCAGCGTCAACGGTGAGGAAATTTCCCTGTAA
>LACTIS1119B1_09830 sucrose operon repressor
ATGAAAGTCACCTTTACCGAAATCGCCAAGCTGGCGGGAGTTTCCGTGCCCACCGTTTCCCGCTACTTCAACCAGCAAACCGTCAGTCCCCAAAACCAGCTTAAAATTGCCCAGGCGGCCAAGGCCCTGCACTACAAGCCAAATAAAGCTGGCTCCAAGACCGTCCTGGTCCTCCTGCCCACGGTTACCAACCCGCTCTACGCTGAATTTTACGAAGCCGTCCAGGGGAATCTGGCGCAGCTGGGCTATGACTGCCAGCTGCATGTTGGTCAAGATGACAACTTCCTAGCCAGTTTAAAAAGCAATAAATTTAGCGGTCTGATCACCAGACTGCCGGAAACGCCCCTGTCCTTGACCAGGCAGCTGCCTACTGTCTCCTTTGACCGGCCTATTTCCCGGGAAATACCCATGGTCAGCTGTGACAATTATGGCGGCGGACACTTGATTGCCCAAACCGTCCTTAAGAGGGGAGCCAAGGAAATTCTAATCTTCTGCGGCAGCCAGCAAGACCTCTCCCCCATCAATGAGCGCCTGCGGGGCATGATGGATTGCTTCCAAAAGCGGCAGACCAAGTTTTCCACGGCCTACCTGGACTTTACCGCGGGCAACCTCTTTAAGCAGGTCCAGCTGGCCAAGCTGCTGACCGGACAAAAATACGACGCCATCTGCTGCAGCGATGATATCACCGCCTTGCTGGTCAAGCAGCGAGTCCGCCAGCTGAGCTACCAGCCTTTGGTAACAGGTTTTGACGGCTCCAATTTTGTCCGCAATTTTTTCCGGACCTGCTGA
>LACTIS1119B1_09840 glycerol uptake facilitator protein
TTGATACACAACTTGTTAAATGAGTTCCTGTCTACCGGGCTCATGATTCTTTTCGGTGTTGGCGTGCACTGCGATGACGTTTTGAACAAGACCAAATACCACGGCTCAGGCCACATTTTCGCCATTACGACCTGGTCATTCGGGATTACCGCCTGCCTCTTCATCTTCGGCGGCGTCAGCATGAACCCAGCCATGGCTCTCTCCCAGGCTATCCTGGGGATCATCCCATGGTCCAGCTTCATCCCTTACACTCTGGCTGAATTCGCCGGTGCCTTTGCCGGTGCTCTTCTGGCCTACTTCATGTATGCTGACCACTTCAAGTCTTCCGAAGACACCATCGACGGCGTGGCTACCCGGAACATCTTCTCCACCAACCCTAACCTGCGTAACCTGCCACGGAACTGGATGGTCGAAATGATCGCCACTACCATCTTCTTGACTGGTATCCTGGCTATCGTTGCCAACTACGAAAAGTTCGGCTTCACTCCACTCCTTGTGGGTCTCTTGGTATGGGCAATCGGTATGGGCCTTGGCGGTACTACTGGCTTCGCCATGAACCAAGCCCGGGACTTGGGCCCTCGTCTGGCTTACCAAATCCTGCCAATCAAGAACAAGGCCAACAACGACTGGCAATACGGCCTGATCGTACCAGGTACCGCGCCATTTGCCGGTGCCGTACTGGCTGCCATGTTCGTCAAGTACTTCTTGAAGCTGACTTTCTAA
>LACTIS1119B1_09850 DNA-directed RNA polymerase specialized sigma subunit
ATGAACATGCAAATCAATCAAGCAATGGACCAAGCCTGGGAAAGGCGGAAATTAGTCGCCGGAGCCTTGAAAACGGCCCATGTCTACCGGAAGTGTGCCGATTACGAGGACCTTTTTCAAGAAGGCCTGATCGTCTACGCCCAATGCCTGCAAGAAATGGCTGACCAGCCGCAAGAAGAAGCTGACAAGCTGGCCTTCCGCAAGGTCTACTGGCGGATCCTTGACCTGCTCCGGCAGAAAAAGCGGCAAAGAGACCACGACGAACCACTGCTGGCTGCCGCCTTTGTTGGTCAGGCCGACCAGCACAATCCGCTTCTTAAGGAAGCCTGGAAGAAGCTGTCGACTAGCGAAAAGCTGCTTTTAGGCCAGAACATCCTGGCTGGCCGCAGCCTCAAGGAAACGGCCGACTTAATGAATATTCCCTACCGGACGGCCAGCCGGATTAAGAAGCAGGCCCTGGAGAAACTCCGCCGTCAGTTAGCCTGA
>LACTIS1119B1_09860 hypothetical protein
ATGATGACGGTCTACAGCCGGGAGTATTACCAGGCAGGATTAGCCGAAGGAAAAATCAAGGCCAAAAAGCTGGACAAGTACCGGCTGGGACCGGACTTTATTCTGGCTTATGACCTGGGGCCAGCTGCTTCTTACCGGACCTTGCTAGTCGACCGGAAGCAGGGGGAGATCGTCTTAAGAGCCACGACCAAGACCCTGCTGGCCCACTTCGTCAACGAGGATCTGCCTGGCGGCTACCCCTTGCAGGACAAGCTCTACAAGCTCCTGGGGATCCGGGAGCAGCACGTGATTTCGGCGGGGCATGGGGCAATTTTTTCCCCGGAATCCTTCCACGCCGGCCTGGTGGACCTGGTGGCCCTGCAGCGGATGCGGGGGATGGAAGCCTGCCAGGGAGGGCTGCTCATGACCGACTTGGCCGGGGTCAACTGCTATTTCTTTCAGGTGAAGCGCGGCTATGCCAATGCCAGCCGGCAAGTGAAAGAAGCGGTTGAGCACAACGCCCTTTACTGCAGCCTTTTTCATGGCCTGGCTGGGCAGGTGGGCTGCCCGGTTTGCAGACAGGGTGACTGGAACCTACTCTATGGACCCAGCTACCAGCAGGCGGTTGAGGCCGACCTGGCTGGCCGGATCCCCTCTTTAAGGCAGCTTTTGGCTGAGATCAAGGCAGAGGAGAAGGCAGTCTTAAAGCAGATCCTGCTGGATGAACTCGGCCTGCCTCTTTTACCAGATGATTTAGACTATGCTTTAAAGCAGGCTGAGAAAAAGCTCTTATTCAGAATATAA
>LACTIS1119B1_09870 hypothetical protein
ATGGAAGACGTTGAAGAGGCACTTAAGCGGCAGCTGGCGGGACGGGTTTGGTCAGCCAGCTTGCGCCGCCAGCTGGAAAACAAGGATATTTGTTTAAGCGATTTGCTGCTGGACAAGCAAAGACTGAACGTGATTAAGCCAGCTGACGTCCCTTTAATCAGCCAGGCCCTGGATGAATTGCAAAAGAATTTTCGCGAGGCAGTCAAGCAGGTTCTGCAAACTGAAATAGAAGCTACTTCTGATGCTGACCGGCTGGCCTGGCTGCTCCTGCAGCTTTTTGCCAAGAAAAGGAAGCGGGTCCGGGACTTGACGGCTGACCAGCTGGCTCTCCTGCAGACTGAAGAGGCTAAGAAATACGTCCTTTTTCACGGGCCGCGGGTCTATTTCCGCAACAACGCCTGCTTTTTGACCAATACTTTCCCGGCAGAACTGGTCCATATCAACGACCTTGCCGGGCTTAAAGGACAGCCGGCAGCTTTTTCCGCCTTGTTGCAGGGAGAAGAAGTGGATGGGGAAGAACTCAGAAGCTGGCTTGACCTCTTCGGTCCCTTGTATGAAGAGAAATATTTCGGCAAACACTACAGACCAGGCGTGGAACTGGCGGGGTTTCAAATCTCTAGCGGGAAAAGAGATCCCCGGATCTACTATGTCCTGCGCTACCTGCTCAAGGATAAAGAGCCAGAAGCAAGATCGAAAAATTTTGCTGCGCTTCCTTTAAAGACGATCCTAAGGCGGAATTTAGTCTGCCACGAGGCCTTCAAATGA
>LACTIS1119B1_09880 transposase
ATGACAATACGCAAGCGCAAGTCAGATCTGCCGGAATATGGAGTGAAAATCAGATTGTACCCGACTCTCGTACAACAAGCCAAACTTAGACAGTTCTTTGGCAATGACCGCTTCCTCTGGAATCAGCTTGTCAGCCTCTATCAAGAGCGCTACAAGAACAACAAGAGCTTAAAACTGTTAACGGAATTCGATCTTAACAATCTGCTTCCCGCTTTGAAGAACGAATATCCATTCCTCAAGGCAAGTGACAGCTCCAGCTTCCAAATCGTGACCAGGAACATCAGCGATGCCTGGGAGGCGTTCTTTGCCGGAACGAGACGCAAGCCCCGCTTCCACTCAAAACATAACGCCAAGCAGTCATATACTGGCAAGTCGTCAAGCATCCGGATCATGGGCAAAAGAAACATGTTCCTGCCGAAGCTGAGAAGAGTCAGATCATCGAAAACCGGCGTCATCGACGGCAAGATCAAGTGCTACACGATCAGCATCGATGCTTGCGGTCGCTACTGGCTTTCTCTCATCGTGGAGAAAAAGAGCGCCTTCCTGCCAAAGACTGGCAAGGCGGTTGGCATTGACGTGGGGCTGAGGCACTTGGCCATCCTGTCAGACGGCAGAAAGTTTGACAGGTTCTCATCGGATTTCTGCGAGAAACAAGCAGAAATCTGGCAGAGCAAGTCATCCAAGCGCCGTCATTTGGCTTTTGTTAAGTCGCAGCAGGAAGCCAACAAAAAGGTTCTTGGCGCAAAAAGCTTGTCTGACTATCGCAACTGGCAGAAAGCCAATGTCGCCAAGAACCGCTATATGAGCCGCATCACGAATCAGCGCGATGACTATCTGCACAAGATCACGGATCAGCTGGTAAAGAAATACGACGTCATCGTCATTGAAGATCTCAAGATCAAGAACATGACAAAGAATCACCACCTTGCCCGCTCAATCCTGCGTCAGTCATGGGGTAAATTCCGCAAAATGCTGGAATACAAGTGCAAGAAGTACGGAAAGATTCTCATCAAGGTCAATCCAGCATACACCAGCCGAATCTGCTCAAAATGCGGTAAGGATACGGGCAAGAAGCCACTGTCAGTGCGGGAATGGGACTGCCCATTCTGCAAGGCGCATCATGACCGTGACATCAATGCATCAATCAATATTTTGCTTAAAGGACTTGCCCAGCTCTGA
>LACTIS1119B1_09890 transposase
ATGACTAAATACGAATTCAGAAATGATGAGCCAGATATCATCCATGGGCGAGGCTACGTATACAACCTCAATTACCACATCGTCTGGTGTACCAAGTATCACAACCAAGCCTTGGCTAATCCGATTATTGTCGATTCACTCAAGGACAAGATCCTTCAGATCTGCCGTGAGAATGAGTATACGGTCAAGGCTCTAGAAATAATGCCAACTCACGTGCATATTCTGCTGTCTGCCAAACCCAAAGAGAGCGTGACAAATATCGTCAAGAAGCTCAAAGGCATTACGGCCAAGTGGCTTTTTGAAAAGTACCCAGAAACGATGAAGGAATACTTCTGGGGTGGTCACGTCTGGTCACCGAGCTATTACGCAGGAAGCATTGGAGTGACAACCGAAGCTGTCGTCAAGAAATACATTGAGACGCAATGGAATAGACCATTTCACTAA
>LACTIS1119B1_09900 fructokinase
ATGACAGATACTTTTGTAGGCAGTATTGAAGCCGGCGGCACCAAGTTTATCTTGGGCGTGCAAAACGTTGAGACTGGGGAAACCACTGCAACCAAGCGGGTGCCAACCACGACTCCGGCGGAAACCCTGGCAGCCTGCCGGGACTTCTTCAAGGAGAACCCGGTCAAGGCTATCGGGATCGGCTCTTTTGGCCCGATCGACATCGACCCGAAGTCAGCAACTTTTGGCTACATTTCCAAGACCCCAAAGGCTGGCTGGTCAAATACTGAATTGAAGGGCTACTTTGAAAAGGAACTGGGCGTGCCAGCCGTTTTGACGACTGACGTCAACGCTTCCTGCTACGGGGAATACATTGCCCGCGGCCGGGATAATGAAAAGACCTACCTTTACATCACCATCGGGACTGGCGTTGGGGCTGGTGCCATCCAGCAAGGCCACTTCATCGGTTACACCAACCACTCAGAAATGGGCCACATGCGCATTCCTAAGCGGGCGGACGACAAGTATGAAGGCGGTTGTCCTTTCCACCACGACGCCTGTGGGGAAGGTTTGACGGCTGGTCCAACGCTCAAGGGCAGAACCGGGATTCCTGGGGAAGACCTGGACCGCAGCCACCCAGTCTTTGACTTGATTTCCTATTACGTGGCTGAGATGCTCTACAACATCTACCTGACCATCCGGCCAGACGTCATGGTTGTCGGCGGGTCAGTCTTGAACGAAGGTGACATGGCAACGGTCAGAAAGTACTTCGCGGAAATGAACAACGACTACGTTGCTCTGCCAGACCTGGATGAACTGATCGTGCGGCCAATCGTGGCTAACAACGGTTCAGCTACCTTGGGCTGCTTTGAAATGGCCAAGGACTTGCTTAAGTAA
>LACTIS1119B1_09910 mannose-6-phosphate isomerase
ATGCAAATGGCAGAACCATTATTTTTGGAACCAGTTTTTCATGAAAAAATCTGGGGCGGCACTGGCTTAAAAGACGAATTTGGCTACCAGATTCCCAGCGACCACACCGGTGAAGCTTGGGCAATTTCCGCCCACCCGCATGGTCCGGCAACTATCAAGAACGGCCTTTACAAGGGTATGAAGCTGAACGAGCTCTGGGACCAGCACCGGGAACTTTTCGGCAATGCCAAGGGGGACGTCTTCCCGCTTCTGACCAAGATTTTGGATGCCAACCAGGACCTGTCCGTCCAAGTGCACCCGGACAATGAATACGCCAGAATTCACGAAGGAGAACTGGGCAAGACCGAATCCTGGTACGTGATCAAGGCCAAGCCAGGCGCCAAGCTCTACTACGGCCACAATGCCCAGACCCGGGAAGAATTCGCTAAAATGGTGAAAAACGGGGAATGGAAGAAGCTCTTACGGACTGTCCCGGTGCATGAAGGGGACTTCTTCTACGTGCCACATGGCATGGTGCACGCTGTCGGCAGCGGCATCATGGTTTTGGAAACCCAGCAGTCCAGCGACACCACCTACCGGATGTACGACTTTGACCGGGTAGACAAGAAGACAGGCAAGCTGCGCCAGCTCCACTTGCAGCAGTCAATCGACACGGTACAAGTGCCGTTTGAAATGCCAAAGCTCAACCATGAAGAATGGGGTGTTGGCGACGTTCACGTGATCCAGTTCGTGATGGCGGAATACTTCGGCGTCTTCAAGCTGGACGTTCGCGGCAAGGGTGACTTTGAGATCAAGGATGGCAAGTACCGCTTGCTGTCAGTCTTGGACGGATCTTGCGACTTGACGGTCGACGGGCAGACTTATCCGCTGAAAAAAGGTGATCATCTGATTTTGCCATCGACGATTTCCTGTTATACTTTAGATGGTCAAGCTACGATCATCGCTTCCAAACCGGGCGATGAAGCTTAA
>LACTIS1119B1_09920 6-phospho-beta-glucosidase
ATGAATGCCTACCGGAACCGCTACGGGCTGATCCGCGACGACATTCACACCCAGAAGAAGACCTTGAAGAAGTCAGCCTACTGGTACCGGAAGCTTAGCGACAGCAATGAGCTGGACGCGGATTGA
>LACTIS1119B1_09930 hypothetical protein
ATGTCAAGTATACTAGATGATCAACTACGATTAATGGCTTTAAAGCAATACGGGTTAATTAAATCAATTAAAGCACCCGACATTTCTAAAGAGGATTTAACATTAATACTGAAAAATACAGAAAATGAAACTATTAAACAATTAGCAGCTGAAAAGCTACTTAAAAACCCCGACCTTTATAAAGTGGATTTAGAATTAATACTGAAAAATACAGAAAATGAAACTATTAAACAATTAGCAACTGAAAAGCTACAATATCTTAATTCGCATCCCAGATTAGGTTGGGCAGGTTCCCTAGCGAGAGCAAATAGGTTGGGCAGGTTCCATAGCGAGAGCACAAAGGATTAA
>LACTIS1119B1_09940 transcriptional regulator
ATGATTACCAGTATCAAACTTTTAGAAGCTAATCAGATCCTGGCCCAGGTCTTGGACAGCGAGAGGGGCAGTGAGATCAACGTCAAGAAGTTCTGCAAGCTAGCTGCCTGCTCACGGCCAACCTTTTACGCCCACTATGGCAGCATGCGGCAGCTCAGTGCGGAATTACTGTTAAAGAAGCTAGACCAGCACTTGTACTTTGCCACCAGTGATTATGGCAATGGCCTTAAGAGGCTATTGACCTATATGGAAAAAGACAACTGTTTCATTTTAAACCTGCTGGCCTTGATTGATGCGGAGAAGGGGAAAATCAAGGGCAAGGAGTTTGCGGCCCAGTTTCCGCAGAAGGTTGAATGGCTGCTGCGAAAGAAGACAGTTTGCTATGTTGATGCTCATTCCTTAAGCGGGGATTATTCGATTAAGACCTTGAACAATGCTGCCCACATCATCTACGCGATCCTGTACGAGTGGCTGGCTGAAGGCCTGCAGCTAAGTGCGCGGGATGTTTATGACCGCTGCCAATTGGCGATTGAGATTGTCGAGAAGCAAACAAGTAAGAAAGCGCTTTTGTAA
>LACTIS1119B1_09950 4-oxalocrotonate tautomerase
ATGCCATTTGTACACATTGAACTCTTGGCTGGCCGGACGCCAGAACAACTGGAAAAGATGATGAAGGACGTGACCCGGGTGATCTCAGAAGACACTGGCGCACCAAAGGAACACATCTCCGTGATCATTAATGAACTTGGCAAGCAGCAGCTGGCTCAAGGCGGCGAATGGAGAGAACCACAAGCTTAA
>LACTIS1119B1_09960 hypothetical protein
ATGAAGTACGCTATTTCAGCGGCTACTGGCAACTTCGGCCAGACCGCGGTCAAGAATTTGGTTGATGCAGTTGGGGCAGAAAATGTAGTGGCGATCGTCCGCAACGAAGAAAAGGGGAAGCAGCTTTTGCCAGCTGGAATTGAAATCCGCCAGGCTGACTACGGCGATGAAGCAGCTGTAGAAAAGGCCCTGGCTGGCGTGGACAAGTTGCTCTTTATTTCCTCTCAGCCAGGCGGGGCAGTAACTAGAGCTGACCAGCACAAGAATGTGGTTGAAGCTGCTAAGAATGCCGGCGTTGGCTACGTGGCTTACACCAGTTTCCCGAAGGCCAGTGAAAGCGACAACTGGCTGGCAGCTGACCACAAGCTGACGGAAAAGCTGCTTAAGGAGAGCGGCCTCAAGCACTCCTTCCTGCGCAACAACTGGTACCTAGAAAACGAAATGACTTTCCTGGCTCCAGGTCCGGCAAACCGGCTTTACTGGGCTAACAACTTTGCCGGCTGGGCACCGGAAAGTGAATATGCTGCGGCAGCGGTTAAGGTTTTGACCAGTGATGATCCAAAGGAAGTTTACGAATTTTCCGGTCCGAAGCGGAGCTATCAGGACCTGGCAGCGGCCTTGAACGTGGCAACTGGTGAAGCAGCAGCAGCCAAGCAGGTCAGCCAGGACGAATATGTGGAGGCCTTGGAAGGCCTGGGCTTGGATCATGATACGGCGGCAATGTACGCTGCCTTCCAACAGCCAATTGATGATGGTTCATTGACGGAAGAAAGCAGCGACCTGGAAGAAGTTCTGGGCGGCTTGACTCCGCTGGACCAGGCAATCAAGGAACTTTTGGCAAAGTAG
>LACTIS1119B1_09970 hypothetical protein
TTGCCTAATTACGTCAGCGAAAGCTGGCGTTTTTTTATGGAAATAGATGTTGACTTTAAAAATACACGTGCTAGAATTACTGTAGATTTAAAAATAACAAGTAAACAAAATAGAAAAAAGAGAAAAAGAAACTAA
>LACTIS1119B1_09980 Rrf2 family transcriptional regulator
ATGAAATTTTCCCATAAATTGAGTGACGCGGTCCACCTGCTGGCCTACATCGAGATTTTTCCCGATGATGACCTGTCCAGCCGGGCGATCGCGCGTAGCATCGTGACCAATCCCAGCATGGTGCGGAGTCTGATGATGGACCTGCGCAAGGCAGGGCTTTTGAAGACCAAGCAGGGAAACGCTGAGCCGGAACTGGCCAAGAAGCCGGAAGAGATCAGCCTCTACGATATCTTCGCGGCTGTCGGTATGGATCACCACTTGCTGCACGTCGATGAAGACACGGAACAAAAGTGTCCGGTTGGCGGCAACATTCAAGGGCCGCTGGCCAAGGCCTACGCGGAAGTGGAAGAGGCGGCTTTTGCCAAGATGCGGGAGATCAGCCTGCGGGAAATTGTCGACCAGATAAAAGAAGAAGGGCAGCTTGCCTAA
>LACTIS1119B1_09990 hypothetical protein
ATGGCACAAGCCTTATATATCAGCGAGATTCACATGGACTTGAACGAGTACACCAGGATGGCCATGAAGGTGACGGAAAAGAGCCGGCGGCGGATCATCATGATCGCGGAAGCAATCTGGATCGCGGCCGGAGCGGTAGCTTTCGCCTTGAAGCAGTATGACTTCACGGTCATGTTTGCCCTGGTGATTGCTTTTTACCCGGCGGCACTCGTCTACCTCTACAAGCGGCGGCTGAAGAAGATTTACGCGGGCATGCCAGCCATCAAGGATGACTACGTGCGCTACGAATTCTATCCGGACCACTTCCTGGTTTTGACCAACCGGGGGGACGGGGAATACCGCTATGACCAGATCAGCCGCTATGTTGAAACTGACGAGGAAATCATCATGATGCCGGCTCCGGACCAGGGCATGCTGTTTTTGAAGAAAAACTGCAGCCCGGACTTGATCAAGTTTTTACGGGAGAAATGCCAGCGGTAG
>LACTIS1119B1_10000 predicted integral membrane protein
ATGAAAGCGAAGGAAATCCGGGCCCTGGCCCGGGAAAACCTGAAGCAGATCCCGAAGAAGATCTACATGCCGATGGGCCTGCTTCTGGTTGTGGCAAATATCATACCGAATGTCTTTGACCAGGCCACTGATTCCAAGTCGGGGGTTGGAGCTAATATCATCTTCTTTCTCTTGGAAATCGCGGCCGCGCTTTTGACGGCTAACGGCTACATCTTCTTTGATCGCTGGCGGAATAAGATCCAAAAGGGCGGGGAAGAGCCAAATGCCTGGTGCGGCCTGAGCGGGCAGCACCTGGCCCGGCTGGCGGTCTACGGGGTTATCGAAGCCTTAATTATCGTTTCCGTGACGCTGGCGATTGTCGCGGTGATCGTTGGGTTAGTGATTTCGCAAGTACCGGTAGCGGTAAGCATCATTCTTTTGATCTTGCTGGTCGTTTTGCTGGTCTGGATTGAGCTGCGGCTGACCTATGTCGTTTACGTGATCGACGATGATGTGCGGACCGGGCAGAAGCGGTCAGTCTGGGCAGAAATCGGGGCTGGCTGGAAGCTGACCAAGGGCCGGGTCTGGAAGCTGATTTGCCTTAAGTTATCCTTCTTAGGCTGGTACATTTTGACCGCCTTTACCCTGGGAATTTTGGGTATCTGGCTGATGCCATACTACAATTTGGCAATCGCCGAAACTTATGAACAGAGCAAGGAAGACAAGTATTAG
>LACTIS1119B1_10010 helicase
ATGGAACTTTCCCCATTGAGCCCGCCCCGGCTCGTCAGCAATCAGCAAGAAAACATCTGGCAAACCCTGCGCCGGCAGCTGCTGACCTGCCAGTCCTTTACCTGGGCCGTGGCCTTCATCACCGCCGACATGCTGCCCCCTTTCAAGCTGGTCATGGAAGACCTGCAAGCCAGCGGGGTCCGCGGGACCATCATCACCGGGACCTACCTGGCCTTCAACCAGCCCCGGGTTTTCGCCGAGCTCTTAAAAATTTCCAATCTTACCGTCCGGATCGTGGACGGTCCCTTCCATGCCAAGGGCTATCTTTTTGACCATGGGGACTGGCAGACCGCCGTCATCGGCAGCGCCAACTTCACCCGGTCCGCCCTCCTGGCCAACCAGGAATGGTGCCTCAAGGTCGATTCCCAAACCGATTCGGCCTTGCCCCGGCAACTAGCCGCGGCTTTAGCGGACTTGACGGGCAAAAGCCAGCCCCTGACTTACACCTGGCTGGCTGACTATGAAAAAAGCTGGCAGCCGCCAGCCAAGCCCGTGTTACACGTGAAACAAGAAAAGATCGTTCCCAACAAGATGCAGGCAGCCGCCCTGGAAAATCTCCAAGCCTTAGTCAAAAGCGGCGCCCGCCGGGCCCTTGTCGTTTCTGCTACCGGGACGGGGAAAACCTACCTGGCGGCTTTGGCGGTCAAAGACTTTGTCCCCCGCCGCTTCCTCTACCTGGTCCACCGGGAAGAGATCGCCCGCAAGGCCCTTGAGACCTTCAAAAAGGTTATCGACGGCAAGGACAGCGACTTCGCCCTTTTAACCGGGACCAGCCACCAGCAGGCCCGCTACACCTTCGCGACCATCCAGACCGTTTCCCAGGACCAGTTCCTGGCCAGCCAGGCAGCTGATTTTTATGACTACATCTTGATTGACGAAGCCCACCGGTCCGCCGCGCCCAGCTATCAAAAAGTCCTCAGCCACTTCAGCCCGGCCTTTTGCCTGGGTTTGACAGCCACGCCAGAGCGGATGGACCAGCAGGATATTTTTGCCCTCTTTGACTACAATTTAGCCTACGAGATCCGCCTGGCCGATGCCCTGGAAAGCAAAATGCTCACGCCCTTCCACTATATCGGTATCCGCGACTATGAAATTGACGGCCAGACTTCTGATGACTTCAGCGACCTCCGCTGGCTGGGCGCGAAAAAGCGGGTCAGCTACCTCCTTAAAGAACTGGATTATTACGGCTACAGCGGTCCCCGCCCCTGCGGCCTGGTCTTCTGCAGCCGGCAGGAAGAAGCCCAGCAATTGGCGGAAGCTTTTACTCAACAGGGCCAGCCGGCCCAGGCCTTGACCAACCAGGATTCCCCAGCTGTCCGCCGGCAGGCGGTCAAGGATCTGGAAAGCGGCCGCCTACACTACCTGGTGACGGTCGACCTTTTCAACGAAGGCGTGGACATTCCCGCCCTCAACCAGATCGTCATGCTCCGGGCCACCCAGTCAGCCACGGTCTTTATCCAGCAGCTGGGCCGGGGCCTGCGCCTCTACCCGGGCCAGGACTTCGTCACCGTCCTGGACTTCATCGGCAACTACCAGAACAACTACCTGATCCCCCTGGCCTTAGCCGGGAAAAAGCTCTCCCGCGACCAGCTGAAGTACCAGCTGCAAACCGTCAGCTTCGCCGGCCTGTCCACCATCAACTTCAGCCAGATCGCCAGCCAGGAGATCCTGGCCTCCTTGGACAAGGTCAAGCTGGACTCGCTCAAGCAGCTGCGGGAAGCCTACGCGGACCTGGCCCAGCAGCTGGGCCGGCCGCCCCTTTTGCTGGATTTCGCCAAAAAAGGGCAGGTTTCACCCCGCCTCTGGCTGGACAACAAGTCCCTGCCCCACTACGGAGCCTTCCTGGAAAAAAAGGGCCAGCCTTGCCAGCTGTCCTCTTACGAAAGCCAGGTCCTCTCCTTCGTTACTAAGGAACTGGCCCCAGGCCAGCGGCCACATGAACTTTTGCTTTTGCAGGCCCTTTTGCCAAAAGGCCAAATCAGTCAGACAGACTTCCAAGCTCTGTTAAAAAATTACGGGGCCTACGACTCACCCGCCTTGGAAAAATCTCTGGAAGCCATCCTCTCCTTGGACTTCTATGATGTCAAAAGCGGATCAACTAGCCAAAAGGCCAAGTACGGCGGCGAGCCTGTCGCCTGCTTAAAGGACGGCTGCTGGTCCTTAAATCCTCAGATTGTCCAAGCTAGTCCCGACTTCCTCCGCCTGTTTAAAGACGCGGTCGAAACTGGCCTCTTCCTCGCCAAAGAGAAAGACCCAGCGCAAGACTTCACCCTCTACGCGGCTTACGACCGCAAGGAGGTCTGCCGCCTGCTCAACTGGCTACTAGACGTCAGCCGGCCCATGTATGGCTACCGGCTGAGTGGCAATGTCTGCCCGGTTTTTATCACTTATCAAAAAACTGACCAGGAGCAAAGAAATGCCCGCTATGACAACCAGGCACGCGGCCAGCGCCTGGCCTGGTATACCAGAACTCCCCGCCACCTGTCTTCCCCGGAAGTCCAGCAGCTCTTGCGGGGGACGGAATCTGGCCAGCAAGTCACCCGGATTCCGGTCTTCGTCAAGCGGGCGGATGCCTACGGCCCAAAGTTTTACTACCTGGGCTCAGCGAAAATCGACCCTGCCACGGTACGCGAGGTAAATCTCAAGGGCAAAAGCGCGGTCGGCCTGGATTTGGTTCTGCCTGATCCCCTGCCAGCCAAAATCGCCGACCAGCTTTTCAGCAATTAA
>LACTIS1119B1_10020 membrane protein
TTGCGCGATGAACAGAATTCTTTAAGAGCAGTCGTGATGACCGGTTTGTTCGCGGCCATGATTTATATCGGCATCTGGGTCCTGCGGATCCCGCTGCCGGCAGTCGTTGGCCGGCCTTTCATCCACTTCGGCAACACCTTGACGGCCGTGGCCATTCTCTACCTGGGCTTCCGTAACGGGGCCCTGGCGGGGATCATCGGCCTGGGCGGCTTTGACATCCTCAACGGCTACGCAGCTACCAGCTGGCTGACTATGCTGGAAGTCGTAGTCGTGGCTGCCATTTTGTCCGCAGTCTACAAGGGCATGAAGTACAACGACAGCAAGAAGAACATCATTATTTTGGCGGTCATCGCCGGGGTAACCAAGATTTTTACCTCTTACGCGACGATGGTCGTGGCTGCCTTGATGGCCGGGACGGCATTGCGGCCAGCCCTGGTCGCGGCCTTCCTGAGCCTGCTGGCCACGGTGATCAACTCCTGTTCAACCGCGGTCTGCACGCCGATCCTCTACTTTGCCTTGAAAGATATTACCGTCCGCGTCATGAAGCGGGCACACTAA
>LACTIS1119B1_10030 pyridoxal kinase
GTGTTAGGGGCCAGCGGCCTGCAGACCGCGGCTTTGCCAACGGCAATTTTGTCAACGCATACGGGCGGGTTCGGGGAGAACACCTTCCTGGACCTGTCGGCCAGTCTGCCAGATATTTGGGCGCACTGGGACAAGGAAAAGATCTCTTTTGACGCCATCTATTTGGGCTACCTGGGCCAGGCGGCCAGCCGGGTCTGGGAGAAGGGGCTGGAAGAATATAGCCGGCAGGGGAAACTCATCCTGCTGGACCCGGCTATGGCTGACCACGGCCGTCTCTACCGCGGCTTTGATGACAGCTATGTTGTCCAGATGCAGCGCTTGGCCCGGCAGGCAACGATTTTGACGCCCAACTTGACCGAAGCCCTGCTGCTCTTGAATGAGCCGGTGGACTTTACTGAGTTTGACAGCCACCGGGCCTGCGTGATCATCCAGCGCCTGGCCCAGAGGTTTGCCCTGTCCCAGGTGGTTTTGACCGGGGTGCCCCTGGCCGACAACCGGATCGGGGTTTACGGGCTCAGCCGGGGCGGCCGGGTTTGGGAAAGGACCCAGGACCGGATTCCGCACAGCTATTTTGGCACGGGGGACCTTTTTGCCAGCAGCCTCTTGGCCGGCCTGCTTCACGGGCTGGACTTGGAACAGGCAGCTGGCGTGGCCGGGGACTTCGTGGCCAAGGCAATCCTGGCAACTGATTTGGACCAGGACCAGCGCTTTGGCCCTAATTACGCGGCGGCCCTGCCTTGGCTTTTGCAGCAATTGCAAAATTAG
>LACTIS1119B1_10040 GNAT family acetyltransferase
ATGCAGATTAGAAAAGCAGAATTGAAAGATTTTGACCAGGTGATGGCGATCCTGCAGGACGGGCGCAACCAGCTGGCAGAAAGCGGGATTGACCAGTGGCAGGGGGACTACCCGAACCCTGACCACGTCCGCCAGGACATCGAGAATGGCTATGCCTACCTGGCCAAGGCCGACGACGGGGAAACAGTCGGGACCTTGACCATTATTCCCGCGCCGGACCACGCTTATGATCAATTAGACGGGCACTGGCAAATCGACACGAATGACTACGTTACCATCCACCGGGTGGCTATCCACTCTGACCACACTGGTCACGGCTATGCTTCTCAACTCTACCAGGCAGTGATCAACTACTTCGCCAGCGGCTTCAATGACATCAAGTCCGTCAGAGTCGACACCCATGAGGATAACCTGCCCATGCAGCACTTGATCGAAAAGAGCGGCTTTAAGCGGGTCGGCACCCTGCATGGGGTCTACCGGGAAAACGAGACCAGCTACGTTTACGAACTTCTGACTGTTTAA
>LACTIS1119B1_10050 lysin
ATGAGCTTCGCCGGCCTGGCACAGGCCAGCACGACCAGCGCCAGCAGCCGTTCTTATGGGGTTGACGTGTCAAGCTACCAGCCAACCAGCACGACCAAGTACAGCAAGGCGGGCGCTCAGTTCGTCATTGTCAAGGTAAGCGAAGGCACCAGCTACCGGAATCCAAACGCCAAGGCACAAGTAGCCAGCGCCAAGGCCAACAAACTGTTGCCAATGGCCTACCACTTCGCCAATTTCGGTTCCAGCTCATCCAGAGCTAAGAGTGAAGCGGACTACGCTATCGCCAGCGCCAAGGCAGTCAAGCTGCCAGTAGGCTCATACCTGGCTATCGACTGGGAAACCAGCAGCGGCAACTCAACCAGCGGGAGCAGAAGTGCTAATACCAGCGCCATCATGGCCTTCATGAAGAAGGTTAAGGCAGCTGGCTACCAGCCATTGCTCTACTCTGGTTCTTACCTTTTGAACAACGCGATCAACATGAGCACGGTTACGTCAACCTACCCTAACTCATTGTGGGTAGCCTACTACACCAGCTCAGGCCGGATCGACGCGCCAGACTTTTCATACTTCCCGTCAATGAACGGGGTCATCATCTGGCAGTTCACTGAAAACTGGAAGGGGCTGAATGTTGACGGGAACATCTCAGTTCTGCCTCTGTCAATCAGCTCCAGCTCATCATCCAGTTCTTCATCAAGCCCATCTAAGACGCCAGCCAGTCAAGCACCTGTAAGCAAGACTAAGAAGAAGATCATGTCTAAGTCTTACGTCTACACTTCCGCCGGCAAGAAAACCGGTGCTTACAAGAGCGCGTACACTTACGTTTACGTGATCGGCGGGATCGTCAAGATTGGCAGCAGCAACTACTACAAGATCGGGACCAACCAGTACATCAAGATCAACAACGTTGATGGTACTGCCCGCAAGCTGGTTCACAATGCTTGGACTTACAATAGCAAGGGTAAGCGGGTGAAGTCAGTTGCTACCTTAAAGAAGGGCAAGCAGGTCTTCACTTACGGCGGCAAGCGGAAGATCGGTAAGAAGACTTACTACCGGATCAACGTCGGCCGTTACATCAAGGCAGGCAACGTTAAGTAA
>LACTIS1119B1_10060 hypothetical protein
ATGTTAGAAAAATATTTTACCTGGCTGGCAGAAGTACTGTTAATCATAGTAGTAGGCTTGGTCTTCATAACTCTCCATTCTCTCTACTATAGTTATGGCATGATGATTTTTGGTGAGCATTCCGCGGCAGCAACTGAAATGTTTTGGGAAAGCGAAAAGCTTTGGAGTAGCATTTACACTGTCGCGGTGATAGTCATTGCTGTAAGCACGCAAATCGTCAGATCTTTTAAAAGGAGTAAGAAGTAA
>LACTIS1119B1_10070 ABC transporter permease protein
ATGAAAGCAATAGCTGTCAGCGATCTGTCATTAATCTTGTCTTTTGCCCTTGTCCTGGTATCCGTGGCGATTTCCTGGAAGGAAAAGCTGGGCTTGACCAGGGACATTTTTTACAGCGTGGGCCGGGCTATCGTCCAGCTGGTCATTGTCGGCTACGTCTTGAAGTTCATCATGCAGGTCAACAATGCCCTTTTGACCCTCTTGATGACCTTATTTATCATTTTTAACGCGGCCTGGAACGCCAATAAGCGGGATCCCAATCCGAACCGCCAGCTCTGGCAGTCAATCATGGCCCTTTTGATCGGGACTTACATCACCTTGGGCGTATTGCTGCTGACTCAGACGGTGAAGCTGAAGCCGATGCAGATCATTCCGATTACGGGGATGATCGCCGGCAATGAGATGGTGGCTATGGGTCTGTGCTATAAGGTTTTAGCCACGGGTTTCCATGACCAGCGCCAGCAGGTTTTGGAAAAAATCTCCCTCGGGGCTGACGTGAAGACGGCCAGCATGACCATCCTGCGGCGGAGCATCAAGACTGCCATGCAGCCGACGATCGATTCAGCTAAGACGGTGGGGCTGGTCAACCTGCCGGGGATGATGTCTGGGTTGATTTTTGCCGGCGTGGATCCAGTTTATGCAATCAAGTACCAGATCATGGTCACTTTCATGCTTTTGTCAGCGACTGGCCTGGGCGCCGTGATCGCGGGCTACCTGTCCTACCGCAACTACTTCAACAAGCGGAGCCAGTTGCGGGAAGAGCAGTAG
>LACTIS1119B1_10080 ABC transporter ATP-binding protein
ATGGCACTCATTGAACTCAAGCAGGTGTCCTACCGGGCAGGTGACCAGGAAATCCTGCAAGACGTCTCCTTTGCCGTGGAGGAGGGGGACTACCTCACCTTGACCGGACCGTCGGGCAGCGGGAAAAGCACGACTTTGAAGCTGATCGCGGGCTTGATCTCACCTAATAAGGGGGAGATTTTTTACAAGGGGCAAAATCTTGATAGCCTGGATCTGGTCCAGTATCGCCGGCAGGTGTCCTACTGCTTTCAACAGCCAACCTTGTTCGACGAAACGGTTAAGGACAACCTGGCCCTGCCTTTTGCCATCCGCAAGCAGGACTTTGCTGAAAAGCGGGCCCAGGAAGCTTTGAAGCAGGTAGATTTGCCAGCTGACTATTTGGATAAAAAGATTACCACCCTGTCTGGTGGGGAGAAGCAGCGAGTGGCTTTGATCCGTAATCTGCTTTTCCGGCCGGAGCTCCTCCTGTTGGACGAAGTGACGACCGGGCTGGATGAAGAGAGCAAGCAAATCGTCCATCAGCTGATCGCCCGGGTGCACCAGGAGGGAACCACGATCGTGCAGGTGACCCACGACCAAGAGGAGCTGGCCGCTTCCAAGCAGCTCCTGCACATGGAAAAAGGAGGAGTTTTGAAATGA
>LACTIS1119B1_10090 hypothetical protein
TTGCGGGTTTACGCCAAAAATAAGGTCTTCGATTGCCTGGGCACCCTCAAGGATTATGAAAAAAGGTATCCAAGCTTGATCCCTGCTGACCGGCAAAGCTTGATAAACCTGGATGCAGTGCAAAATTACGACGAAAAAAAGGGCATCGCCTATTTTGATCAAGGCGTTGTCCATTCCGTAGCCGTCCGGCGGCGGCGGTCAATCATGCTAAAATTGAATGCCACAAAAAAAGAGCCGTGA
>LACTIS1119B1_10100 hypothetical protein
GTGTTAAATAAAGAAAGACTTATTCTAATTATTGAAAATTTCATCTTTTCATTTCATAGAACTTTGCTAAATGTCTATATTCCATTATTAGTTGCAAAAAAGATTCCTAACTTGACATGGATAGCTCCAACTGCATTTGTATGTAACACAATTGTGATTGCTCTTTTTCAAGGGACTACAAATAAGTTTGCTGTTCAAAAGAAAGCATATGATCTTTTTTGGATTATTTCTGGATTTTGTTTAGTAATGTCATTTTTAGGAATAGTTGTTTCCGGTATCTTTAACGCAAACAATACTTATTTGATATTACTAGTATTTCTAATTGTTATGCAAATAGTAGCTGAGTTATTTAGCTCCGCAGCACTAGCTGTTTATATGGTTGAATTTAGTAGATCTCAATATTTAACATTAGATTTAAGTGCAATAAACTTAGGGGGGCAATTACAGAACATTGTAGGACCAATGATATTTGGAGAATCTGCCGCATCTAATTCGTTGGCTCCTTTGAGTATGTGTGTTTTGACTTTAAGTTTTACGGTGATTGAGTTAAGAAGAATACTTAGTTTATGCAGAAAAAAAATAGCACAATGA
>LACTIS1119B1_10110 hypothetical protein
ATGAAAATTGGCGAAGCACTGCGTAAAAAAAGATTGGAACTAGGGTTGACCCAGCAAGAAATGTGCGAAGGCATCCTTAGCCGACCTTTTTATGCAAAGGTTGAAAGTGGAAAAAATCGAATTAACGCGGAAAGCTTGTTCAAAATATTATTCGCGCGGCAAATCGACCTTGTCGAATTTGGCAAGCTGGTTCAAGGAACGTACGATTCGGCAGAAAATAAGGCTGAGAAGCGGTATCAAAGCCAGATGAACGTGGCAGTAAGTACCAAAGATCTTAAATTAATGGAAAAATACTGTCAGGACATAATTGAGTCGTCGAATGATGAAATCTTACAATTGCGTGCTTTGGTAGCTTTGGCTTACTTTAAAGGTGAATTGGGAGGCCTTAGCAAGGAAATTCGCGTGAAAATAAAAGAAAAATTCGATGAGGGGCGCAATTGGACCAAACGGCCAGAATTGCTGGGATTGCTTGCGAATACCATGCTTTTATGGGACCAAGATGACTTGAACTATTGGATTGGCGATCTGCTTAAGAAAGCCAAAAAAAAAGCAGTTTCAGATTTAATACTCGAAAGATATCTCAGACTGTTTGAAAATTATTTGGTTATTTGCTATGAACGGAAAGCAGATGGAAAAGAGTATCAAAAAAATCGCGTTGATGAAGTGATCAAATACATCATTAGCGTTACGGCGCCCTTTCAGCTGATGATATATAGGATTACGGCACTTTACTTGCATGCTTTGCTCACAGATCAAAAAGGCAAGGCCCAAAAAATCAAAAAAGATATGGAAGCTTATGGCTATGGAAACGCAATTGCCAGTTGGCCTGAATAG
>LACTIS1119B1_10120 magnesium transporter MgtC
ATGGAAAAATTTACCGGCATACCTGTCAGCTTTCAACTGGTCTGGCTTCTGCGGATCCTGCTGTCCGCCTTTTGCGGCGGCCTGATTGGCTCTGAGCGGGCAACACAGAGAAAGAGCGCGGGCCTGCATACTCACGTCGTGGTAGCCATTGCCTCCACCCTGTTTTCTATCGTCTCCAAGTATGGGTTCTACGACATGCTCACTTTCAGCAACGTTTCTTACGATCCATCGCGAATCGCCTCTTTGACGGTCACGGGAATCTCCTTTATCGGTGCCGGGACCATCCTGGTCCATAAAGAGCAGATTTCCGGATTGACGACCGCCGCGGGACTCTGGGCCACTTCAGCCATCGGAATCGCGATTGGGGTCGGCCTTTACTGGATTGGAATCGTGGCCGCCGTCCTGATCCTGCTCGTGCAGCGCTTTTTGCGGGAAGAAACGGTCCTCAACCTGCTCCGCAAGGTCAGAATCAGCCTCTTGATCGAAGCCAGCAACACGCCCCATATCCTGGAAACCATTCAAAGCGAACTGGAAAAAAACGAGGTCCACCAGCTCAGCATCAAGATCATCAGCGTCTCTGACGACCATGTCCTTTTCAGCTGCGATGGCGAAATCGCCGGCCGGATCGATGAAAACCAGATCATCATGAACCTGCGCAAATACCCGGATATCAAGCGCATCACTTACTCGCCCGGCAGCAAGTAG
>LACTIS1119B1_10130 hypothetical protein
ATGAAAGTTGTAACAGTTAAGTCAATCTGGCTGACCCTGCTCACGGTCTTGAGCTTTGTCCTGCCATTTTGGGGCTGGCTGCCACTGGTGTACTTGTACAGCCAACGGCAGGATCCGGCCATGCAGGGGATGGAAAAGACACTTAAGCTCGCGGCTGGCGTGCAAGTAGCGTACTTGGTGATTTTGGCGGTAATCTTCTACTTCTTTGCCCCGATTCACGGTTAA
>LACTIS1119B1_10140 hypothetical protein
ATGACGGAACAGATAGAAGAAGTACCGGCGGAATTAATTCAGACAAGAGTCTATGAACTACGTCCCAACGAGACTATGAGAAGAGTTCTGGATGAAGCTTGTGACTATCGCCGCTATTGCTGGAACCAAGGCCTTGCCTTGTGGAATGAAATGTACAAGGCAAGACAAGCACTTAAATCTTCTTCGGCCTCCGACTCCAAAAAGCTGACTGAAGAGCAGAAAGTGTTGCTTAAAGAAAAGCCGTCGCCGAGTGAGCGAAGAGTTCGTAATATGTTAGTTGCCGATAAAAAAGACTGGCAGTATACACAGTCAGCCCGGATTCTACAACTGGCAATTTCCGACCTGGGCAAGGCTTGGAACAATTTCTTTGATAAGGCCCAACCAGGCTGGGGCAAACCAAAATTTCGGTCGAAACGGGAAGCCAGACAAGGTTTCAAAAGCGACCGAAGCAAGATCAAAGATGGAATTCTTTATTTGGAACGGGCAAGAGGAAGCAGAGTTCCGAAAGATCAATGGCGTGGCTTTAAGCTGAGCGAAAAGCCTTTGTCAGATGAATTTGGTGTTGTCAGCTACTTCAAAGAAAAAGGCCGTTATTACGTTGCTATCCCGTATAAGATCAAGGCTGAAGATGTTAAGCTGCCAGACAAAACAGGTAAAGCTACCGCGGTTGACGTCAATGTTGGTCACTTTGATTACACGGGTGGCCGGGTGAACGTACTGCCTAAGAAGCTTGATAGAATTTATAAAAAAATCAAGCACAATCAAAGGCAGCTTGCCAAAAAAGCGAGTCCAAAATGGAGAAGCTGCTTGCGAAAGCAAGAACTACTTGAAGACGAAAGCCAAGCTTCAAGCGTGCTATCGCAAGGCAAGCAATATCCAAAACGACTTGATGCACAAATTTACGACCGAACTGGTTAA
>LACTIS1119B1_10150 hypothetical protein
ATGCACAAATTTACGACCGAACTGGTTAATGACTACGACAAGATCGTGATCGAAAATCTGTCGGTTAAGGGCATGCTGATGAGCCACGTGGCTTCAAAGGGTGTTCATCGGTCGATGTTTGGCAAGTTTAAGCAGATCTTGACCTACAAGTGCGATTGGTATGGTAAGGAACTTATCCTGGCAAATAAGCTGTATCCGTCTACTCAGCGTTGTGCGGCCTGTGGCAATGTCAAAAAAGGTGATGACAAGATCACCCTTTATGGAAACAAGAAGCATGGTACTAAACACAATGAGTACGTCTGCTACAACGAAAAATGCCCGAACTACAATAAGGTCGTAGATCGAGATAAGAATGCGATGCTTAGTCTTTTAGCGCTGACTGAGTACCCAGAATTAAATCATGCACTATAA
>LACTIS1119B1_10160 esterase
ATGGCATCAACATTAGACTATCTGCGCTGGCGAGGCGATCTGCCTTTTCAAACTTGCCCTTTCAACAGCCTGGATGCTTCCTTAATGGCATCCCTGGCCTACCTTCCCTTTGACGGCAGTACGGTTGGCCACAGCCTAGGCGAGGTCTGTCAGTCCATCTACCAACGTGAGCCTGACCGCTGGCAAAATCTGGACAAAACTGAACTCCTGCTCTTGCCTAAGTCTCCCCGTCTGGCTGACTTGACCGTTCTGGACTGGGTCAACAAGATGGAGATTGAGCCTGAACCCATCCAGTTCAACGCTGGCGCCTTCCGCCTGGACGATCGGACCATCCTGGTCGCCTACCGGGGCACCGACCAGTCCATGATCGGCTGGAGCGAGGACATGGTCATGAATTATACACCGGAAATTACCGGACATAGGCTGGCCGCTAAGTATCTTAACCAGATCGGCCAAGCTTACCCAAATGACCGGATCTATATCACCGGCCACTCCAAGGGGGGCAACTACGCCCACTACGCTTTGGCCTTTGCTGATCCGCAGATTCAAGCCCGGGTCATCAAGTCATACAGCTTTGACGGACCTGGCTACCGGCACCAAATTTACGGAACCAGCGGCTTCCAAGACAATATCAAAAAGATGAAGACCTACATCCCGGAAAGCTCCATTGTCGGCTGCATGCTGGACCATACTGAGCGCGTCTTGGTCGTCAAGTGCAACCAACCAGTCCTCAGCCAGCACGACCCAAGAACCTGGAGCGTTGGCCGGGATAGCTATGTTTTGGCGCAAGAGGGCCTCACGGCTACAGCCCGGGTGATCCGCCACTCCCTGATCGCCTTCAACCACCAGATTCCCGCGGAAAAAAGAGAGCAGATGTGGTCCGCCCTTTTTGAGGCTTTTGGCAGCCTGGACATCACTAAGATCAAACAGATCAGTGGTTTTACCGGCACCTACCGCTTTGGCCGGGCATACTTTGCCATGGATCCGGAAATGCGGGCTATCTTCAGGCAGATTTTTAACAACATCATTGAAACGGCCCGGCAGAGCCTTACCCTGCCCTTCAACAGGAGCGAGGATCCTTACAAGAACCGGCCGAATTTCAATGACTCAAAGAAAGGGCCAATCTTCTTTGATGCCTACGACATCAAGCAAGAATAA
>LACTIS1119B1_10170 replicative DNA helicase
ATGGATAATCTTGTCACGCAGCAGATCCCGCATGATTCTGCTGCTGAAAAAGCCGTTTTAGGGGCGATTTTCATTGATCCCGAAGTCATCAACGAAGTCAGCTCGGTCTTAGAGCCGGCTGACTTTTATGAACATGCCAACCGCCTGGTCTATAGCGCCCTTTTGGCCCTCTATGACGAGAGCAGGTCAATCGACCTGGTTACCTTGCAAGAGGAGCTCAAGCGGCGGGGACAATTGGAAGAACTGGGCGACATGGCCTACGTGTCAGAGCTTTTGCTGGCAACGCCAACTGCCTTTCACGCCAAGGACTATGCCCGCATCATCCACCAGAAGGCCCAGCTGCGCAACTTGATCAATGCCAGCCAGAAGATCATCTCCAGTGCCATTCAAGGGTCCGACAGCGTGGATGAGATCCTCAGCAACGCTGAAAATGAGATCATGAACGTCTCCAATGAAAAGGGGAGCGGGGGGTTTCATAAGATTGAGGACCTGGTTGCCGGAGCCTTTGAGCAGATTTCAAATAATGCCCAGAATCAGGACGCGGTCACGGGTTTGCGGACGGGTTTTGCCTATCTGGACGAGATGACGACGGGGCTGCATGATGACGAATTGATCATTTTGGCGGCCCGGCCGGGTGTCGGGAAGACCTCTTTTGCTATGAACATCGCCAAGAATGTGGGCGTTACTGAGAAGAAGCCGGTAGCGGTCTTCTCCCTGGAAATGTCTGGTGAGCAGCTGGTGCAGCGGATGCTGGCCTCAACGGGCCTGATCGACTCCCAGCACCTCAGAACGGGGATCCTGGACAGGGATGAGTGGAACCAGCTGGAGATGGCAGCGAGTGTCTTGCGGCAGGCTCAAATCTATATCGATGACACGCCGGGGATCAAGATCAGCGAAATCCGGGCTGAGTGCCTGGCCCTGCAAAAGGAGCTGGGCGACCTGGGCCTGGTCGTGATCGACTATCTGCAGCTGATTGAAGGGCCAAAGACTGAGTCCCGCCAGCAGGAAGTTTCCGCGATCTCCCGCCAGCTCAAGAAGATGGCCAAGGAATTGCATGTGCCGGTAATTTCCCTGTCGCAGTTGTCGCGGTCAGTTGAGCAGCGGCAGGACAAGCGGCCAATTTTGTCAGACTTGCGGGAATCCGGGTCAATCGAACAGGACGCCGACATCGTTGGCTTCCTCTACCGGGACGATTACTACCGGGATGAGGATGCTGACGGCGAGGAACCGAAGGAAGATCCGGAAAACGTTGAAGTTGAAGTTATTATTGAAAAGAACCGGTCAGGCCGGCGGGGATCAGCCAAGCTGATGTTCTCCAAGCCTTACAACCGCTTCTCTAACCTGGACCCAGGCCATGAGGCCCAGGGGTAG
>LACTIS1119B1_10180 50S ribosomal protein L9
ATGAAAGTTATTTTTATGCAAGACGTTAAGGGCAGAGGCAAGCGGGGCCAGGTCAAGGACGTGCCGGACGGCTACGCCCAAAACTACCTGATCAAGCGGGGCCTGGCCAAGGAAGCCAACAAGGGCAACCTGAACACCCTGAAGCGGGTGGAAGCCAATGAAAAGGCTGAATACGAAGCTCAAAAGGCAGCTGCCCAAGAGATCAAGAAGCAGCTGGAAGCTGACGAAACTGTGGTTGAACTGAAGTCCAAGGCCGGCAGCGACTCCCGCCTCTTCGGTTCAATCTCCAGCAAGAAGATCATCGAAGGCCTGGACAAGCAGTTCGGCATCAAGCTGGACAAGCACAAGCTGGAACTGCGGGAACCAATCAAGGTTTTGGGCTACACTAATGTGCCAGTCAAGCTCTTCAAGGGCGTTGAATCAAAGGTCCGGGTCCACGTTACCCAAGAAAATTAG
>LACTIS1119B1_10190 DHH family phosphoesterase
ATGAAAAACTTTTTACGCAAACTTGAATTGCCAGAATTCGTCCGGGATTCCAGATTAATCATTGCCTTCTCCAGCATCGCCTTCTTGACTGTGCTGAGCACGGTTGTGGCTTTCTTCATCAACCGGATCTTCGGGGTGGCGCTTTTGCTGGTCTTGATCGTGGATGTCTTTTGGGTCGTTTTCGGCGTTTACATTCTCGCGAAAAATACCAACAATTACGCGGCCAACCTCTCCTACCGGATTAAACGGGGGGAGCAGGAGGCCATGATCAAGATGCCGCTGGGGATCCTCCTTTACGACGAGTCCCGGCACATCCAATGGGTCAACCCTTACTTGCAGCTCTATCTGGGCGACAAGGACGCCATCGGCAAGACGATTACGGCGGTCGACCGAAAACTGGGCAAGCTGGTTGAAGAAGCCCTTGAGGCCCAGACTTCGGAAAGCAAGGTGGTCAAGTGGGGGGATCACCAATTTGAAATGGTTGTCCAAGACAGCATCGGGGTCATCTACCTGCTCGACATTACCCGTTATGCCGACCTGGCCGACAAGTACCGGGCTGAGCGCCTGGCTATCGGGCAGATTTTTGTCGACAACTACGACGAGCTCAGCGAGCGGATGCACGACCAGGAACTGGCCAGAACCAGCACCTACCTGCAGACGACCTTGAACGACTATGCCAAGAAGTTCAAGGCCTACTTGAAGCGGATTGATGAGGACCACTTTTTGCTTCTGGCCCACTTGCAGGACCTGGAAGCCATGGAAGAAGACAAGTTCTCAGTTTTGGACAAGATCCGCCTGGAAACCAGTCGGAACAACACTCCTTTGACCTTGTCGGTCGGGATTGCCTACGGGGGCGAGTCGCTGAGAAAGATCGCCAACCAGGCCCAGGCCAACTTGGACCTGGCCCTTGGCCGGGGCGGGGACCAGGTGGTCCTTAGGGAACTGGGCCAGGTAGCCCGCTTCTACGGGGGTAAGTCCAACCCAATGGAGAAGCGCACCCGGGTCCGGGCCAGAATGGTTTCCCAGGCCTTGGGCGAGCTCTTCAAGGATGTTGACCAGGTCTTCGTCCAGGGGCACCAGCGGCCCGATATGGACTCTGTCGGCAGCGGGATCGGGGTCGTCAAGATCGCCCGCCTGCACGGGGTCAAGGCCCACTTTTTGCTAGACACAGCCCACTGCAACTATGACGTTGACCGCCTGGTCAAGAAGATGCAAGCGGCAGACCCCCAGCTGGACCTTTTTGTTAGTCCGGATGAGGCCAACGCGGTCGCGACGGACAACTCCCTTTTGGTCATGGTGGACCACTCCAAGTACTCCATCACTTATGACCAGCGCCTCTATGACCGCTTGAGGAACCGGATCGTGGTGATCGACCATCACCGGCGGGGGGAAGAATTCCCGGAGAACCCGATGCTGACTTATGTGGAGCCATATGCTTCCTCAGCCAGCGAACTGGTGACGGAAATGGTCGAATACCAGCAGCCGGCTGAAGACAACCGGGTTTTGACCAACCTGGAAGCCACGGCCATGCTGGCCGGGATCACGGTCGACACCAAGGAATTCTCCTTGCGCACGGGGACGAGAACCTTTGACGCGGCCAGCTACCTGCGGTCGATCGGGGCGGACTCCTCGGTGGTCAGTGAGCTTTTGAAGGAAGACATTTCCAGCTTCCTGGTCAAGAGCCACCTGGTGGCCAGCCTGCAGATGCTGCGGCCGAAGATGGCGGTCATGCAGGGGCCGGAGGACAAGGTGATCGACCCGATCTTGACGGCCCAGGCAGCCGATATGGCGCTTGATTTGGAAGGGGTGTCGGCATCTTTTGCCATCACCAGAAGAAGCGGGGACAAGGTCGGGATTTCAGCCCGGTCGATGGGCCACATTAACGTCCAGGTGATTATGGAGAAGCTGGGCGGGGGCGGCCACTTGTCCAACGCGGCGACCCAGATCAAGGATATTACGGTCAAAGAAGCCAGTCAGCGCTTGCTGGCGGCAATTGACGAATATCTGGAAGAAAACAGTTAA
>LACTIS1119B1_10200 30S ribosomal protein S18
ATGCCTCAACAAAGAAGAGGTGGTCGTCGTCGTCGCAAGGTTGACTTCATCGCAGCCAACCACATCGACTACGTAGACTACAAGGATGTTGATCTGTTGAAACATTTTATCTCAGAAAGAGGTAAAATCTTGCCACGTCGTGTCACTGGTACTAGCGCTAAGAACCAACGCAAGGTTGCTAAAGCTATCAAGAGAGCCCGGATTATGGGCCTCCTGCCATTCGTAGCTGAAGACTAA
>LACTIS1119B1_10210 single-stranded DNA-binding protein
ATGATCAATAACGTTGTACTTGTTGGCCGTTTAACACGTGATCCTGAATTACGTACTACTGGGAGCGGCATCTCGGTTGCTACGTTCACTTTGGCCGTTGACCGGCAGTTTACCAATGCATCAGGCCAGAGAGAAGCGGACTTCATCAGCTGCGTGATTTGGCGCAAGGCTGCTGAGAACTTCTGCAACTTCACCAGCAAGGGCAGTTTGGTGGGCATCCAGGGCCGAATCCAGACCAGAAACTATGATAACAAGGACGGCCAGCGAGTTTACGTGACAGAAGTCCTCGTGGACAACTTCTCACTGCTCGAATCACGCCGCGAGCGTGAAAGCCGTCAGCAAAACGGCGGATTTGGCGGCCAAGGTCAAAGCCAAAACACCGGCTTCAACACCGGATTTGGCGGCGGCAGCGGCTACGCCAACGACAACGCCTTCGGCAGCCCGGCCCAGTCAAACGGGCCAGCTAATGCCGGATTCAATGAAGATAACAAGAAAGATGCCGGCGGAGACACGAACACCAACCCGTTCGACAGCTCTGACGATGCAATCAACGTCTCAAATGACGATCTTCCATTTTAA
>LACTIS1119B1_10220 30S ribosomal protein S6
ATGACAACCAAGTACGAAATTACTTACATCATCAAGCCAGACGTTGACGATGAAGCAAAGAAGGCCATTATTGACAAGTACACTAAGGTGATCGCTGACAATGGTGGTGAAATGGTTGAAGCTAAGGACTGGGGCAAGCGTCGTTTCGCATACGAAATCGAAAAGTATCGTGAAGGTAGTTACTATATCATGACCTTCACTGCTGAAGACGCTGCAGCTGTCAACGAATTTGCCCGTTTGAGCAAGATCGACGACTCAGTTCTGCGTTCAATGACTGTCAAGTTAGACAAGTAA
>LACTIS1119B1_10230 DNA gyrase subunit A
ATGGATAACGAAAATCAAGGACAAGACCGGCGGATCAGAAATGTCGATCTGACGCAAACGATGCGGAGCTCCTTCTTGGACTACGCCATGTCCGTCATCGTGGCCCGGGCTTTGCCAGATGTCCGCGACGGCTTGAAGCCGGTTCAGCGGCGGATCCTGTACGGGATGAACGAGCTGGCCGTGACTCCGGACAAGCCTTACAAGAAGAGTGCCAGAATCGTCGGGGACGTCATGGGTAAGTACCACCCGCACGGCGACTCCTCTATCTACCTGGCCATGGCCCACATGGCCCAGGACTTTGCCTACCGCTACATGCTGGTAGACGGGCACGGTAACTTCGGTTCCGTCGACGGCGACCGGCCGGCCGCCATGCGTTATACTGAAGCCAGAATGAGCAAGATTGCCGTGGAAATGCTCCGCGACATCAACAAGAATACGGTTGACTGGCAGAGAAACTACGACGACACGGAAAATGAACCGACCGTCCTGCCAGCAAGAATTCCTAACCTCCTGGTCAACGGTTCCAGCGGTATCGCGGTCGGGATGACTACCAACATTCCGCCGCACAACCTGTCTGAAGTCATTTCCGGCATTCACATGCTGATGAAGAACCCGGACGTGACGACCAAGGAACTGATGAAGGCCATCCCAGGGCCGGACTTCCCAACCGGCGGGATCTTGATGGGCCGGGGCGGGGTTCTGCACGCTTATGAAAGCGGCAAGGGCAACATCGTCGTCCGGGCCAAGACCGAAATCGAAACTGAAAAGAGCGGGCGGGAAAGAATCATCGTCAGCGAGATTCCTTACCTGGTCAACAAGGCCGAACTGGTCCAGAAGATCGCTGAACTGGCCCGCGACAAGGTGATCGACGGCATTACCGGGGTGCGGGATGAATCCGACCAGAGCGGGATGCGGATCACGATTGACGTGCGCCGGGATGCCAGCGCCAGCGTGGTTTTGAATAACCTCTTCAAGGAAACTCAGATGCAGTCCAACTTCGCCATGAACATGGTGGCGATCGTGGACGGGGCACCGAAGTCCCTGACCTTGAAGCAGATGCTGCAGTACTACCTGGCCCACCAGGAAGACGTCATCACCCGCCGGACCAAGTTTGACTTGGAAAAGGCTGAAGCCAGAGCCCACATCCTGGAAGGTTTGCGGGTAGCGCTGGATCATATCGACGAAATCGTCAGCTTGATTCGGAACTCTGAATCAAGCGACATCGCCAAGGCGGGCTTGATCAGCCGCTTTGACCTGGACGACCGTCAGGCCCAGGCTATCCTGGACATGCGTCTGGTCCGCCTGACCGGTTTGGAAAGAGACAAGGTCGAAGGCGAATACCAGGAGCTTTTGGTCAAGATTGCCGACTACAAGGACATTCTGGCCAAGCCTGAAAGAATCGACCAGATTATCTACGACGAGCTGCTGGACATCCAGAAGCGCTTCGGTGACAAGCGCCGGACCCAGATTACGGCCAGCGAAGTGGTCACGATCGAAGACGAAGACTTGATCGAAGAACAAGACGTCCTGTTGACTTTGAGCCACCAGGGCTATGTCAAGCGGATGCTGATCGACGACTTCAAGACCCAAAACCGCGGCGGCAGGGGGATCAAGGGGATGGGTGTCCAAAAGGGCGACTTCATCGAGCACCTGCTCTACTCAAGTACCCACGACTACCTATTCTTCTACACCAACAAGGGCAAGGTCTACATGAAGAAGGCCTACGAGATCCCAGAATACGGCAGAAGCGCCAAGGGCCTGCCAATCGTCAACCTCCTGCAGCTGGACAAGGGCGAGCACATCCAGACCGTGGTCAACCTGCCGCAAGGGCATGACGACGACTACGCCTTTTTCATCACCAAGCTGGGGACGGTCAAGCGGACCAAGATCCGGGAATTTGAAAATATCCGGACCAACGGTTTGATCGCCTTGACCTTGAAGGATGGCGACGAACTATCCAACGTCCTGACCACTGACGGCCAGCAGAACATCTTGATCGCTACCCACCAGGGATACGCCGTGACCTTCAATGAAGATGACGTCCGGGCCATGGGGAGAAGCGCGGCCGGCGTCCGGGGGATCAACCTCCGCGAAGGCGACTACGTGGTTGGCTCAGGGATCTTGAAGCCGGAAGACGAAGTTCTGACTATCTCGGAAAAGGGCTACGGCAAGCGGACCGCGGCCAGCGAATACCCGGTCAAGGGCCGGGGCGGCAAGGGGATCCAGACCGCCAAGATCGGCGAAAAGAACGGTCCTCTGGCTGGCGTGGCCGTGGTTGACGGGCAAAGCGACATCATGTTGATCACCACTGACGGGATCATGATCCGCTTCAAGACCAGCGATGTCTCCCAGACTGGCCGGTCAACTATGGGCGTCCGCCTGATCAAGGTGGCTGACGGCAATGCCGTGGCAAGCATGGCAGTCGTGCCGGCTGAAGCTGAAGGCGAAAGCGAGCCGGAAACGGAAGTTTAG
>LACTIS1119B1_10240 DNA gyrase subunit B
ATGGCAGACGAAGATAACAAATTGAAGAAGGCTAAGCAGTTTGAACAAGAAGCTGACAAGTACAATGCCAGCCAGATTCAAGTCCTTGGCGGCCTGGAAGCCGTACGCAAGCGTCCGGGGATGTACATTGGCTCAACCAGCTCCCAGGGCTTGCACCACCTGGTTTGGGAAATCATCGACAACGGGATCGACGAAGCCCTGGCAGGTTTCGCGACCAAGATCGAAGTCACCGTCAACGAAGACAACAGCGTGACTGTCCAAGACGACGGGCGGGGGATCCCGGTCGACATCGAAAAGAAGACCGGCCGGCCAGCCGTTGAAACTGTTTATACGGTTCTGCACGCCGGTGGTAAGTTCGGCGGTGGCGGATACAAGGTTTCCGGCGGTCTGCACGGGGTCGGGGCTTCTGTTGTCAACGCCCTGTCCACCAAGCTGAACGTCACTGTCATGCGGGATGGCAAGAAGTACCACATCGCCTTTGACCACGGCCGGGTCGTTGAAGAGCTGAAGGAAGTCGGCACGGTGCCTTTGACTGAACACGGGACCATCGTCCACTTCTGGCCGGACCCGAACATCTTCACGGAAACCACGGTTTTTGACGACAAGATCTTGAAGAACCGGATCCGGGAACTGGCCTTCTTGAACAAGGGGCTGAAGCTGACCTTCACTGACAAGCGGAAGGACACGGCGGAAACCGACGTCTACCACTTCGAAGGTGGGATCAAGGAATACGTCTCCTTCCTCAACCGGGGCCAGGAGGTACTTTTTGACGAGCCAATCTACGTGGAAGGCAAGTACGAGGGCATTGACGTTGAAGTATCTTTGCAGTACACGACCGGCTACAAGACAACCTTGATGACTTTTGCCAACAACATCCACACTTATGAAGGCGGGATGCACGAGGCGGGCTTCAAGACGGCCTTGACCCGGGTGGTCAACGACTATGCCCACAAGGCCAAGATCTTGAAGGAAAACGATGACAACCTGTCCGGGGAAGACATCCGGGAAGGGATGACGGCCGTGATTTCCGTCAAGCACCCGAACCCGCAGTTTGAAGGGCAGACCAAGACCAAGCTGGGCAACTCCGACGCCAGAACTGCCGTTGACCGCGCCTTCTCAGAAACCTTCTCCACTTTCTTGATGGAAAACCCGCAGGTGGCCCGCAAGATCGTTGAAAAGGGGCAACTGGCCGAAAGAGCCAGAGTTGCCGCCAAGCGCGCCCGGGAAGTTACCCGGAAGAAGTCCGGCCTGGAAATCGCCAACCTGCCAGGCAAATTGGCCGACAACACTTCAAATGACCCGAACATCTCAGAACTCTTCATCGTCGAAGGGGACTCCGCCGGCGGCAGCGCCAAGCAAGGGCGGAGCCGGCTGACCCAGGCCATCCTGCCCATCCGGGGGAAGATCCTGAACGTGGAAAAGGCCTCAATGGACCGGATCCTGGCCAACCAGGAAATCCGGACTCTGTTTACGGCCCTGGGGACCGGCTTTGGGGCAGACTTTGACATCTCCAAGGCCCGCTATCACAAGCTGATCATCATGACTGACGCCGACGTCGACGGGGCCCACATCCGGACCCTGCTCTTGACCCTCTTCTACCGCTACATGCGGCCGATGATCGACAAGGGCTATGTTTACATCGCCCGTCCGCCTCTGTACCAAGTGCGCCAGGGCAAGCTGATCAAGTACCTGGACACTGATGAAGAACTCCACGACTACCTGGGGTCATTGCAACCAAGCCCGAAGCCAATCGTGCAGCGCTACAAGGGGCTGGGGGAAATGGACGCTGAGCAATTGTGGGAGACGACCATGGACCCTGAAAACCGCCGCCTGGACCGGGTGGACCCGGAATACGCCAAGGACGCGGATGAAGTCTTTGAAATGCTGATGGGCAACGAAGTTGGCCCGCGGCGCAAGTTCATCGAAGACAATGCCCAATATGTTGAAAACTTGGATACTTAA
>LACTIS1119B1_10250 DNA replication and repair protein RecF
ATGTACCTGGGCCGGTTTAAGCAGAGCGGTTTCCGCAACCTGGCTCTCCTTGACCTGGAATTTGACCCACACGTGAACGTTTTTCTGGGTGAAAATGCCCAGGGCAAGACCAACCTGCTGGAAGCAATCTACTTTCTGGCCCTTAGCCGGTCCCACCGGACCAGCAATGACCGGGAGATGATTGCCTTCGGCCAGGACTTTGCCAGCCTGGCTGGCCGGGTGCACAAGCGCCAGCTGGACCTTGACCTGCGCATTGTCATCAGCAAGAAGGGCAAGAGCGCCTGGGTCAACCGGGTCGAGCAGGCCCGGCTGTCCAAGTATGTGGGCCACCTTAACGCCATCCTCTTTTCTCCGGAAGATCTGGAATTGGTGAAGGGGGCCCCTTCTTTGCGCCGGCGCTTCATGGACCTGGAATTCGGCCAGATCAATCCGGAGTATCTCTATTTCGCCAGCCAGTACCGGCAGCTGCTCCAGCAGAGAAACAACTATCTCAAGCAGCTGGCCCGCCGGCAGGCCAGTGACCAGGTCCTGCTCGGGGTCTTAACTGAGCAGGTGGCCACGGCGGCCAGTGAACTGATCTGGCGGCGCTACCGCTATTTGGCTGACCTCAACCGCTACGCGGCCGAGGCCTACCGGGCCATCAGCGGGCAAAGAGAAGAGCTGCGGGTCCTTTACCGGCCTTCAGCCAAGGAGATTACGGCTGCAGACCAGCCGGCCCAGATCAAGCAGAAGCTGCTGGACCGCTTTGCGGAGATCGCTGACGATGAGCTCAGACGGGCCACGACCCAGCTGGGTCCCCACCGCGACGACCTGGAATTCCAGCTGGACGGCAAGAATGCCCACCTGTTTGCCTCCCAAGGGCAGCAGCGGACCATTGCCCTCAGCTTGAAACTGGCGGAAATCCAGCTGATCAAGCAGCTGACGGGAGAAGAGCCGATCCTGCTTTTGGACGACGTGATGAGCGAACTGGACCAGAACCGCCAGGCAGCCCTGCTAAATTTCATCCATGGTCAAATCCAGACTTTTATTACGACAACCGATCTGGATGGTATTTCCCAGGAAATAGTCAAACAGCCGCGAATTTTTTACATCCATTCCGGCCAAATTATAGAAAAAGAGGAAGGATTAAATGGCAGACGAAGATAA
>LACTIS1119B1_10260 S4-like RNA binding protein
TTGGTGAAGGTGAAGACTATCGAAACTTTTGCGATTAATGGTGAATTCATCACCCTCGGACAATTTTTGAAAGATGAATGTATCGTTTCCTCGGGCGGGCAGGCCAAGTGGTACCTCAAGGACAGTCCAGTTCTGGTCAATGGGGACAAGGAAGACCGCCGGGGCAGGAAGCTCTATCCTGGTGACCGTTTGACCGTTGCCGGCAAGGAATATGAGCTGGTTCAGGGACTTTAA
>LACTIS1119B1_10270 DNA polymerase III subunit beta
ATGAAATTTACTGTACAGCGCAATCTTTTTATCAATGACTTGAATTCCGTTTTAAAGGCAGTTTCTTCAAGAGTCCAGATTCCGATTTTGAGCGGGATCAAGCTGGACCTGACGGAAACTGAACTGATCATGACTGGCAGCAATGCCGATATTTCCATTGAACTGAGCCAACCGGTTTCTGATGACTTACGGGTTGAATCAACTGGCTCCATTGTCGTGACCGCCCACTTGTTCAGCGAAATCGTCCGCAAATTGCCAGGCAGGGAATTCACTTTTGAAGTCAAGGAAGGCAACCAGATCCAGATCACCTCTGACAAGGCGGACTACGTAATCAACGGCCTGGACGCCAGTGCCTACCCGCGCCTGCCGGAAATTGCCGGAACTTCCTTCAGCCTGCCGTCTAAGACCCTGCGGGAACTGATCACCCAGACTGTTTTCGCCGTATCCACCGAAGAAAGCCGGCCAACTCTGACCGGGGTCAACTTCAGCTTCAAGAACGGGCAGATCAAGGCCGTGGCTACTGACTCCCACCGCCTGTCCCAAAGAATCGTCGACATCGCGGCCGGTCCAAGCGAAGACCTGTCCCTGATTATCCCGGGCAAGAACCTGCAGGAACTAGCCCAGATCATCGGCGACGCTGACCAGGACATCAAGGTTTACCTGGGCGACAGCCAGATCCGCTTTGAATTTGAAAACCTGTCCTTCTACACCCGTCTTTTGGAAGGGGCCTACCCGGACGTTGACCGCCTTTTGCCAACTGAGTCAACGACCAGCGTGCAGTTCGCCGTTTCTGACTTGATGCAGACTTTGAGCCGGGCCAGCCTCTTGACCCACGCCAACCGGACCAACGCCGTCCAAATGACTTTGAACGTGGCTGACCAAACCGTCCTGGTTTCCGGTAATTCCCCGGAAGTCGGAAAGATTGAGGAAGAAGTCGGCTTCAGCAGCTTAACTGGCCGAGACCTGACCATTTCCTTCAACCCGGACTACATGGCCGCTGCCCTGCGGGCCTCAGTAACTGACTCCGTCATCATCAACTTCACGGAAAGCCTGCGGCCATTCACGGTCGTGCCAAATGACCAGTCAGTTGAATTCGTGCAGCTGATCACCCCAATCCGAACTTTCTAA
>LACTIS1119B1_10280 chromosomal replication initiator protein DnaA
TTGTTCGATTTAGAAAAATTCTGGGATAGCTTCAACGCTGAAATGCGGTCCGAATTTAACGAAGTATCCTACAATGCCTGGTTCAAAAACACCAAGCCCGTCTCCTTCAACAAGGACACCCATGAATTGGTAATCTCCGTCCAAACCCCCGTGGCAAAGGGGTATTGGGAGCAAAACATCTCCGCTAACCTGATCCAGTCGGCTTATGCCTACGCGGGAATCGATATCTACCCGGTTTTCGTCGTTAAAAACGGCCCGGCGCCCAGCAGCGAAAGAATGCTGGAGCCCCAGCCGCAGGCCAAGCCCGAGAAAGCCCGGCCGCAAGGCCGCGAATTCACCAAGGACCTGCGCTTAAACGAGAAGTACACCTTCGAGAACTTCATTCAAGGCGAGGGCAACAAACTGGCTGCCGGGGCCGCTTTGGCGGTTGCCGACAACCCGGGGACCTTCTACAACCCCTTGTTCATCTTCGGGGGCGTGGGCCTTGGTAAAACCCACTTGATGCAGGCGATCGGCCACCAGATGCTGGCGGAAAGACCAGATGCCAAGGTTGTCTACATTCAAAGTGAGACTTTTGTCAACGACTTCATCAATTCCATCAAGAACAAGACCCAGGATAAGTTCCGGGAGAAATACCGGACAGCTGACCTGCTCTTGGTCGACGACATCCAGTTCTTCGCCAAGAAGGAAGGGATTCAGGAAGAATTCTTCCATACTTTTGAGACTCTCTATAATGATCAAAAGCAGATCGTCATGACCAGTGACCGGCTGCCAACGGAAATTCCCGACCTGTCCGAGCGGCTGGTCTCGCGTTTTGCCTGGGGACTGCAAGTTGAAATCACCCCGCCAGACCTGGAAACCCGGATCGCCATCCTGCGCAAGAAGGCTGAATCCGAAGGCCTGGAGATCGATGAAAGCACCCTGGACTATGTGGCCAGCCAGGTCGATACTAATATCCGGGAGCTGGAAGGGGCCCTGGTCAAAGTCCAGGCCCAGGCCACCATTCAAAAGCAGGACATCAACATTGGCTTAGCCCGGTCGGCTTTAGCCGACCTCAAGCTGGTCCAGAAGAGCAGGGGACTACAGATTTCCAAGATCCAGGAGGTCGTGGCCAACTACTTCCAGACCTCAGTGCCGGAACTTAAAGGAAAGAAACGGGTAAGGCAGATCGTCATCCCGCGTCAGATTGCCATGTACCTGTCCCGCGAGCTCACCGATGCCAGCCTGCCAAAAATCGGCCAGGAATTCGGGGGCAAGGACCACACGACCGTGATGCATGCCTGCGACAAAATCGCCCGGCAGATCAAAACGGACACTGAAATCAAGTCCGCTGTTTCCGACCTGCGGCAGATGCTGGAAAGATAG
>LACTIS1119B1_10290 ribonuclease P
TTGAGAAAGTCATATCGAGTTAAATCTGAACAGGATTTTCAGACCGTCTTTGAAAATGGCGAATCAGTTGCCAACCGGGCTTTTGTGATCTACGTCCTGCATAGAAAGCAGAATAAGCATTTTCGCGTCGGCATCTCTGTCGGCAAGAAGGTCGGTCACACGGCCGTCGTGCGCAACCGTCTCAAGCGCTACATCAGGGCGGTGTTGACCGAGAACCGGGACCGGATTGCGCCGGACTTGGACTTCTTGGTGATTGCCAGACCCTACGCTCGCGATTTCGATTGGGAAAAGACGCGGGAAAACCTGCTTCACGCGCTGAACCTGGCCCACGTCATTGAAGAAATGCCAAATAAAGAGGAAAAATAG
>LACTIS1119B1_10300 preprotein translocase subunit YidC
GTGAAGGACATTTTATCGAAGAAGAGTACCAAGCGCCTTCTGGCCGCTCTGGCACTGGTGACGGTTTTTGCCCTTGTTCTGAGCGGCTGCGCCACGCAGACTACCCAGAAGCCAATGCCGATCTCCCATAATTCCAGCAACTGGTGGGATGCCTGGGTAGTTTACTACCTCTCTCAGTTCGTGCTTTGGATTGCCAAAGTCTGCGGGGGCAGCTACGGCTGGGCCATCATCATCTTTACGGTTATCATCCGGGTGATCCTCCTGCCTTTGAACGCGGTGCAGATCAACAGCACCAGAAAGATGCAGGAGATCCAGCCGGAACTGAAGGCCTTGCAGGAGAAGTATTCCAGCAAGGACCTGGAGACCCGGAACAAGCTGAACGAAGAAACGCAGAAGCTTTACAAGGAAGCGGGCGTCAATCCTTACGCCGGCTGCCTGCCGATGGTGATCCAGTTGCCGGTTATGTGGGCCCTGTACCAGGCCATCTGGCGGACGCCAGAGATGCAGAATGGTAAATTCTTGTGGATGGACCTGGGCAAGCCAGACCCATACTACATCCTGCCGATTTTGGCAACGGTATTTACCTTCCTGTCCTCATACATCGCGACTTTGTCGGTGCCTAAGTCTTCCCAGACTACGATGACTAAGATGATGAGCTATGTCATGGCCATCATGGTCGGGATCTGGGCCATCGTCTTCCAGTCCGCGATCTCCCTTTACTGGGTGATCTCCAACCTCTTCCAGGTTGGCCAGACCCTGGTCCTGCAGAACCCATTCAAGTACCGCAAGGAGCAGGAAGCCAAGGAAGAAGCTGAACGCGAGCGCCAGCGCAAGATGCGGCGGGCTTATAAGCGGATCAAGCGGAAATAA
>LACTIS1119B1_10310 tRNA modification GTPase
ATGGTTCAACGTTTAACGGAATTTGATACGATCGCGGCGATCTCAACGCCGCTGGGAGAAGGCGGGATCTCCATCGTCCGCGTCTCCGGGGAAGATGCGGCCGCCATTGTCAACCGCTTGTTTAAGGGCGAGGACCTGGAAAAGGTTCCCAGCCACACGATCAACTACGGCCACATCGTGGACCCGGCGACCGGGCAGGTGATCGACGAGGTCATGGCCTCCGTCATGTTGGCGCCGAAGACTTTTACCAAGGAAGACATCGTGGAAATCAACTGCCACGGGGGGATCGTGGTCACCAATGACATCCTGCAGCTGCTCTTGGCCAACGGGGCCAGAATGGCTGACCCGGGCGAATTTACCAAGCGGGCCTTCGTCAACGGGCGGATCGACCTAACCCAGGCTGAAAGCGTGATGGACATCATCCGGGCCAAGACTGACAAGGCCCGGCAGGTGGCGGTCAAGCAGCTTTCCGGCGGCCTTTTGACGGAAATCCGGGTCCTGCGCCAGGAAATCCTGGATGTTTTGGCTAATGTCGAAGTCAACATCGACTACCCGGAATACGATGAAGAAGAAGTGACGGCCCAGAAGATGCTGGCTTGCGCGGAAGCCGTCAGCGGCAAGATTGACCGCCTGCTGGAGACAGCCCAGGAGGGGCAGATCCTCAGAAACGGCTTGAAGACAGCGATTGTTGGCCGGCCTAACGTGGGCAAGTCCTCCCTTTTGAACTACCTGACCCAAAGCGACAAAGCGATCGTGACGGACGTGGCCGGGACCACCCGGGACACCCTGGAAGAGTTCGTGTCTGTCAAGGGGGTGCCCTTGGAGTTGATTGACACGGCTGGGATTCACCATACCGAGGATCAGGTGGAAAAAATCGGGGTCGAGCGGTCGAAGAAGGCCATTGCCCAGGCGGACTTGATCCTGCTTTTGCTGGACGGCAGCCAGGAATTGACGGAAGAAGACCGGCGGCTTTTGGAACTGACCGCCGGCAAAAAGCGGATAATCGTGCTGAACAAAATGGACCTGGGCCAGAAGCTGACCGCGGCTGAGATTGCTAAAGAAAGCGGCAGTGAAGTGATCAGCACCTCGATCATGATGAAGGAAAACCTGGACGAATTGGAAGCCTTGATCAAGAAGCTCTTCTTCAAGGGGATCGAAAACTCCAACGACCAGGTCCTGGTGACCAACCAGCGGCAGGCGGGCCTTTTGGCCAAGGCCAAGCAGCAATTGGCCGACGTGGCCAGCGGGCTTGAGTCAGGGATGCCGGTTGACCTGGTTCAGATAGACTTTACCGGGGCCTGGGAAAGCCTGGGGGAAATCACTGGTGACAGCGCTCTGGATGAATTGATCAATGACCTCTTTAGTCAGTTCTGCTTAGGGAAATAG
>LACTIS1119B1_10320 tRNA uridine 5-carboxymethylaminomethyl modification protein GidA
ATGAAGACTTATGTTTCAAACGAATATGACGTGATCGTAGTCGGCGCCGGCCATGCCGGCTGTGAAGCAGCCCTGGCCAGTGCCCGGATGGGGGAGAAGACCCTGCTGCTCACCATCGGCCTGGACATGGTGGCCTTTATGCCCTGCAACCCCTCAGTCGGCGGCCCGGCCAAGGGGACCGTGGTCAGAGAAATCGACGCTTTAGGCGGGGAGATGGGCAAGAACATCGACAAGACCTACATCCAGATGCGGATGCTGAACACGGGCAAGGGGCCGGCTGTCCGGGCATTAAGAGCCCAGGCTGACAAGTGGGACTACCACGAAGAGATGAAGCGGACCATCGAAAACACCCCTAATCTGACCCTGCGCCAGGCGGTCGTTGACGACTTGATCGTTGAAGACGGGGAATGCCGGGGCGTAGTGACCAACACCGGTGCCCGCTACCGGGCCAAGAGCGTGGTCTTGACGACGGGGACCGCGGCCAGAGGGCGGATTTTTATCGGGGAACTGAACTACTCATCCGGTCCGAACAACACGATTCCAGCCATTAAGCTGTCTGAAAGCCTGGAGAGACTGGGCTTCAAGCTGCGCCGCTTTAAGACCGGGACGCCGCCCCGGGTCAACCGGCACACCATCGACTATTCCAAGACCGAAGAAGAGCCGGGCGACAAGGAGCCCCGCCACTTCTCCTTTACCAGCAGGGATGAAGACTACCTAACCGACCAGACTTCCTGCTGGATGACCTACACCAACCCGAAGACCCACGAAATCATCAATGAAAACCTGGACCGGTCACCAATGTTCTCCGGTGACATCGTCGGGGTAGGGCCGCGCTACTGCCCGTCAATTGAAACCAAGGTCGTCCGTTTCGCGGACAAGGACCGGCACCAGATCTTCCTAGAACCGGAAGGGCGGAAGACGGAAGAAATCTATGTCGGGGACTTTTCAACCTCCATGCCGGAAGAAGTGCAGCTGGAAATGCTGCACACGGTCGCTGGCCTGGAAAAGGTTGAAATGATGCGGCCGGGCTACGCCATTGAATACGACGTGGTTGACCCCTGGCAGTTAACCCACACTCTGGAAACCAAGCGGATCAAGCACCTGTATATGGCAGGGCAGATGAACGGGACTTCCGGCTATGAAGAAGCCGCCGGCCAGGGCCTGATTGCCGGGATCAACGCGGCCTTGAGCGCGGAAGGCAAGCCAGCCTTCACCCTGGGCCGGGACGAAGCTTATATCGGGGTTTTGATCGATGACCTGGTAACTAAGGGGACGGAAGAACCTTACCGGCTCTTGACCAGCCGGGCTGAATACCGCCTGCTTCTCCGCCACGACAATGCCGACCTCCGCTTGACGGAAAAGGGGCATGACCTGGGCTTGATTGACGATGATCGCTATGCTGAATTTTTGGTCAAGAAGGAACTGATCCAGGAAGACCTGGACCGGCTGCACGAAATCACCGTTCACCCGACCATTGCCGTCAACGAATACCTGGCAGGTTTAGGCCAAACTGACTTAAACGGCGGGGTCAAGGCAGACGTCTTCCTCAGACGGCCAAGGGTGACGGTTGAAGACGTTGAACGTCTGACTGGGCAGAAGCTGGCCGGGGACCGCTATGTCAAGGAACAGGTGGAAATCGACATCAAGTATGCCGGCTACATCAAGAAGCAGGAGATTCAAGTGGCCCGTCTGCGCCGGCAGGAAGCCAAGAAGATCCCGAAGGACATCGACTATGACCAGATCGAGGGCCTGGCTACAGAAGCCCGGGAGAAGTTCGCCAAGATCCGGCCGGAAACCCTGGCTCAGGCGGAAAGAATCTCCGGGGTCAACCCGGCTGACTTGGCCATCTTGAGCGTCTACATACAAAATGGCAAATACGCCAAGGTTCAGAAGTAA
>LACTIS1119B1_10330 6-phosphogluconate dehydrogenase
ATGCAACAATTTGGTGTGATCGGTTTATCGGTCATGGGCAAGAACTTAGCCCTCAATGTTAGAAATCACGGCTTTTCAGTCTCCGGCTTCTCCATCGACAAGCCGGAAGTCGATGCTTTGGCCAAGTACGAGGATGACAAGCTGAAGCCTTGCTACACTTGGGAAGAATTCGTTGATTCTTTGGAAAAGCCCCGCAAGATTCTGGTGCAGATCATGGCTGGTGACCCGGTTGACCAAACCATTCAGAAGCTGATCCCGCTTTTGGACAAGGGCGACATCATTATTGACGGCGGGAACTCCAACTTCCACGACACCAACCGCCGCTACCATGAATTAAAGAAGCACGGCCTGCACTTCATCGGCATGGGCGTGTCCGGCGGTGAAGAAGGCGCCTTGAACGGCCCGGCCTTGATGCCAGGCGGGGACAAGGAAGCTTATGAAGAAGTAGCACCAATCTTGACCGCGATGGCCGCTAAGACTGAAGACGGCCGCGCCTGCGTGTCCTACATCGGGCCAGAAGGGGCGGGCCACTACGTTAAGATGGTCCACAACGGGATGGAATACGCGATCATGCAGGAAATCTCTGAAGTCTACGACATCATGCGCAAGGTAGCCCACAAGTCCAACAAGGAAATGGCAGATATTTTTGCTGAATGGGACAAGGGTGACCTGAACGCCTACTTGATTGAAATTGCTTCACAAGTTTTGCGGCAAAAGGACGACTTGACTGACGACGATGTGATCGACCACATCTTGAACGTTGCTTCCTACAAGGGGACTGGCAACTGGATGCTGGAAGACGCCATCAAGCTGGGCGCTCCAATTACGGTGGTAGCGGAAGCAGTTTTGGCCCGGTTCATGTCCAAGGCAACGACCCGGGAAGGCAAGGAAGTCGTTTACGACGGTGAAGTTGCCAGCGACTTGATCGACAACTTGGGCAAGGCAATGTACCTGGCACAGATCGTGGCTTACGCTCAAGGCTTCCAACAGTTGACTATGGCCGCTAAGGCTTACGACTGGGAACTGAACTACCCGGCGATCGCGCAGAACTGGGAAGCGGGATGCATCATCCACGCCAAGACCCTGTACCACATTGAAGATGCCTACGCTGACGGCAAGCAATTGGACAACCTTTTCCAGGACCCATACTTTGCGGGCGTGATGGAAAAGAACCTGCCAGCCTTGCGAGCAGTCGTTAAGCTGGCTGCGGAAGCTGGCGTGCCGACTCCAAGCTTCAGCGCGGCTCTGAACTACTTGGAATCAATCTTCAACCCAAGCCTGCCGGCCAACATGATTCAGGCACAAAGAGACTACTTCGGTGCGCACACTTACTACAGAAATGACCGCGAGGGCGTTTACCACACCGAATGGTATGAAGAAAAATAA
>LACTIS1119B1_10340 hypothetical protein
ATGTATATTATGTTACATAAAAAGTTTATTGTACTAATCGCATCAATTTTGATGACGATTGGTGTTGTTACTATTGTTTCACCTGTTTTAGCCGGAAATACAAGTCAAACTTATTGGCATAATGTATACAGAATCTGGTCTCCTTACGACCACACTCCGGCTCGTAGAAAAGAAACTAAATCTGCCTACTACAATAAGACAAATCATATTAAAATTAGTGGCAACTACATTGTTATTTGGGCTGCACTTTATGATGGCCGTGATGTTTCAGGAGGCCACAGGTACAAGAGTTATAAAGGACAAGTAACGAATTTGTGGAATAATGCTGTAGAGCGTTACAAGAAAGGCGTCCAGGTAAGAATTGATTCAAAAAGAGTGGCGAATGGATGGGCAGATGGTGTTTGGAGCCCTGACACCAAGTAA
>LACTIS1119B1_10350 membrane protein
ATGAGTTTATTGTGGTCAAGGCTGAATAAGCGCTGGTTTGTTGCGGCAATCGCTGTTGGCATGGCAGTGGGATTGTGGCAGATAATCGTTAACTACCACACCGGTATGGCGAATATCGACTCGCCTTACACTCGCTGGCTGTCAATTGATACTGACTCATCTGCAACGACAATTTTCTTCATCCTCTTGCCCTTCTTAGCTAGTATTCCAGCAGGAAACATGTTAAAAGAAGACTTAGACAGCGGTCTGTTCAACAAATTTAAACTGCAGGTACCTTTAGCCCATTTGATTAAGCAATATGTGGCTATGGCTTTTTTAACCGGGTTTGTGACCATCATGATTCCGCTACTTTTAAACTTGTTGGGGTATCTGTTGATTCTTCCAAATTTTAAGCCAGATAATTTGCTAAATATCAATATTGGGGTTTTCAACTTCAACACCATGCTGGTTTCTTTGTATTATAGTCATCCATTTGTTCACGCATGTCTTAATATATTGCTAGCTTCTGTCTGGGGAGGTTTGTTCTCGGTATTTGTCTTGGTCAATTCGGTTTGGATTAGAAATCGATTTGCATCATTGAGTACAGCCTTGGTTTTAGAGCTGATCTTAATGGAATTGGATGCCGTTTTACCAATTGACTATATGCCCAGCATATCGCCTACGGATTTTTTACCGGAACAAGGAAGCCGCCCGCTGTTATGGCTGACAGCTTTGATGACGATAGCGTTAGCTGCATACTGTATGGGGATGTATAAGCTGGCTTGCCGCCGGGCCGTGCTGTAA
>LACTIS1119B1_10360 hypothetical protein
ATGTTACACAAAAGAATCGTTGTAGTGATTGCATCAGTTTTGATGACGTTGGGGATTGTGGCTACGGCCGCACCTGTATTCGCGGGGAATACGGGCAATACTTATTGGCGTAATGTTTATAGAGTTGGATCTCCTTACGACCATACTCCTGCTCGCAAGAAGGAAAACAGATCAGTTTACTATAATAAAACAAACAACGTACATATTAAAGGTGGCTACATCGTGATTTGGGCAGCTCTTTACGATGGGCGTGATGTTTCAGGTGGCCACAGTTATAAGAGTTATCAAGGAATGGTAACTCATTTGTGGAATGAAGCGGTAGAGCACTATGGGAAAGGCGTATCTGTAAGAATTAATTCGAAAAAAGCTGCTAACGGATGGGCAGATGGTGTTTGGAGTCCAGATAGCAAGTAA
>LACTIS1119B1_10370 hypothetical protein
ATGAAGCGTAAAGTATGGCTGGCGGCAGCCATCGTCTTGTGCGTGCTGGCAGGCCTGCGCTATTGGCAAGTAAACGCTAATCCTGTTTACCGCGGGGTAGACAAGGAAATTTTTGTCAAGAAAGGGCAGGAGGTTCATGCTCCAGGAATCGACTTTAAGATTCTGTCCGCCAAGATGGTCAAAGGGAAAGAAAACGTTTATTTGACTGTAAAGGTTGATCTGAAAGACCGTGGCTATTACGCGGATGGCAAGCATGGAATAATCGCCGCGGTTAGCAACATGTATTTCAATATGCCATACAGCATCAGCAATCAATCAGATCTTTATGTGGTGGATGGCAATGGGCACAAGGTAGCCATTGGATACTTGACTAGCAAAACTCCCCAGCCATTGACGCTGAAATTTGACAATGTGCGAAGTTGGTATGATACAGAAAACACACCGGCCAGATTCAGCTTTTTGGTTGGGGATGGCAATGGGTATAAGAAGTATTCAATACTTTTGGAATGA
>LACTIS1119B1_10380 ABC transporter ATP-binding protein
ATGTTTATTGAGTTAAAGAATGTAAACAAGGTCATCTCAGGCCGGCAGCTGCTCAGTCAAGTCAACTGCGAGATTGAGGCTGGCCAGATCGCGGTTTTTGAAGGGATCAACGGATCTGGGAAGACTTTGATTTTAAAGACGATTTTGGGCTTGATGAAGGTTGACGGGGAAGTTTTGGTAGCTGGCAAGCAGGTCAAGCCGCAAGATGCTTATCCGGTCAAGGCAGGGATTTTGATTGAAAATCCCAGCTTGATTACAGACTTCACGGCAACGCAAAATATGGAGCTTTTAGCCAAGCTTGATGAGCATATTTCTGCAACTGAAATTGCAGAATTGCTGAAATACTTTGACTTAAGCCGCTTTCCTAATGAAAAGGTCAAGAAGTTTTCTTTAGGGATGAAGCAAAAGCTGGGTATTGCTGAAGCCTTCTTGGGCTCATATCCGCTGATTGTTTTAGATGAACCGACCAACGCTTTGGACAGCGATAGTATTGATAAGTTGGTGGATTTGATCAAGTTGCGGCAAAGCAAGGGATGCACTTTTGTCATCGCTTCACATGACCGGGATTTTGTTGAGCAAGTGGCAACCAAGCGCTTTAAAGTTGAAGAAGGTGTGGTTCATGAAGCGTAA
>LACTIS1119B1_10390 hypothetical protein
ATGGTCTTCCAAGGGCTTGGATTGGCAGAGATAAGGGCTGGCATTAGAGATTTTCCGGTCTCGTGGTTCGGCTATTTCTTTTTCCCGCTGATGATCAGCTTGAATATTTTCAAGGAATTGTGGATCAGCAGGGTAATGCAGCTGCGGGGCCAGCAGATCAAGCCAAGTCACTTCAGCTGGGTCAATGTCATATTGCAGTTGCTCTTGGCCGCAGTTTACGTCTTGGCAAGCAATGCCTGCCTGTGGTTGAAAGACTTGCTGTGTGGCAACTCGCCTCTTGTTCTGGGACCCTGGCAAGGAGGAGCAGCAGAATTGCACTGGATGTTAATTGCCTGGCTTGGGGTCAGCTCACTCTTACTGATTCAAGCCAGTTGCAGTGAGCTCACTCCCGCTTTGGGCTTGATTATGCCAATCGTCTTGTTGGTTTCGACCTCTTTGACGGCTTGGAGCGGCAATCCGCTTAATGCATTAATGTTGAGCCGCTGGACCAGTGGCGCAGAGTTGTTTATGTTTGTGTGGACCCTGATCTGGGCTTTGCTGTACGTATTAGTTGACAGCAAGCACGGCTGGGTCTAA
>LACTIS1119B1_10400 hypothetical protein
TTGGCGATAGCTTTGCTCGTGACCCTTGTACCATGGGCAGTCGGCTGCTTGATTGGTATGTTCCTCAATGGCTGGGGGACCAGATTAGGGACTATAGTGGCAGAAGCATTGATTCGCTACCTGTATCTGGCCTTGTCCTGCCTGGCTATTCTCTTGCTGGTCAGTCTCTGTTTGCTGGCTAGCAAGAGAATCTGGGCCTTTCTGGCCGGCTTTGTTCTAAGCGGAATTTCCTATTTCTTGAACGTCAACCATCATTTTTCCTTGTTCTATGATTTTCTTATCGATGATTTGGGAACCCTGCTTCTGTCCCGCTTGCCGATCCTGCTAAGCATAGTCTTGTTTCTAGCTGTTGGCGTGCAAATGGAAATCGCTAGAAAGGACTGGTAA
>LACTIS1119B1_10410 hypothetical protein
ATGGAGTTTATTCGATCTCACAAAAGGTTACTGGCTATTTTTGGCTTAATTGTCGTTCTGCTACTTGGGACATTGTTGCTGTTAAAGCACGTCGACAACAGTGCTAGCGCGATTTTGGAAGCTAGAATAACGGCTGACGATGACTCTGGAACTAGCTTCGCGACCATCTATGATAACGGGAAGGTCGAAAAAAGCAGGTCCAGCCAAAACAAGAAGTTTGTTAAGCCAATTGAAGTAGACCCACAAGTTTTTGTGGAGCATACGGACAAGAAAAACAATATTTATTTAACAGTAAACGAGAAAGCACTGAGGAAAAACAAACAGGTCTCTTCTGATGAAAACTGGGTCAAGCTAACTAAGCTGGTCGCCAAGAGAAGCAAGCACGCTATCGCGATGCTGAGCCTGTTTAAGCTTGGCGATGACTACTATGCCTTTCTAAAATATAATGCCGGTCTTTCAGATGAGGGCAGCCTTTATCAGTACAAGAGCAACTTGACCAAAGTGGCTACGCTTGATTCTGGCAAAATATCGGGCTTAAAGGAAAAATAA
>LACTIS1119B1_10420 hypothetical protein
TTGAAGAAGGAAATCACCAAGGCTGAAGCCGTCCAGAAGAAAACAATCTACAAGCTGTCATCTTCCTACCGCCGTGACTACCTGGACTACGCGCTCAGCAACGCGCAAAAGGCACTTTCCGGCAATAAGGGTGAGGTAACTTTTGCCAAATGGCTCCTGGCCAACTCTGAGACATATCTTAATGGGAAAAAGGCCCCAGTCACCAACATCAACAAACTCAGCAAGGCTGAGTACGAACGCGTGCGGAGAATCGTTTCGGATGTAGCGCCAAATGGCTACATGACGACCATTTACTACAAGCGGGCGGATGGCACTTAG
>LACTIS1119B1_10430 hypothetical protein
ATGAAAAGAAATAAGATTTTAGCTTCAGTTTCAACGGCGGCTTTAGCCTTAGGAATGTTGACAGTCATTGGTAAAAAGCAAGTTAATGCCGCGGACAATGATGATCCTGCTAATATCGTAACGGTTGTAAACTATACTCCGACTAAATCAGCCGTCACTGCCGTTAAGACTAGCTACAACGCCAAGACCAAGTCATTGACGATCACTGGCAAGGCTAAAGGCGCAAGCAAGGTTGCCGTCAGCTACAATGCCAAGGCACTAAAGCCAGTCAAGGTAACTAAGAAGGGCCAATTCAAGACGACCGTTAAGTTCACCGGCTACAAGGACTTCACTCTTACTGGCTTAAACGCCAAGGGGGCTGCTGTAACCAAGGCCTACGTATTGGCCAAGGACAGTTACGCTGCCACTAAGCCAACCTTGCTCAAGGCTGACCGGACCAAGAAGGGGCTGACCTTCACGACCGATGCCAAGAAGAAGACCACTTTGAAGTTCTACTACAAGAACAAGCTGGTCAAGAAGACCAAGCTGACCAAGGACAAGCAAAAGGTCTTCTTCTCAGCCAAGTCACTGAAGGGCAAGAAGGGGAACTTCAAGGTCGTTGCCTCAGCTGCTGGCAAGAAGAGCAGCCAAGCTGCCCAATTCAAGATCATCGGCGTTGGCCAGGCAACTGTAACCAACTACTAA
>LACTIS1119B1_10440 multidrug ABC transporter ATP-binding and permease protein
ATGGCAAAAGCACCAAGCGGCACCGCAGAAGACAGCACAGATACAGCTTCATCTGCTTCCACGGCAATGATTAAAGCTGGGAAAATCCGCCTGTTTTCCCTCGACCGCCGGCAAATCATGGCGATCCTGCTGAGCTGCCTGGCCACTGCCTTGTCCTTGAAAATTCCTCTCTTGCTAAAGCAAGTGATCGATCATGGAAAAATGCTTTCCCGGACAAGCAGCCTGGGCCAGATCGGCTTCTGCCTGCTCATTTCCAGCCTCTTGGAAGCCGGCAGCCAGTACCTGCTCAGCCTGGCCGGAGACGAGCGGATCAGAGACCTGCGCCTGCTTTTGCAGGAAAAACTCCTCTGCCTGCCTTGGAACTACTATAAGGAAAACAGCCGCGGCTCCCTGCTCAGCCACGTCCTAAACGACAGTTCAGTGGTCAAGGACTTTACCGTCAGCGTCCTGCCCTCAGCCTTGGTCAGCCTTTTGACGGTTGCCGCCAGCCTGGGGATCTTGCTCAGCCTGGATGTCAAAATGACTTTGGTTATCGTTTTGACTTTTGCCTTGATCGCCAGCAGCGCCTTTCCTTTAGGAAAAATCAATGAGCACTTCGCCTACCAAAACCAGGCCAAGCTCAGCCGGGTATCTGCTGATTTGGATGAAAACCTGGCCAATATCAAGCTGATCAAGCTGACCAATGCCCAAGCCGGCGTTTTGCAAAAATTCCGCGGCGACTTGCAGGACTTGTTCGCCCTGTCCCGAAAGACTGACGCGGTTTTCAGCGTGACTGGACCTCTGCAGACGGTCTTGACCCTGGCCGGTTTTCTCCTGATCCTGCTCTATGGCAGCCAGCGCCTGGCTAATGGCAGCCTGTCTTTGGGGATGCTGAGCTCATTTATCATGTACATGTTTGGCATCATTTCCCCGATTAATAATTTGGGCAACTTTTACATGAGCTACGCTGAAGCCCGGGGCTCCCTGAAAGCCATCAGTGAAATCCTGGCCCAGCCGGATGAAGCTGATCCTGGCCAAGAGCTGCCGAAAAAAGCCGCTGATCTCAAGGTCCGCGACCTGACTTTTGCCTATCCAGGCAGCCAGAGCCCGATTTTACGGGACTTGTCCCTGGACTTTAAAGAAGGGGCGAAAACAGCTTTGGTTGGTCCATCCGGAGCTGGAAAGACGACCTTGATCAACCTTTTAACCCGCTTAGAAGCTGGCTATCAAGGGCAGATCCTGCTAGGTGGCCTGGAAGCCAGAAACTGCAGCTTGCCTGCCTGGCGGGACCTCTTCAGCGTGGTTGCCCAGGACAACAATATTTTTGCCGGTACAGTCGCTGACAATTTGCTCTTTGGCTTGGAAAAATCCGTCAGCCGGTCGGACATGATCCAGGCCCTGCAAGTTGCCAATCTTTGGCCGGAACTGGACCTGGGCACCCAAACGGGGGAGGGCGGCTGGAAGCTGTCCTTGGGACAAAGCCAGCGCCTGCAGCTGGCCCGGGCCTACTTGCGGGATGCCCCGTGCCTGATCCTGGATGAAGCCACGGCTAACCTGGACCCCGAGTCAGAAGCCAAGGTCAGCCAAGCTGTTGACCGGATTGCCCGGGAAAAGATTGTCATCATCATCGCCCACCGTCTGTCGACGATCGCCAATGCCGATAAAATCTACTTTTTAGATGAAGGTCAGGTTCAAGCGGCTGGCCGGCATGAAGAATTGCTCAAGCAGCTGCCGAAGTACCGGGCCTATGTCGAAGACCAGCTGTGGCCTTTGGAAAGCAGGTGA
>LACTIS1119B1_10450 serine/threonine protein kinase
ATGGATTATCAAGCACAAGATTACCAGCCCTATCTGCAGGTAGACAGCGATTATTATGAGCTGGATACAACTGAAAAGAGTGACCAGGAATTTACCTGCAGCCCGCCAGCAGATTGGCAAAACTTTTACCAGGGAGACTGGCATTGCTGCCTCAGCCCCCGGCCCTTGGCCCAGCAGGGCTGGAAGATTCACCTGTCGGTAGCTTTAAGGCAGGAGCAGGGGATGCTGGATTTGGTCAGCCATTACTGTTTTGCCCATCTGTCGTCCTTCAAAGTGACCCGGTCAAGACGGGCTTGGCTGTTAAAAAATGCCAAGTATGCCGACCGGGCAGCTAGCGGGAAATTTATCACCATTTACCCGGAAGATGAAGGGGAATTCGTCCAGACAGTTATTGACTTAGCGGCTTTGTTAAAGGATTTTGCTCCCGGCCCTTATATCTTGAGCGACCGCCGCTGGCAAGCCAGTCCGGTTTACTACCGCTACGGCGCCTTCAAGGAAATAGTTAAAGAAATTTCCGGGCAAAAATGCTACTGCCTGCAGGCGCCAGACGGCAGCTGGCAGGAGGACCAGCGCTGTCCTTATTATTATCAGCCGGACTTTGTGCAAGAGCCAGCTGAACTAGTAAGAGATAACTTTCAAGTTAAAGGAGCAGAGATCAGCAAATTAACTGCTTACCAGATCAAGGAGGCCCTCCACTTCAGTAATGGCGGCGGTGTCTATTTGGCCCAGAAAAATGGTAAAAATTACGTGATCAAGGAAGGCCGGCCGGCCGCGGGTCTGGATGGTCATGGCCAGGATGCCTTCAGCCGGATCCAAAAAGAAGCGGGCTGGTTGAAGAAATTGGCAAATGTGCCGGAAGTGGTAGATGGCAAGGAGGACTTTCAAGCCTGGATTCACGCCTATTTGGTTGAAGATTATGTTTCCGGGCAGACTTTGGGGGACTATGTAGCTGAAAACTATCCTTTCTACCCGGAAAAACGGTCAGCCTACGTGGCTAAAAGCCTGCAGATAGCGGAAAAGCTGTGCCAGGCCGTGGCCCACGTGCATGCGCAAGGAGTCGCTATCGGTGACCTGCAGGCCGACAATGTCATGATTACGGAAGATGGCGAGGTCAAGCTGATCGACTTTGAAGCCGCCGCGGAACTGGCCCAGCCCTATGATCCAGGGATCATGACCGCCGGTTTCAGTGACCTGGCTCTTGAAAATTATGAGCAGACTGACTTGTACGCCCTCTACCAAAGCATCCGGTCAATTTTCTTGCCGATCAGCAACCGGGCTAGAGCGAGCTGGCCGATGCAGGACTTGAATCTGCGCCAGTATTTTTCAAAAGAAGTAGGGGACTATTTGGAAAACTTGCGGCAGAAGCTCTTGCCCAAGTGCCCCCTGTTAGGGAAAGAAAATGATTATGGGCAAAAGGAAGTCTGGCCTGGTTTGAACGAGCTGCGGGGAAATATTTCCCGGGGAATAAAAGCTGACTGGCAGAGTCCGAACTTGATCAAGGGGGACCTGCCCCTCTTAGAAGATCTGGACCAGCGGCTGACGGTCGACAACGGTGCCTTGGGCTACGGCCTTCTTTTAGCTAGATGGGGGGAGCTGGCAGAGAAGAAGAAATTTTTGGCCTGGCTGAAAAAGCAAGGAGCAGAGAAAATAACTGCTGCTGGCTTGTTTACCGGAAAGGCAGGCCTGGGCGGAATCGTTTATGAGTTAGGGGACAAGGCCTGGGGCCGGCAGTTGATCTGGTCAGCCCAAGGAAACAGTGCTGACTTGTCTCTAAGGTCTGGCCTCGCGGGAATCGCCTTGGCCAAAATCGCCCTGGCTAAGGAAGAAGGTCTGGCGAAAATAGCTGAGTTGATTAAAATAGGAAGAGAAATCGCGGCTGGCTATCAGAAAATGCAAACCGCGGGCTTGCTGACCGGCCAATTGGGGGCAATTCTTGCCTTATGGAAGCTGGGAAAGTTTTTAGAAGAAGACAGTTTTAAAAAAGAAGCCAAAAACGGGCTGGATGCCTGGCTGGAAAAAGATTTAGTGCAAGTGGATCAGCATGTATTTTTGGCAGAGGATGGCCGACGGATGCCTTATCTGGCAAACGGAACGGCTGGCCTGGCCCTGGTCTTGGCGGCAATCGCCCAAGACGAGCCGAAAGAGGACAGATATCAGAAAATCATTATTCAAGCAGCGGAAACGCTGGACAGCTTCTGCAGCTACATGGGCGGCTTATTTACCGGCTATGCCGGCTTAATGCTGCTAGACCTGGCCTTGGGCCGGAAGAAGGCGCTGGGAGAAAAAATCCGCCTGCTTAACAATTATTTACTGCCAAAGGAAGAGGGGACTTTAGTGACTGCTTCTTGCGGCTACCGCTGCTCGATGGATCTGGCCGCGGGGGCAAGCGGAGTTTTGCTGCTGTTGGAGGGAATCGCGCGAAACGACGCCAGCCTCTGGCTGCCCCTCGTCCAGACCAAGAACTGGCGGCTTTTTTAG
>LACTIS1119B1_10460 hypothetical protein
ATGAACTTTATTTTAGACCTGGAGCGCTTTTGCGAAAACCTTGGCCATGATATAGAAAAAAACACGCACCGCGGCAAACTGCACGTGAGCTACGCCAGCAAAAGTGGAAAGGACTATTCCTTTATCTGCATTGGAGAAAATATCGGAAATGATTGA
>LACTIS1119B1_10470 hypothetical protein
ATGCAAGTGTTGGACTTACAGCAATTAGGAAATGCCGGTGGAGTAGGTCTTGAAGACTCTAAGAGCTTCTCTTTAATCTGTATTGGGAGTAGAGTTGGTGATGGAAATCACTCTTCTCACAAGAAACACCATAAGGGTAAGAAGCATTAA
>LACTIS1119B1_10480 histidine kinase
ATGACCCTGTTTTTACAAATTCTAGTGATGATTTTCAGTGCCGTGGTTGATATCTGGCTCTTCTGCCTGTTTGCCCAGATCAAGCACGGCAAGCTTGACTGGCTGCTTTTGCTGGCCTTTGAAGCCGTGTTGTCCGTGGCTTTATCCAATTTTCAGACCTACAGCAGCCTGATTTACGAAACAGGGCTGGAGATTCTGCTGTTTTGTGGCTACTTCTATTTGCTGAAAAAAGCTGGCCGTTTCCGCCAGCTGCTGGGGGCTGGCCTGCTTTTTGGCATCATCAGCCTGGTCATCCAGCTCAGCATGAAAGTCCTGGTCAGCCTCCTGCCTTTGCCAAGCTACTTCTATTTTGACGCCTTCATGAACCTGCTGCTGCCTCTGGCGGCCCTGGCCTTGCTAATCTGGCAGCGCCAGCGGATCACTTCCCTGCTGACAGATGTTAACAGCGGCATTCTGGTCAGTCTCTTGGCTTATCTCTACTTTGTCTGCTGCGCGATTGGTGCCTATATTCTTGATGATAAAAAGCCAACCGAAGTAGTCCTCCTCTTTTTCTTCCTTTTGATCTTCCAGGCAATTTTTCTGGCGGTGATCTACCGAGAAATCGTCCACATCCAGCGTCAGCTTTTAGACCAGCAGAAGCAGGAAGCCCTGGCCCGGCAAAAGCAATTGCTGGTCAAGGAAAATGAGCAGCTGAAGGAATACGCGGACTATCTGGACCGAAACGAAGACGAGCTCCGCCGCTTCAAGCACGACTACCAGAACATCCTGCTCAGTCTCAAGGTCAGTGCGGAAAAAGGGGGAAGCCAGGCCCTGGTAGAAGAGCTGGAAAAATACACCAGCAGCCAGTTTGACCAAAAGGCCCTGCGCAAATACCCCGACGTCAACCACGTCAAGATTCCCGAACTGAAGAGCATCGCCATCGCCAAGCTGGCCAAGCTCTATAATGAAAAGATTGACTATAGTTTCGGCTGCGAGCCCGAAATCAGCCAGATCCCTCAAACTAATCTCCTGGACCTGGTGCGGATTATCGGCATTGCTTTTGACAACGCCATTGAAGCCAGTCAGCAGCTGGAAGCCCTGGGCGGCCAGAGACGGGTGGAGGCCATGTACTACCAGGAAGGCGGTGACTTTGAATTCATGATCAGAAACCGGATTGGCGGGCCCGTGGCCGACTCTGACCAATTGGCCCAGGCGGGCTACACGACAAAAGAAGCGCACGCTGGCCTTGGCTTGGCCAATGTCAAAGAAATCGTTAGCCAGCATGATGAACAAATGCTGCTGGACTACGGGCCAGAGGACGGCTGGTTCAACTTCAGCCTGACCCTGCTGCCGGAAAATGTGGAGGAAGAAATATGA
>LACTIS1119B1_10490 two-component system response regulator
ATGAGCTACCCTGTATTTATTTGTGATGACGATCTAGAACAGATCGCCCAGGTCACCGATACCTTGAAGCGGGCGGAACAGATCCTGTCAGATGAAGAAAAAATTCGCTTTGACCTGGCCAGCCAAGGCAATTACCAAGACGCCAAGGCATACCTCTTAAGTCACCCGGCAGATGGCGGCATCTACTTTTTAGACGTGGAATTGGGCCAGGAAGTGGACGTGGACAACGGCTTTGACCTGGCAGAACTGATCAAAAAGCAGGACGACCGGGCCCAGATCATTTTTCTGACCAGCCATTCCGACCTGTCGATCATCACCTACCGCCGCCGGCTGGGGCCGGTTGACTACATCGTCAAAGGCGCGGATCCCGTGGCCCAGCGCCGGCGGATCGTGGAGACCGTGGAAGTGGCTTTGGATCAGCTGCATAAGGATTCTGTGGCTAAGCAGCTGACTTTTTCTTACCGGGTGGGCCGGCAGATCAAAAACATCAGATTAACCGACCTGGTCTATATCACGACCACCTTGACGCCCCACAAGCTTTTGATCGTCAAGCAGGCCGGTGAAGCCCAGTTCCTTGGCAGCCTCAGCCAGTGCGCCAAGGAAAATCCCCTCTTGGAGAAAATCAGCCAGTCTTGCCTGGTCAACCCGGACAATATCGAAGCCATCGATCTGCGCCGCCACCTGGTCTCCTTCGTGAATGGGGATGTCGAAGAGTACGGAGCCGGCCGGCAGAAGCAGATGAAGACGCTCATGCTGGAACATGACTATCGGCTGGCCAAGCTTATGAAGACTTGA
>LACTIS1119B1_10500 hypothetical protein
ATGAACATGGCCCCGCCCAAAGGTGCCCCGAAGGCTGCGGACAAGCCGCTGGCCGCCCCGGTTGCCAGGAGGACCCGGGAGTCGCTCTTTGAAGCCTTGAAGCCCTGGGCCACCCCCTGGCCGACTGTTGAGCCCAATTGGATTGACGGACCTTCCCGGCCTAAAAAGAGGCCAGACCCGATCGACAGGACCCCGCCGATGAACTTCCGCCAAAAGACCGGCCACCAGGCCAGTTGCAGCTTGCCCTGCAGCTGGAGCTCTACTTCAGGGATCCCGGACCCGCCGGCATGGGGCTGCTGCTTGACTAAGAAGCCGGCCACGATCACGCTGGCCAGAACGCCCCCGGCTAAGAGCAACAAGAAGGCTGGGTTAGCGTGCGCTGCCTGGTAG
>LACTIS1119B1_10510 hypothetical protein
ATGTTTATCAAAAAAATCCCCGTCCTGCCGCGTTGGCTGCACGGGATCATCCCGGCCCTCATCTTGGTACCGGTCATGTACTACTTCCCGGGCTATGTCGGAGGGGGCAACAACTTGATCTTGAGCTTGAACCAAATTCACGCCGTAAATGTCCTGGTCTTGATCTTCCTCTTGCGGATCAGTTTTTCTATCGTGTCTTACGATTCTGGCCTGCCGGGCGGGATCTTCCTGCCGATCTTGACCATGGGGGCCCTCTTGGGGGCGGTTTATGGCCAGTTCATGGTTGACCTGGGCCTTTTGGACCAAAAATTGGTCGTCAACTTGATCATCTTCTCTATGGCCGGGCTTTTTTCAGCCATCGTCCGCTCACCTTTTACCGCCATCATGCTGATCGCGGAAATGGTTGGGTCACTGCTGCACCTCATGCCTTTAGCCGTGGTCTCAGTTGCCGCTTATGTCGTCAACGAACTGCTGGGCGGGGTGCCGATCTATGAAAGCCTGGCTGGCCGGATGCAGACCAAAGAAGACAACGACTATGTTGGTGAAGCAGACCAGCTGACTATTTCCATTTATGAAGGCAGCCAGTTGGCTGACCACCAGGTCAAGGACATCGCCTGGCCGGACCGCACCCTGGTTAGAGTTATCCACCGGGGGAAAAAGGATATTATCCCTAATGGGAATACCAAGCTGTTAGCCGGTGACCTTTTAGTCTTGGAAATCGATGAAAACCAGCGGGGCCTGGTCTATGATAAGATGGCCAGACTGCAAGAAGCCAAAGAATAA
>LACTIS1119B1_10520 hypothetical protein
ATGAAAGTAAAAGCATTGACTAATGGTGCTAAAGAGATAGGCGGAAGAATGGTTGTGTTACTCTTCCAAGTCTTTAAATCATTTCTTGATTTACCGTATGATACATCTATTAAACCATTTTCGATGTTTTCTCCAAATAATAACGCATTTTCTCCAGTGCTAGAATGGATATCTATATAG
>LACTIS1119B1_10530 hypothetical protein
ATGCCATTTCCTAAAGCCGTTGCGGTTAGAAATACTAATGATTTCTATTTCCAACCACAATTAAATAAGCTCCGAATGGCTGCTCCAGAAAGTTTAAGGTCCATATATATCCCTAAACTAGGACTAGATTCATATCTCATCCATATTGACTCCGTACCTGGATGGAGATATAGTCATGATCCATTAAAAATCGATTATATATATTTGATTTCAGATAACTTTGAAAGTGACGTAGATTTATTAACTTTTATTCAATATTTGCTTGCCCAAGCAACCTTGTCAGATAGCTCATACGTTACGACACTTGTTCATATATTCAACCTGCTACAAGCACCACCATTTTTAGTAGACATCCGGAATCATGAAAAAATGTTCCAATTACTACATACACACCATTTACCAACTTACTAA
>LACTIS1119B1_10540 xanthine/uracil/vitamin C permease
ATGGAATTTATTAACAAGTATTTCGAGCTCGACAAACTCGGTTCAAACCCTAAGCGGGAGTTCATCGCTGGTCTGACGACCTTCTTCGCGATGTGCTACATCCTTTTCGTCAACCCTAGCGTCTTGGGCGCCAGCGGGATGGACAAGGGCGCGGTCTTCACGGCAACTGCCCTGGCCAGCGCGCTCGGCTGTCTTATCATGGGTATTTTTGCCAACTACCCGATCGCTACTGCCCCGTCTTTGGGTCTTAACGCCTTCTTCGCCTACACTGTCTCCATCGGCATGAAGGTGAAGTGGCAGACTGCCCTGGCCGCTGTTTTCCTGGCCTCAATCATCTTCATTTTGATTACGGTCTTCAAGCTGCGGGAACTGATCGTTGACAGCATCCCTAACGACTTGAAATTTGCCATTTCCGCCGGGATCGGGATCTTCATCGCCTTCCTGGGCCTGCAAAACGGCAAGCTGGTTGTCAACAGCGCTTCTACTTTGGTAACTATCGGTTCCTTCAAGGACCCAGCTGCCTGGGTAACCATCTTCGGTCTGCTGGTAACCATCTTCTTGATGATCCGGCAGGTGCCAGGCGCGATCTTCATCGGGATCGTCCTGTCTTCAATCTTCAGCATCCTGGTTGGCCAAAGCAAGATGCCGACTTCAGTCGTTTCTTTGGCGCCAAGCTTGAAGCCAAGCTTCGGCCAAGCTATCTTCCACCTGGGCGACATCAACACGGTGCAGATGTGGACGGTCGTTTTAACCTTCCTCTTGGTGGCCTTCTTTGACACCACTGGTACCTTGATCGGTCTGGCTAACCAGGCTGGACTGATTGACAAGGACGGCAAGATGCCAAGAATCGGCAAGGCCATGGCGGCTGACTCAACGGCCATGATGGCTGGTTCCATCATCGGTACTTCACCGGTTGGCACCTACGTTGAATCTTCATCCGGGATCGCTGCCGGCGGCCGGTCTGGTTTGACTGCCGTTTGGGTTGGCATCTTCTTCCTTTTGTCCATGTTCTTCAGCCCGCTTTTGAGCGTGGTAACGACTACAGTTACTGCTCCAGCCTTGATCATCGTCGGCGTTTTGATGGCCGCCAACCTGGCCAAGATCTCCTGGGACAAGCTGGAAATCGCTGTTCCAGCCTTCTTGATCGTGATTGGCATGGGCTTGACCTACTCCATCGCTGACGGGATGGCCCTGGGGCTGATCGTTTACCCGATCTCCATGACTGCTGCCAAGCGGACCAAGGAAGTCAGCCCAATGATGTGGATCCTGGCTGTAGTCTTCGTGATCTACTTCTTGATCTTGAACGTCTAA
>LACTIS1119B1_10550 glutamine ABC transporter ATP-binding protein
ATGGAAGAAAAATACAAGGTTCAGGTAACTGACCTGCACAAGAGCTATGACGGCGTTCATGAAGTCATCAAGGGCGCCAGCCTGGACGTCGCGCCAAGCGAAGTCGTCTGCATCATCGGTCCGTCTGGTTCAGGCAAGAGTACCTTCCTGCGCTGCATCAACAAGCTGGAAGACTTCCAAGACGGCCACATCTACTTGGATGGCGTTGACCTGGCTGACCCAAAGGTCGACATCAACAAGATGCGGGAAAAGATCGGCATGGTCTTCCAGCACTTCAACCTCTTCCCGAACATGACCGTCCTAGAAAACATCACCCTGGCTCCGGTCGAACTGGGCAAGGAAGACAAGGAAACGGCCATCAAGGAAGCCCACAAGTACCTGCAGATGGTCAACATGGATGACAAGGCCGACGTCAAGCCGACCACCCTGTCCGGCGGCCAGCAGCAGCGGGTAGCCATCGCCCGGGCCCTGGCCATGAAGCCGGATGTCATGCTCTTTGACGAACCGACCAGTGCCCTGGACCCGGAAATGGTCGGCGACGTTTTGAACGTTATGAAGAAACTGGCCCAGGAAGGGATGACCATGATCGTGGTAACCCACGAAATGGGCTTCGCCAAGCAGGTGGCTGACAAGGTTGCCTTCTTCTACGGCGGCGTGATCAAGGAACTGGGGACGCCGGAAGAAATCTTCGACCACCCGCAGGAAGAAGAAACCAAGAACTTCTTGAACAAGGTTTTGAATATCTAA
>LACTIS1119B1_10560 glutamine ABC transporter substrate-binding and permease protein
ATGCATTTAAAGAAACTTCGCAAACTTCTCCTGCTGCCAGTCAGCCTGCTCATCGCCGCGCTGTTCTTAACGGCGCCCAAGGCCCAGGCTGCTAGCAAGAAGACTTACATCATCGGTACCGACCAGACTTTCAAGCCCTTTGAAATCCAAGACAAGGATGGTACATACAATGGCAAGAACCCGGGGATTGACATCGAAATCCTCCGGGAAATCGCCAAGCACGAAAACTTCAAGTACGAGCTGAAGATCATGTCCTTCAACGCCGACGTCCAGGCCCTGCAGTCTGGCCAGATCGACGGGATGATCGCCGGCATGAGCGTGACTGAAGAAAGAAAGAAGACCATCGACTTCAGCAACTCCTACTACACTGACGGGGTCTGCCTGGCCGTGGCCAAGGACAGCAAGATCACCAGCATGAAGGACCTCAAGGGCAAGACGGTTAACGTCAAGACCGGGACTACTTCTGCTATCTATGCCAAGTCCATCCAAAAGAAGTACGGCTTCAAGCTGAAGTACTACACCAACTCCAACACTTCCTGGGCTGACGTCAAGGCCGGCAACGCTGACGCCTGCTTCGACGATGGTCCGTCCCTGCGCTACGGGATTGCCAACGGGACCGGTCTGCGCATCGTCGGCAAGCAGGTTTCCAACGCCCCTCTGGCTTTTGCAGTTAAGAAGGGGGAAAACCAGGAACTCCTCAAGATGTTCAACGACGGTCTGGCCTGGCTGAAGAAGACTGGCCGCTTAAAGAAGATCGTCAACAAGTACACCAGCAAGAAGGCTGTTAAGAGCCAAGTCGTAGCTGATACTTCAATTTTGGGCTTAATCAAGGACAACGCCGGCGCTCTTCTGCAAGGTCTGTGGATGACCATCGAACTCTCAATCGTCGGCATCCTGGCCGCCCTGGTCTTCGGTTTAATCCTCGGGATCATGGGGATCGCTGAGCACAAGTTCTGGCATGGCCTGGCCAACGTAATCATCTACATCTTCCGTGGTATTCCAATGATGGTTCTGGCCTTCTTCATCTACATCGGCATGCCAACCTTGCTGGGCCACAAGCTGCCCCTCTTTACCGCTGGCATCCTGACTTTGATGCTGGACGAAGGGGCCTACATCGGGGCCATCGTCCGCGGGGGCTTCGAATCAGTTGACGTGGGTCAGTGGGAAGCGGCCCGGTCCCTGGGTCTGCCTTACTACAAAGCCCTGTGGAAGGTTGTTGCCCCGCAAGGCTTCAAGCTGATGATTCCATCCCTGGTCAACCAGTTCATCATCACTCTTAAGGACACTTCCATCCTTTCCGCCATCGGGGTCATGGACTTGACGCAAACTGGTGCCAACTTGATCGCCCAAAACTTTCAGGGCTTCAAGATGTGGCTGATCATCGCCGTAATGTACCTGATCATCATCACCCTGCTTACCTGGCTGTCCAACTACATTCAAAAGAAGATGCAACATTAG
>LACTIS1119B1_10570 deoxyadenosine kinase
ATGACCGTTATTGTATTAAGTGGGCCCGTTGGAGCCGGTAAATCCAGCCTAACCGCAATTCTTTCCAAATATCTGGGGACCAAGCCTTTCTACGAAAGCGTCGATGACAACCCTGTCCTCCCGCTTTTCTACAAGGACCCCCTCAAGTACACCTACCTGCTACAGCTCTTCTTCTTGAACACGCGCTTCCACAGCATTAAAAAAGCCCTCAGCGACGACAACAACGTCCTGGACCGGTCCATCTATGAAGATTCTCTTTTCTTCCATATGAACGCCGACATCGGCCGGGCCAATGACCTGGAAGTCCAGACCTACGACGAGCTGCTGGAAAGCATGATGAAGGAACTGGAGCGGATGCCTAAGCGCCATCCTGACCTCCTGGTTCACATCAATGTTTCCTATGAAACAATGATCAGACGGATCCAGAAGCGGGGCCGGTCTTACGAGCAGCTCAGCTTCGACCCGACCCTGGAAGACTACTACAAGCGGATGCTCCGCTACTATGAGAAGTGGTATGACGACTACGACTACTCACCAAAGATGATGATCGACGGCGACCACTACGACTTCATGGCCAGCGAAAGCGACCGGACTGAAGTCCTGGACCAGATCACCCAGAAGCTCAAGCAAGTGGGCAAGCTGCCAAAGAACTGGCAGGCCGGTGAAATTGCCACCGAATCAATCGAATTTTCATCTTAA
>LACTIS1119B1_10580 deoxynucleoside kinase
ATGAATAGAAAGAGTGTGATCACCGTTATTGTCTTAAGTGGCCCAATTGGAGCCGGCAAATCCAGTTTAACCAGTATCCTCGCCAAGCACCTTGGCTCAACAGCATATTACGAAGAGGTCAACAACAATCCGGTTCTGCCTTTGTACTACAAAGACATGAAACGGTACACCTTCCTCTTGAACACCTACTTCTTGAACAAGCGGCTGGCTGAAATCAACGCCGCCGCCGGCAACCACAACGACGTTTTAGACCGGTCCATCTACGAAGACTTGCTCTTCTTCAACATGAACGTCGATAACGGGGTTGCTGACCCAACTGAATATCAGATCTACCACGACCTGATGGACAACATGATGGAAGACGTGCCAGGCAATCCGCGCAAGAAGCCGGACCTCCTGATCTACATCCACGTCTCCCTTGACACCATGCTCAAGCGGATCGGCAAGCGGGGCCGGGAGTTCGAACAGCTCGACTCCGATCCAGGCCTGAAGGAATACTACCAGAACCTCCTGCGCTACTACGAGCCCTGGTATGAACAATATGACGTTTCACCAAAGATGATGATCGATGGTGACAAGTACGACTTTGTCGACAACATCGATGACCAGGACCTGGTTCTGGACATCATCGACAACAAGCTGCGCGAAATCGGTAATTTATAG
>LACTIS1119B1_10590 hypothetical protein
ATGGACGTTTTGAAAAGTGTATTTACGTTTATGATCGCTTCTACGCTCGTTGTAGGTGGTGTTCTCATCGGCGCCACCGTCTTGGCTGCTAAGAAGGTAGATGGCATTGGTGATACGTTGCAACAAAAATTACATGAATAA
>LACTIS1119B1_10600 transglycosylase associated protein
ATGGGACTTATTTGGAAATTAATCATCGGGGCAATCATTGGTGCCATTGCTGGCGCAATCACTAACCGTGGTGCTGCTATGGGCTGGATTGCAAACATCGTAGCTGGTTTGATTGGTGCATGGATTGGCCAAGGGCTCCTTGGCACTTGGGGCCCTTCATTAGCTGGCATGTCATTGATACCATCGATCATCGGGGCAATTATTTTAGTTCTGATTGTTTCATTAGTTGTTGGTCGAACCAGTAAAAAGTAA
>LACTIS1119B1_10610 hypothetical protein
GTGGATCTCGACATTGTTGCTGAATACGGCATTGATATTTCTAAACTGTATGACAAGATCAAAAATGTTATCGTTCGGGAAGTAAAGAATATGACCGACTTAGAAGTAATTGAAGTAAATGTTCATGTTGTTGATGTCAAGACAAAGGAGCAACATGAACAAGATTCGACTTCTTTGCAAGATCGCGTGAGCGATGCACTCAGTAAGGGCGCAAAGAAATCGAAGGAAACATTAAGTGACAGCGTTGATAAAGTAACGTCTGACAATAAATCTAGTCGTGTTAACTAA
>LACTIS1119B1_10620 hypothetical protein
ATGCAGAACAGAACGCCAAGTGAAAAAGCAACAACTGACGAAAAGTCTGGTATTAAAGGTAATTTAACATTTGATGATAAGGTTATTCAAAAAATAATTGGTATTGCACTTTCTGAAGTAGATGGCTTATTAACCGTAGATGGCGGTTTTTTCGCAAATGTTGCTGAAAAACTAGTTAATACTTCCGATGTCACATCAGGAATTGATGTAGAGGTTGGAAAAAACAGGTTGCAGTGGATCTCGACATTGTTGCTGAATACGGCATTGATATTTCTAAACTGTATGACAAGATCAAAAATGTTATCGTTCGGGAAGTAA
>LACTIS1119B1_10630 hypothetical protein
GTGCCCGAACTCATTAAAGCTTATTTTTGGCCACTAATTGGTGGAATTATAGGATTGCTTTTAGCGGTCCTTATCATCACTTTTGGATTTTTCAAGACGCTTTTTGTTTTGATTTTTATGGCAATTGGGATTACCGCGGGCTATTATATTCAAAAAACTGGTATCTTAACAGATGTTTTTAAATAA
>LACTIS1119B1_10640 hypothetical protein
ATGAGATTTATATTCAAGGCTTTAATAGTAGTTGTTATTATCCTTGCATTTCCTTTGTCCATAATTCTTGTCTTTAAAAATTGGTCAACGGCCATTGGCACTAGCACACCCATGCAATTAAAGTTTGATTGGTTGGATCAGTACGAACCGATATACCTTTTTTGGAGTGGGATAATTCTGGCGGCGGTGTTAATTGTTTTATTGATTATCACACTTTTTTGGCCACGGTCACAGTCATTATATCTTCATCAAAAGTCTGATGGTCAAGTTACCATCAGTAAGAAAGCTATTGAGCATTTTGCTCTTTCAGCACTTCAACATGAACCCTTTATTGGTAACCCCAAGGTATCAGCTAAGTTATCACGAAAAAGGATCACACTTAAAATATCGGGTGATCTACTAAATTCAGTCAATGCCAAGAAACAGACTGCAGATTTTCTCAATCAATTAAAAAAAGATTTGCGTATTTGTCTTGGAATTTCTGAACAGAAAAAAATAAAAATCCGACTCGTTGATTTCAATGAGTCGGGCGCTAATGTGCATCAATCTCGAGTTGTCTAG
>LACTIS1119B1_10650 glucosamine-6-phosphate deaminase
ATGAAAGTTATCGTTGTGAAAAACGCCAGTGAATTAGGCAAACAGGCCTTTGACCTTTTGGCAAAGGCGGTTGACGAAGGGGCTAAGACCTTGGGCTTGGCAACCGGGTCTTCACCGGTTGAGCTCTATCAGGAGATGGTGGCCAGCCAGCTCGACTTCAGCCAAATGACCAGCGTCAACTTGGATGAATACGTCGGTCTCAGCCCGGAAAACCCGCAGAGCTACCACTACTTCATGAACCAGCATCTCTTCCAGTACAAGCCATTCAAGCGCTCCTACCTGCCAGACGGCCAGGCAAAAGACATCCAGGCAGAGTGCGGCCGCTACAACCAGATTTTGGCAGACAACCCGGTAGACTTGCAGGTCTTAGGGATCGGGCAGAACGGGCACATCGCCTTCAACGAACCGGGGACGCCGTTTGACAGCGTGACTCATGAAGTTGCTTTGACGGAAAGCACGATCAAGGCCAACGCCCGCTTCTTCGACAGCATTGATGAAGTGCCAAAGAGCGCCATCTGCATGGGGATTGCCAATATCATGGCGGCTAAGGAGATCATCCTTTTGGCCAAGGGGGAAAGCAAGGCTAAGGCTATTAAGGCCATGGTTGAAGGACCAGTGACTACGGATGTCCCGGCCAGCGTCCTACAAAAGCACCCGAACGTTACGGTGATTGCCGACCAGGCAGCCGCGAGCTTGCTTAAATAA
>LACTIS1119B1_10660 aldehyde oxidoreductase
ATGAAATACATGACCGTCAAAGGGGAAAAACTGAGCCAGCTGGGCCTGGGCACCTGGAACATGGGGGAAAATGCCAGCAGGCGGGAGGAGGAAATCGCGGCCATAAGGTATGGCTTGTCTGCCGGCGTCAACGTAATCGATACCGCTGAAATGTATGGGGAAGGGCGGGCTGAAAGCCTGGTTGGCGAAGCCATCAAGGACCTGGACCGGAGCCAGCTCTTCCTTATTTCCAAGTTCTACCCCTGGCATGCCAGTCCTGATGACCAGAAAAAAAGCCTGGCCGCCAGCTTAAAGCGGCTGGGGACAGACTATCTGGACTTGTATCTTTTGCACTGGAAGAGCGATTATCCTTTAGCAGAAACCGTCAAGGGCCTGCAGGATTTGCAAGCTGCCGGCCTGATCCGCCACTGGGGAGTTTCCAACTTCGACACGGCTGACATGCAAGAGCTGGTAGATATCGCCGGGGAAGGGGCCGTTTTTGCCAATGAAGACCTCTACAATCTCGACAAGCGGGGCGTTGAATATGACCTCCTGCCTTGGCAAAAGCAGCACGGCATTGCTTTTATTGGCTATTCGCCCTTTAACTCAGGCAACGGGCAATCTATCCCCGTTAAAGCCAGCTTAAAGCAGATCGCTGACAAGCGGGGCGTGTCCGTTCACCAAGTATTGCTGGCCTGGACCATGCGGACCGGGCAGGTCTTGACCATTCCTAAGGCCAGTTCAGTTGACCACATGCGGGCCAACCTGGCGGCTGCTGACCTGGTCTTGACCGCCGGTGAACTGGCCGCCTTGGACCGGGATTACCTGCCACCGAAGAGCAAGCAGCCTTTGGAGAGCATTTAA
>LACTIS1119B1_10670 hypothetical protein
TTGCAAGCAGAATTAAAACAGCTTCCTTGCCAGCCAAGCGGCTGGATCATCAGCCGCTTTTTGGACTGCGGGGAAGAAGACGGCAAGGTCTACGACTACTACAAGACCTTCGTGGAAATCAGCTGA
>LACTIS1119B1_10680 hypothetical protein
TTGAGCCGGAAGCAGTTTACCCTGCTGCGGCTGAGGTGGTCCTGGCCCTATCTGGCCTGCCTGTTTGTGATCCACTTGATCTACTGGCCGGGCAGCTGGCTGGCCGCCGTATCCCTTATCCTGCTCTTTGCCGCGGCTGCCGGGATGACTCTTTACCAGCGCCGCTACTTAGGCGGGATCAAAGACAGCATCTGGGTCTTCGCGGTCTTCGCACTTTTGCGCCTGCTGACGACATTGCTTTTTAAGATCTGA
>LACTIS1119B1_10690 hypothetical protein
ATGAGCGACAATGAGTCTCACCAGGACCACTTCAACTTCAGCGAGTACCTCTTGATCGTCCTGGCCCTGGTTGCCTTGACCCTGGCCGTTAACAACTTAAGCTCCGGCTTTGCCAGTCCGCTGGTTTGGGGCGGGCTTTTGGTCACGGTCATTTCCTTTGTCATCTTCTTCAAGCTGGCCAAGCAGGAAGGCAAGGCCCACATCATCAATATTTCCGTTTTGAAAAATACCGGCTTTAACCAGGGTCTGCTCATCTACACTTTCCTGCAGTTCATCCAGATCAACCTGACCTTTGTCATCCCTAACCTGACGCAACTGGGTCTGAAGACCAGTGCCTTGACCAGCGGGATGCTGCTGCTCCTGGGCAGCCTTTTGTCAGCCTTCTTCGGGCCGGTAATGGGCCGGCTCTTGGACAGCCAGGGCTTCAAGAAGCTCTTCTTAATCGGCAACTTCCTGGCCATGGCCAGCATTTTGCTCTACATCATTTTTGCCCAAAAGCTCTCCATTGCCTTGATCGTGATCTTCCACGTCATGTTCATGACCGGCTTCAGCATGATGTACAACAACGCCATGACGATCGGCCTGCAGCAGCTGGAAGTCATGCACATCGCCGGCAGTCCTTACCAGGGGCAGAGCAAGCAGGTAGTCATGGGGTCACAAGCCGCCTTCATCGTCCTCTTCATCTTCACCCTCTTGATTTTTGCCTGCGTCTTGCGCTTGATTAAACGCGACAAGCAAGGTCTGGTCAAAAACTAA
>LACTIS1119B1_10700 hypothetical protein
ATGAAGGTCTTCAACCAGTCTTTGAACAACGTGCAGTGGATTACCACGGCCTACCTGCTGGCCGTTACCTTGACGATCGTCCTGGCTGCCTACCTGCATCGCAGCTTCAAGTTCAAGAGCTTGATCATCGCGGCAGGCACGGCCTCAGTCATCGGCGGGGTGATCTGCATGCTGTCCAATACCTTGCCGGTCATGCTGGAGGTGCCCCGGGCCAAGCAGGGTTCTTTCGTCGGGACAGCGGGCATGATCGTCGCCCTGGCCCCGTCACTTGGGCCGACCTACGGGGGGATCTGCCTGGCAGCTCTTAACTGGCGGTTCAACTTTATCTTTACCCTGCCCTGCCGATCACCATCGTCTTCTGCATCATCGCGGCCCGCTTCATGA
>LACTIS1119B1_10710 sugar ABC transporter permease protein
ATGAACTTCGTGACTGTATTAGCCTTAATCGTTTCATCAACTTTAGTTTATTCAGCTCCCTTGATTTTCACCGCTTTGGGCGGGACCTTCAGTGAAAACTCAGGGATCGTCAACGTCGGTTTGGAAGGGATCATGACCATGGGGGCCTTCACCTCCATCGTCTTCAACCTGAGCTTCGCCTCAACCTTCGGCACCGCTACTCCATGGCTGGGTGCCCTCTTGGGCGGGATTGTCGGGATCATCTTCTCCCTGCTGCACGCCGTTGCCACGGTCAACTGGCGGGCTGACCACGTTATTTCCGGGACGGTCTTGAACTTGATGGCGCCGCCATTGGCCGTCTTCCTGGTCAAGGCCATCTACAACAAGGGGCAGACCGAAAACATCAACCAAAACTTCGGCTACTTCTCCTTCCCTGGCCTGGCCAACATCCCGGTTATTGGGCCGATCTTCTTCAAGAACACTTCAGCTCCTGCCTGGGTGGCCATCGTCTTGTCCATCTTCCTCTACTGGGTACTATACAAGACCCGCTTTGGCCTGCGCTTGCGGTCCAGCGGTGAAAACCCGCAAGCTGCCGACACTTTGGGGATCAACGTCTACAAGATGCGTTACGCCGGCGTCTTGATCTCCGGTTTCCTCGGCGGGATCGGCGGGGCCGTCTTCGCTGAAGCAATTGCCGGGAACTTCTCAGTTTCCACTATTGCCGGGCAAGGTTTCATGGCCCTGGCGGCCATGATCTTCGGCCGCTACAACCCAATCGGCGCTATGCTGTCCTCCCTCTTCTTTGGCTTCGCGCAAAGCTTGAGTATCATCGGGGATCAGATTCCAGGCATTTCCAGCCTGCCATCCGTTTACCTGCAGATTGCGCCTTACGTCTTGACGATCATCGTTCTGGTGGTCTTCTTCGGCAAGACTGTCGGGCCAGCTGCCGACGGGCAAAACTACATCAAGTCGAAATAA
>LACTIS1119B1_10720 branched-chain amino acid ABC transporter permease
ATGATTAAGGTGAGCCCTAAAGCCAAGCGGCTTTTAGTGCCGATCGTTTCTGTTATTGCCGGCTTTTTAGTCGGGGCCATCATCATGCTGGTCTGGAGCTATGACCCATTCCAGGCCTACAGCTCAATGTTTGAAAGTGCCCTGGGCTCAGCCAACGGGATCGGGGAAACCATCCGTAACGCCACCCCGTTGATCTTTATCGCCATCGGCTTCCAGATCTCTTCAGCCGCTGGCTTCTTCAACATCGGTCTGCCGGGCCAGGCGCAAGCCGGCTGGCTGACCGCCATCTGGATCGGCCTGGCCTTCAAGGGCCTGCCCGTCTACATCCTCTTGCCATTTGAAATCATCGCCGGCATCCTGGCCGGTGCCTTGGTTGCCGGGATTGCCGGCTGGCTGCGGGCCTACTTCGGAACCAACGAAGTTATCTCAACCATCATGCTTAACTACACCGTCCTCTACCTCTGCCAATACCTGCAACAGGACGTCATGAGCAAGAGCCTCCGCGTTGACACTGACACTACCAAGACCATCGGGGCTAGCGGCAGCCTGCGGATTCCGTGGCTGAGCGAAATGTTCGGCGACTCCCGGATCAGCGGCGGTATCTTCCTGGCCATCATTGCCCTTGTCATCTTCTGGTTCTTGATGAAGAAGACCACGGTCGGCTTTGAAATCAAGGCGGTTGGTTTGAACCCATTCGCCAGCCGTTACGCCGGCATGAGCGACAAGAAGAACATCATCATCTCCATGCTCCTGTCAGGTGCCTTCTGTGGCCTGGGCGGGGTCGTACAAGGTCTGGGGACTTACCAGAACTACTTCACCCAAACGACTACCCTGGACATCGGCTGGGACGGCATGTCCGTTGCCCTTTTGGGCGGCATGAGCGCCATCGGCATCCTGCTGGCTTCACTGCTCTTCTCTATCTTGAAGATCGGTGGCCTGGGGATGCAGACGGCAGCCGGGATTCCATTTGAAATCGTTTCTATCGTCATCGCTGCCATTATCTTCTTCGTAGCCATCAGCTGGGCTGTCGGCCTCCTTTTCAAGGAAAAGAAGTCTGACAAGACCGCGACCTATATTGCCACGGCGGAAACCGCCGGCCGGCAAGCCACCAATGACCAGCAAAAAGGAGGGGAAGCATAA
>LACTIS1119B1_10730 heme ABC transporter ATP-binding protein
ATGGAAAAAGAGATCAAAAACATTATTGAGATGCGCCATATCGTGAAAGACTTTAACGGTTTTAAAGCCAACAACGATATCAACCTCACGCTCCGCAAGGGCGAAATCCTGGCGCTTCTTGGCGAAAACGGCGCCGGCAAGTCTACTTTAATGAGTATTCTTTCCGGCCTGCTCGAACCAACCTCTGGCGAAATCTACGTGCGGGGCGAGAAAGTCAACATCTCCGGCCCAAACGTCGCTACCAGCCTGGGGATCGGGATGGTGCACCAGCACTTTATGCTGGCCCAGGCCTTCACTGTCCTGGAAAACATCATCTTAGGCCACGAAACCACCAAGGGCCTGGCCCTGGACTTCAAGACCGCCAGAGAAAAGATCCTAGCCCTGTCCAAGCAATACGGCCTGGCCATCGACCCTGACGCTAAGATTTCCGACATCACCGTCGCTCAGCAGCAAAGAGTTGAAATCCTGAAGGTCCTTTACCGCGGGGCCGACATCTTGATCTTCGACGAACCAACTGCCGTTTTGACGCCGCAGGAAATCACTGAATTCATCAAGATCATGAAGAACCTGGCCAAGGAAGGCAAGTCCATCATCTTGATCACCCACAAGCTGAAGGAAATCAAGGAAAGTGCCGACCGGGTCACTGTCATCCGGGCTGGTAAGTCCATCCAAACCGTCAGCGTTGCCGATGCAAACGACGAACAATTGGCCGAAATGATGGTTGGCCACCATGTTAACTTTAAGCTGGACAAGGCTCCCATCAATCTAGGCAAAAATATCCTGGAAGTCAAGGACCTGCACGTCAATGAAGACCGGGGGACCGAAGCAGTCAAGGGTCTCTCCTTCAATATCCGCGGCGGGGAAATCCTTGGTCTGGCCGGGATCGACGGCAACGGCCAGGACGAACTGGTCGAAGCCATCACTGGCCTGCGCCATGTTGAAGGCGGCCAAGTCGTCATCAACGGCCAGGATTTGACCAACAAGCCAGTCCGCCAAATCACGGAAGCCGGCGTCGGCCACATCCCTGCCGACCGGCAAAAGTACGGCTTGATCCTGCAACTGCCTTTGTCTGAAAACATTGCCAGCCAGACCTACTACAATGAGCCTTACTCCAAGCACGGGATCATGAACGAACAGACCATCCGGGAACACGCTCGGGAACTGATCAAGAAGTTCGACGTCCGCACGACCAGCGAACAATTGCCAGCCAGCGACCTGTCCGGTGGTAACCAGCAAAAGGCCATCATCGCCCGGGAACTTGACCGGGACGCTGACCTGATCATTGCCTTCCAGCCAACCCGGGGCTTGGACGTCGGGGCCATCGAATACATCCACAGCCAGCTGCTGAAGCAAAGAGACGCCGGCAAGGCCGTGCTCCTTGTGTCCTACGAACTTGACGAAATCTTGCAGCTGTCTGACCGAATTGTCGTCCTGCACGACGGGGCCGAATCAGGTGAAGTTAATCCTGACCAGACTAGTGAAACTGAACTCGGTTTGCTTATGACCGGGAAGAATACCAAGAAGGAGGCTGCCGCTAATGATTAA
>LACTIS1119B1_10740 membrane protein
GTGTCTGTTTCTAAATTTAAAAAGTTAGCAACCATCGCTACTGCTGCTGTTTCAGTTTCAGTTCTGTTGACTGCCTGCCAAGGCAAGAAGTCTAACACTTCCGTCAACAAGGACACCAAGCACGGTATCGCCTTGATCACTGACGGTAACGGTGTTGACGACCACTCCTTCAACCAAGCCGCTTGGTCTGGTTTCAAGGACTACGGCAAGGAACACGGCCTCAAGCAAGGCAAGGGCGGTTACCAGTACTTTGAATCATCATCTGCTGCTGACTTCACCCCTAACCTGACTCAAGCTGCCCAAGCCGGCTACCAAACCATCTACGGTGTCGGCTACATGCTGACTGACTCATTTAAAGCCGCATCCAAGAAGTACCCTAAGAAGAACTTCGTCTTGATCGACTCAGTTATCACTGGCCGCAAGAACGTTGCTTCAGTTACCTTCAAGAGCAACGAAGCTTCCTACCTTGGCGGTCTGGCTGCTGCCTACACCACCAAGACTAACAAGGTCGGCTTCATCGGCGGGGCCAAGTCCAGCGTCCTGGACCTCTTCGAAGCCGGCTTCAAGCAAGGTGTCAAGGATGGTGCCAAGGCCTTAGGCAAGAAGATCACCGTTTACGACCAATACATCGGCAACTTCACCTCAACCGACAAGGCCAAGTCAATCGCCCAGTCAATGTACACTGACGGCGCTGACATCATCTACCAAGCTGCCGGCAACGCCGGTAACGGTGTCTTCACCGAAGCCAAGACCCGCAACAAGGCAACCACGGCTGCCAAGAAGGTCTGGGTCATCGGTGTTGACGTTGACCAGGCAAACCTGGGTAACTACACTTCAAAAGACGGTAAGAAGGCCAACTTCACGCTGACCTCCGTATTAAAGGGGCTGCGTTTCGCATGCAAGGACATCGCTGACAAAGCCTACAAGGGCAAATTCCCTGGTGGTAAGGTAATTTCCTACGGCTTAGCTCACGATGGCGTCTCTGTCACTAAGGGGAACCTTGATGCCAAGACTTGGAAGGCAGTGCAAGCTGCCCGCAAGCAAATCCTGGCTGGTAAAATTAAAGTTGCAACTGCTCCAAGTAAGTAG
>LACTIS1119B1_10750 hypothetical protein
ATGAAGTCCAATAAAAAGCCATTTTATAAGCAATGGTGGGCTGTAACCATCGCCTTCATTTTCGTGTTTTTTGTCGGCTACATCTTCGGCTCTGCCGCTTCTTCGAGTGACGACTCCAATGACGAAGCCTCTGTAGCCAGTTCATCAAAGAGTTCTTCTAAGAGCACTACTGACGACAAGTCTTCTGGGAAAAACAATGCTAAGAAAACTTTGACTGTCAGCTATAAAAATTACGAAATTTCTTCAGAAAAGACCTTTAAGCCGAACTATACGAATAACAGCTGGGCCGGCGGCAGCGTATCTGTCGACAGCATTACTTTGTACAAGACAGCCAAGGCCTACAATTATGATAGTGCCAACGATGGCAAATTCACTATTCAAGGTTTCATGCAGATTCATTACGTAATTAAGACCAAAGCTGATGTTTCAGTTTACCCGACTCAAGGAACATATATCTACTCCAATGGTGAACAGCACGGAGCAGATTCCACTGAAAGTTGGGATGGCGATATTTCTAAGAACGTAACAAAACAAGGAACGGTAACTGTCCCAGTCGAAAAGATTTCAAGCGTCAACAGTGTTCGCGTAAAATTTGACGCGAGTGGCCAAGACTTTAGTGATGATTCTTTAGACCACGATTTTGATTTCACTATCACTTTGTCCTAA
>LACTIS1119B1_10760 hypothetical protein
ATGAAAGTAGTTGGAATTCTGTTAATCATTTTAGGCGTTATTGGTATTGCCATTGGGCTGATGATGTTCGGTGATATTGGCGTAGCATGTATTGTCGGCGCTCTTGCCGCCCTGCTGTCGGGATTCGGCTTCTTAAGCGTTAACAACAAGCTGAATAGTTCTGAGTCTTAA
>LACTIS1119B1_10770 serine/threonine protein kinase
ATGAAGCAAGGAAAAATAAGCGATTACGTTAATCCCGTCCCCATTAAAATAACGGACGACAAGGCAATTTTCAAAGTTGAAAAGCTGGTCCCGACCCCTTACATCGAGCGGGTCCTTCCTTTAGAGTACGCTCCTTTATATGAACAGCTGGCTGAGCTGGACACCGCGATTCCCAAGATTGTCTGCCTGGAAAAAAGCGACCGCCTGACCGTCATCGAAGAATACATCGACTCTCCCCGTCTCGACCAGTACTTAGAGACCCACAAGCTCACTTCTGCCCAGATCCACGACTTAATCTGCCAGCTGCTGGACGTCCTCGCGGTCCTGCACCAGCAGACACCGCCGATCATTCACCGGGACATCAAGCCGGAGAATATTTTTTATGATGGCCAAAAGCTGATCCTGGCCGACTTCGATATCGCCCGAAACATGCAGGAAGACGCTGACCGCGACACCCGCATCCTGGGGTCAGTGGGCTACGCGGCCCCAGAACAGTTCGGCTTCAGCCAGAGCGGGCCAGCCAGTGACTTCTATGCAGTCGGTGTGCTGATGAACGTCCTTTATACTGGCTACCTGCCCAGCGTCCGCCTTTATAAAGGACCAGAACGGGAAATCATTGAAAAAGCTACCCACATCAACAGCCAGAAACGCTACCAAAACGCCCGGGAATTCAAGGATGCGATTACTGGCTTAGGCCGGTCCAGCTGGCTTTTGCCAGGCTTCCGCAGCCATCAGCCCGCCCGCATGCTTACAGCCGGTTGCGGCTACTTATTGATGCTGTTTAGTTCCTTTAGTATGGACGCCAAGAGCGACTCAGCGGCTGACAGTTTCCTGCTCCGCCTGTCCTTTTTCATGGTTCTTTTCTTGATCGTCCTTTTTGCCTGCAACTACCGCAATATCAAGAGCATGTGCCTTTTCCATTCATCCAAGTCCAAATTTACCCGGGCCTGCGGGATCATCATCAGCTACCTGCTCGTGGCCACGGTTTTGACCACGGCTTTAGCCGCTTTATCGGTAGCGATTTCATCTTTTGGCCATTAG
>LACTIS1119B1_10780 hypothetical protein
ATGGAAACTGAAAAATTACTCGCTGCTTTGAAAGCAGATCATATTTCTAATGTACTAGATCAAGTGGCTGATTACAATTTTGCCGGCTATTTGAACAAGCTGATCGAAGATAAGGGGGTCAAGAAAAGCGAGCTTTTCAACGAGGCTATGATCGAACGCAGCTATGGCTATCAAATTTTGAAGGGGCGGCGCCTGCCAGCAAGGAATAAGGTTTTGTCCCTGGCCCTCAGCTTGAAATTATCTCTGGCTGAAACCAACCGCCTTCTGTCTTTAAGCGATAACGGGGCCCTTTACGCCAACGTAAAACGGGACGCGGTCTTGATCTACTGTTTGGTTAGGGGGATGTCGGTGATCGATACTGACCAGCAGCTGGCAAATTACGGCTATCAGAGCTTGAACGAAGAAGAATAA
>LACTIS1119B1_10790 hypothetical protein
ATGGAAGAGCTGGTATTGATGGCTTTAGCAGCTGTTTCAGCTTTGTTTGAGCTGGGCAGCCTGACCAGACTGCTGCATGTGAGTTGGAAAATAGAAGACCTGCTGACGGCCGCGGGCTTGGGTATCTTGACTTTTGAATTCATTCTGGCGAAAGAGGCAGACCAGCAGGTCGCCTTGTATTTGGCAAACATTGTTTTGCTGCTGTCGGCTTTTTACTTTTACCACCGGCAAAACTGGCAAATGCTTCTGTTTTATGGCTTGAGCGTGGCTTTGGCAAATCTGTTGCTTTTACAAGCGTTTCTCAAAGCTGGAAGGGGCTCTTTGCTGCTTATTCTGATCTATGCGGTTTTGGCATTAGCGGCGGAAGGCTGGCGGCGGCTGAATGAAAAAAGGCCCAAGCAGCCGGATTATCTGCTGAAAATATATCTGCTTTCTAGTCTTTTAGCTTGGGATTTTAGCTTGTGGCTGTTTGGTTGGTCAGAGGCCAGCCTTTTGATCTTGCTGCTTTTGCAGGCTTGCTTGACCCTGCTGGTTTTATTGGCGAATCAGCGGGACTATGAACGGCAGCTGGCTGACCAGGAAAGAGAGAATTTGCGAAGCTATTTGCAGAGCGTCAGAAAGAGCGAGGAAGAATTGCGGCGCTTTAAGCATGACTATCAAAACATGCTGCGCAGCTTGGAGCTTTCTTTAAAGAATGACCAGGCTTCAGCTGCCTTGGCCAGCTTGAAAAAGTACTCTGATGACATTTTAGAAAGAGAAGAATTGTGGCAGTTTAAGGACGTTGACCGGATTGCTGACCTGCAGTTGCAGAGCCTGGTGATCGCCAAGCTGCAGGAACTCCGCCGGTGGCAAATCCGCTATGTTTTCGAAGCCCGGCAGATGATTGAAGTCCCGGCTGGAATTGACGTATATGACTTGATCAGAATCATTGGGATTGCTTTTGACAATGCCATTGAGGAAAGCATTTCATACCAAGCTAGCGGGCAGGTTCCTGCCGTTGAGATCATGTTCTACCGGGAGCAGGAAAATTCTCTGGAATTTACCATAAAGAACAAGCTGCGTGACCAGCAAAAGGCAGATTTACCCGTTTTTAGCCAGGCAAACTTTACCAGCAAGCGGGGACACGCGGGTTTGGGGCTGAGCAATGTGCAAGAGCTGCAGAAGAAATACGCGAATTTGTTTGTTGAGTATCGAATTGAAGGAGACAAGTTCATTTTCGCGCTGATTATCGCGTGA
>LACTIS1119B1_10800 hypothetical protein
ATGACTGAAATTCTGGTATGTGATGATGACCTGTTGCAGGCACGGTCTTTGGCAAAGACGGTCAAGCTGGCGGGAGAATTCTTGGCGGAGGATTACGGACAAAGCGTTTCTGTTTCAGCAATGGGATCTCCGCAAGAAGCTTTGGCTTACGTGGCTGACCGGCAGGTTCAGCGGGGAATCTACTTCTTGGATATTGAATTTGCCAAGTCAGAAATGGACGGTTTGGACTTGGCTGAAGAGCTCTTGCGTCTTGATCCACAGGGACAGATTGTTTTTGTAACCACGCATTCGGAGCTGGCCTTGCAGACTTTTTAG
>LACTIS1119B1_10810 hypothetical protein
GTGGCGACTTTGCGCCTGGCGCTGGAGAGGCTTACGCGGCTGAATTTGGTCAAAAAGCAGACTTTTACCTATAAAGTCGGCCGGCAGCTTAGAAATATCAACACTGATGATGTCTACTATGTCGTGACGACGCCATTTCCACATAAGCTGCAGCTAGTCGCGAAAAATCTGCGGGCGGAGTTTGTTGGCAACCTTAAGCAGCTTGACCAGGAATGCGATTTTTTGCTAAAAATCTCCCAATCTTGCTTGATCAATCCTAAAAATATAGCTGAGATAGACCTGCGCACCAGGACTATCACTTTATTTGACGGGGAAAAGCTGAAATACGCGCGGAGCTGTGGCCGCCAGCTGCGGGAGCTGAAGCAGAATTGA
>LACTIS1119B1_10820 hypothetical protein
ATGAATAGCTTGTTTTGGGTAAATTTGTTAATCGGCTGCGGGATGCTGCTGAGCGGTTTTAAGCAATTGCCGGTGACTTTCAGCTGGCGGAAATTGGCAGTGATTTTTCTGGCAAGCGGGAGTCTGCTCTTGGTTGAAGGGATGCTGGTCAGAAAGGTGTTTGAAACGGCGCAGGTACTTTTTGTGATTGCGGTTCTCTATTTGCTGCTGGGTCTTGCTGGCCTGGTCATGATGTTTGCCAAAAAGGACCGGCAAGCTTTCACCAGCGAAGATTGGCGCGATTTCGCGGCCGTCTTGATCATCAGTGCCTTGCTGGCCTTCTACTTTTTGCGGGATGCTGCTTTTGACTTATCCAGCATGCTGCTGCCAGAAGCAATGTTTCTTGCTGGCCTGCTCCTGGTCTCTTGGGCCGTTAAAGCCGGGAAAAATTAA
>LACTIS1119B1_10830 hypothetical protein
ATGAAAAAAGAAATTCCAACTCTGCCCTTTAATTCCTCGCAAGGAATAATCATGCTGGCGGCCAGCATCTATAGCGTGGCCCTGTCCTTCATAGTCCAAGAGTACGTCTCCAGCCCCGCAGTCAACAGCTTGGTCAACAACATCAGCGTTGCCGTAAGCGTGGCCTTTGCTCTGGCTATCGGCAGCTTCGTTGACCAGCATGGTGCCTGGCGGATCCTTTTTTTCACCACCTTGCTTTCTGGAATAGCCTGCCTGCTTCCGCCGCTGATTTTTGACCTGGACAAGGTGGCCTTCATCGGCGTCTTAATTGTCGTCGACATTGTCATTTCCATCATCAGTGAGTTCGACAACGCCGCCAGAACCGTCTATATCGTCCGCAAGGAGAACCGGGAGGCCATCCCCTTGGTGCAGCAGGGGATCAGCTCGCTGAACTCTATCTCCTCAATTGTCGGTTATCTGCTGGTTTTCGTGACCCTCAGCTTCGTGGCTTTGCCCAACTACCTCTACCTCTGCGCCGCCCTTTATCTGCTGGCCCTCTTAATCTGGCTGCGGGTACCGGCTGATCAAGTTGTGGCTTCCGCCCAACCCTCCTTCAGCTTTTCCATCCTGGCCCGCGATATCCGGGAATCAGTCAGCATCGTCTTTAAAAACAGCATTGCCTTGATCTTTGCCGCCGAAGTCCTTTTTACCTGCCGGAACCAGCTGGTCATGAGCCTGGTAATTCTAAAAATCGGCCGCTATGATCCCAAGTTCAAGTCAATCCTGGTGATTGGCCTGGGCATCATCTTGGCCGTGGCAGTCGGTGCTGGCCTCAACCGGGCCGTGGTCAGCCTGCCTGCTGGCCTCAAAAAGCTCTCTGTCCTTGCCTTGATCGTCCTTTCTGCTGGGGCGACCTACCTAAGCGGCGGGGCAGGCAGCCAGCTGTCTCCCTTTGTTTTCGGCCTCCTGCTTGGCAGTATTTTTGGTACCGGCATCCCCGTCTACACCTACCTGGAAACCAGCCGGATCATGAAAACACCCGCCGCCTACCTGGGACGGAGCACGGCCCTGCTCCGCTTCGTGGGCATCTTCTTGACCCTGATCATGGCCCTGGTCCTGGGCTTCTTTGAAGGCCGGGTAAAGAGCAGCGTGGCCCTCTACTTCTCAGCTGGCGCCATCATCCTCCTCGTCATCTTCTGCCTGGTCTTGCTCCAGTCCGCCCGCGAAAAGAACGCCTGA
>LACTIS1119B1_10840 membrane protein
GTGAAGAAATTCAAATTCAAGCAAGTTTTGGCTACTGGCACTGTTTTAGCAGCGGGGATTGCCCTGACTGCCTGCTCAGGGGCCAAGCAAAACGGCGGCGGCTCCAACAAGAAGAGCTCAGCCAGCGTGGCCTTGATCACTGACATCGCCGGGGTTGACGACCACTCCTTCAACCAGTCCGGCTGGGAAGGGATGGTAGCTTACGGCAAGTCCCAAGGCTTAAAGCGGGGGACCAACGGCTACCAATACTTTGAATCAAGTTCAGCTTCTGACTTTACGCCAAACATCAACCAGGCGGTTGCGGCCGGCTACAAGACCATTTTCGGCGTTGGCTACTCACTTAAGGGCGCGATTGCTTCAGCAGCCAAGAAGCACACTGACAAGAACTTCGTCATCATTGACGACGTGATCAAGGGGCAAAAGAACGTGGCTTCCGCCAACTTCAAGTCCCAAGATGCTTCCTACACGGCCGGGGTAGTTGCGGCCCGGACCACCAAGACCAACGTAGTCGGCTTCATTGGCGGGGTTCACGGGGACATCGTCGACTTGTTTGATGCTGGTTTTGCCAAGGGCGTGCAGGACACGGCCAAGAAGATGGGCAAGAAGATCACGATTTTGAACCAATACGTCGGCTCATTTACGGCTGCTGACAAGGAAAAGTCAATCGCCAAGGCTATGTTTGCCAAGAAGGCGGACGTAATCTTCCACGCTTCAGGTTCAGCCGGCCAAGGCTTGTTCAGTGAAGCCAAGTCCGTCAACGAAGGCCTGGCTGCCAACTCCAGCAAGAAGATCTGGGTCATCGGGGTCGACTCTGACCAGTCCAACCTGGGCAAGTACAAGTCCAAGGACGGCAAGAAGTCCAACCTCTGCCTGACCAGCGTTATGACTGGGGTCAACGTAGCGGTTAAGGACATTGCCACTAAGGCAGCCAAGGGCAAGTTCCCAGGCGGCAAGCAGCTGGTTTACGGCTTGAAGCACAACGGTGTTTACCTGACCCGGGGCTACGTGGCTGACTCAGTTTGGAAGCAGGCACAAACTGCCCGCAGCCAGATTCTGGCCGGCAAGATTTCCGTACCAAGCCACCCAAGCAAGTAA
>LACTIS1119B1_10850 hypothetical protein
ATGCCATCCGGATTAAACACACTGCTATTTCTATTCAGCCAGAACCGGGCTTTCAGCTACTTTACCATTTTGGTGGCGATTGCCGCGGTAACCTTCATTTTTTCCTGGCTGAGCGACCTGCGCCGCTTGATCAACGGGGTCTTTTTCACCTTTTTCATCGCTTCGCTGGGAGCCTGGTTCACCTTCCTGGTCTATGCCACCAACCTGCCCAGCTTCCGCAAGGTCTACCTCTGGGCCCTGGCGATCCTGGCAGTAACCGTGGCCGTCATCGTCTCCTTCTCCTGGATCCTGCTTTTATGGAACTCCTATGTGGTCTTGAAGCATGAGAGCCATACCCTGCCCAACCTCCTGACCTTGATCCTGGCCGGGGCCATGCTGGGCCTCTGGGTCTTCATTTTCATCGGCCACTTCACCCGCAGCACGCCGACCGGCCTGCGCCTCATCCTGGACATTTTCCCGACGGTCGCGGTCTACCTGGCAGCCGTCATGTACAACTTCCTGGTCAACCTCCTGCTATACCAGATTGTTCCCCGCCGCTACCAGCAGAACTACCTGATCGTTTTGGGAGCGGGCCTGATCCATGGGGACCAGATTTCCAACATCCAGGCGGCCAGAATCAACCGGGCCATCCAGTTTGCCTACCACCAGCAGGAAAAGGGCCAGCCCTTGCCCAAGTTCATCATGTCCGGCGGCCAGGGGCCGAATGAAAAAATTTCTGAAGCGGCAGCCATGGCCGCTTACGCCATCAAGCGGGGGGTCCCGAAGGAACTGATCCTGCTAGAAGACCAGTCCAGAAATACCGAGCAGAACATGGAATTTTCTCAGATTGTGGCCTACAACGACTATGGCAATGACAACTTCAAGGCTTGCTTCTTTACCAGCAACTACCACGTCTTCCGGTCAGCCATCTACGCGAAAAGGGCGGGGCTGGATGCCAACGGGATCGGCTCTTACACCCGCCCTTACTACCTGCCCAACGCGGTTTTGCGGGAATTCGCCGGCATGTTCGTCATGAACCGCCTCCGCCACTTCACCGTGATGGCCTTGATCGTGGCCGGCTACATCGCCTTGGCAATTTGCAAACTACTAAATGTCTTTTAA
>LACTIS1119B1_10860 hypothetical protein
ATGAAAAAAATTGGGCATTATCTCTTTTACTTGATCGAAATCGCAATCGTGTTCGCGCTGTACACGACCCTGCAGGAGTTTTACTTCTACCCGGACATCTTTGGCTTCGGGTCGGCTGAGGCCTTCATCCTGGCCCTCTCGACCGTCCTGGTCTTCTGGTTCAGCTTCTGGCTCTATAAGGGGCAGCTGGATGATGACAATGACTGGGGCTTCAGCCAGGACTTCCACTGGGATTGGCGGAAGCTGGCCACCGCAGTTGGGGGCTTCTTCTTGATGCAGCTGCTCTACATCCTCTTGATGAACTTGATCGGCGGCGGGGTCTCAGTCAACCAGCAGAACCTGGATGACCTCCAGCAGACGGCGGGCCCCACCTACAATATCATGGTGGTCTTAGTTGCCCCGGTTATGGAGGAAATCATCTTCAGAGGGATGTTCTTCAACCTCCTCTTTAACCATGCCGGCAAGATCGCCAAGTGGGCGGGGATCCTGGTTTCCGGTTTCTTCTTTGCCTTTGCCCACAATCCCTTCTGGTCACCATATCTCCTGGTTTACTGGATGATGGGGTCAGTCCTGGCCTGGGTCTACATGACCACCAAGGACCTGCGCTACTCCATGGCCACTCACATCATGTGGAACATGCTCAGCATTTTAGGCTAG
>LACTIS1119B1_10870 Na+/H+ antiporter
ATGGAATTTATTGGACAACTGATACTGGTCTTGCTGATGACAACCCTGCTGGGGCAAGTCTTTGCCCGCTTCAACTGGCCCCCGGTCATCGGCCAGCTCTTATCGGGGATCCTGCTGGGATCGGCTCTTTTGGGCTGGATCCACCCTAACGAAACGATGACTCTCTTCTCCGACATCGGGGTTATCATGCTGATGTTTTTAGCCGGGATGGAAAGCGACCTGGACTTGCTGAAGAAGTACTTTAAGATCAGCTTCACGGTGGCCACGGTCGGGGTTATCCTCCCTATCCTCTTTATCGGCGGGGCCTCCCTGCTCTTCGAGATGCAGTTCCTGGAAGCCCTCTTCATCGGGATCATCTTCGCGGCCACCAGCGTCTCCATTTCCGTGGAAGTCCTGCGGGCGACCGGGAAGCTGCAGACCAAGGCCGGGACGGCAATTTTGGGGGCAGCGGTAGTCGACGACATTTTGGCGGTGATCGTCCTCAGCCTCTTCACCACCTTCAGCCATGAAGGCGGCAAGTCAGGACTGACCAACAACTTCTTCCTGAACATGCTCTTTGAAGCCCTCTACTTCGTCTTCGTCTGGCTGGTTTACAAGTTCATCGCGCCAAAGTTCATGCAGCTGGCGGAAAAAATCAATGTCAGCTACTCTGTGGTCATCGCCTCTTTGATCCTGTCTTTGGGCATGGCCTACATCGCTGAATTAGTCGGCTTGAGTGCCGTGGTCGGGGCCTTCTTCGGCGGCCTGGCCATCCGGCAGACCAAGCAGGAAGCAGAAGTCAATTCCTCAGTCTCCGCGATCGGCTACTCAGTCTTTATTCCAACCTTCTTCGTCAACATCGGCCTGTCGATGACTTTTGCCTCCATCGGCCAGGACTTCCTCTTCATCGTGGTCATGACGGTTCTGGGCGTTCTGTCCAAGTACTGGGCCGGCAAATACTCATCAGAAATCTTCGGCCTTAAGCCGCTGGAAGGCAGCCTTGTCGGGGCCGGGATGGTTTCCCGGGGGGAAGTGGCCTTGATCGTGGCCCAGATCGGGATTGCCCACCACCTTTTCCCAAAGGACATTTACTCCAGCTTGATTCTGGTCATCATCTTGACGACGGTTCTCTCACCAATCATGCTCAACCACTACATCAGAAAAGACGAAGCGCAAAACTAA
>LACTIS1119B1_10880 cation-transporting ATPase
ATGAAACGCCAATGGAAATTCATTGTTGTCCTGGTTCTCGGGGCAATTGGACTGATCACTGACAATGTCCTGCACATTCCGGGAATCGCGGAGGTCCTGTTCGACATTGCTGGTGTCTACGTCAGCATCTCCTTAGCCAGGGAAATGTTTGGGGACTTGAAAGAAGGGCACTGGGGCATCGACGTCCTGGCCCTGATCGCGATCATCTCCATGATGATTACCCGGGACTACTGGGCTGAATGGATGATCCTGGTCATGTCTACTGGTGGCGAAAGCCTGGAAGACTACGCGACCGGCCAGGCCAACCGGGAACTGCGGGCCCTTTTGGACAAGAACCCGCAGGTAGCCAGCAAGCTGGTTGACGGCAAGGTAGTTGAAGTCAAGGTTGACGACCTGCAGATCGGCGACCAGGTCTTAATCAAGCCAGGTCAGCAGGTGCCAGTAGACGGGACCATCATTGAAGGCAGCTCTACCTTTGACCAGTCATCTCTGACCGGGGAATCAGTTCCGGTGGACAAGACGGTCGGCGACGACTTGATGTCCGGTTCCCTTAACGGGGAAACCGCCGTAACCATGGAAGTCAAGAAGCTGGCCAAGGACTCTGAATACCAGACCATCGTTGAACTGGTTAAGTCTTCTGCTGCCCAGCCGGCCAAGTTCGTCAAGATGGCGGACCGCTACGCCGTGCCATTTACCATTATTTCATTAATTATCGGGATCGCTGCCTGGGTGACGACCGGGAACTTCACCCGCTTCGCGGAAGTCATGGTCGTTGCATCCCCATGTCCGCTCTTGATCGCCGCTCCAGTTGCCCTGGTAGCGGGGATGAGCTCCATGTCCAAGCACCACATCATCGTCAAGTCCGGTCCAACCTTGGAACAATTAGCCAAGGCCAAGACTTTTGCCTTCGACAAGACTGGGACTTTGACCCAGAACCAATTGGTCATCCAAGACGTTCTGCCGGAAAACGGCTTTGACAAAGAAACCATCCAAAGCTACGCGGCCAGCCTTGAGCAGCAATCCGACCACATCATCGCCAAGTCCCTGGTTCAAGGGACTGACAAGAACTTGATCCAAGCCGTAAGCAACCTGCAGGAATCAACTGGTAACGGGGTCAGCGGGACCGTTGACGGCAAGTACGTCATGGTCGGCAAGCTTTCCTACGTGGCGCCTGACGCTAACGTAAACAAGGCCAAGACTACTGCTGTCTACGTTTCAGTTGACGGCAAGTACGCCGGCTGCATCACCTTCAAGGACCAGCTGCGGCCAGAAACTCCGCAAACTTTGGCTCGCCTGCGCAAACAAGGCGCAAAGCACATCATGATGCTGACCGGGGACAACAAGGACGTGGCCCAGGCGATCGCTGACGCGGCCGGCGTCGATGACGTCCGGGCCAGCCTTTTGCCAGCCCAGAAGATTGAAGCCATCAAGAACGTGGCGCCTGAAAACCGCCCAGTCGTCATGACCGGGGACGGGATCAACGACGCGCCAAGCTTAACGGCCGCTGACGTCGGCATTGCCATGGGAGCCAAGGAGGCTAGCGCGGCCAGCGAAAGTGCTGACGCGGTCATCATGGTCAACGACTTGAGCAAGATCAACGATGCCGTGGCCATTGCCAAGCACACCATGAAGGTGGCTAAAATCGACATTATCACTGCCATCGTGGTCGTTATCATTCTGGAACTGGTGGCCTTCACTGGTCTTATTCCGGCCTTCTGGGGCGCTGTTTTGCAGGAAGTGGTAGACATGATCACCATCTGCCTGGCCCTTTTGGCTAAGACCGAACCGAAGAATCCAAAACAGACCGGTTTATAA
>LACTIS1119B1_10890 hypothetical protein
ATGATTTCAGCAGCTATTCAACGCGTTCTCGCGGAAAAGTCCGGCTCCTTTTTGATTCCGGCCAGCAAGATTGCCATCGTTGAAGAAGACAATCCCCTTTACCATGCCTTCTTGATCTTAACCAAGGTCAAGTACGCCAAGATTCCCGTCTTGAACAAGAAGGACCAGATCACCGGCCTCTTAAGCCTGGCCATGATCACCGACAAGATGCTAGACCTGGATGGCATTTCCGTTAAGCCTTTGAACAAGTACAAGGTCAAGGATGTCATGGAGACTGACTTCGTTTCCATCAACTTTACGGAAAAAGACATCGAGACCCAGCTCCACCTGCTCGTTGACAACAACTTCCTCCCCGTTGTCGACGACCAGGGGGTCTTTCAAGGGATGATCACCAGGCGAGAATGGTTCAAGGCCTTCAACTACCTGGCCCACACTTTTGACGACCACTATGTCACGGTTGACAAGAAGTAG
>LACTIS1119B1_10900 hypothetical protein
ATGGGCAAAAAAGACAGAAAAAGCGGAAAGAAACTAGTCAGCCGGAAGAAGCACCATTTTCACCGGAAGCTGCGCCTGCTGATTTTTAACCTAATCCTGCTGGCGGGCCTGGCAGCCTGGAGCTATTACTGGGCCTATCCGGCTTACAGCCAGTGGCAGATGAAGCAGACCATGCTGGCGGCCCGGCCCAAGCTGACCAAGGCCAAGGACGGAACCAGCACCAGCCCGGCCTGGCACAAGCTGACAGCCTACCGGAAGGCGATCCGGGACAATTACAGCTTCGTCTACCAGGCCGCCTACCAGACCCCGAAAAGGACGACGGTGGGCCAGGACGTGGTCATCCCGGGCCTCATTTCGACGCGGAGCTATGACTACCAGGCGAAAAAGATTACTTCAGCCAGCGCCATGACCCCCCAGGGGATCGCCGTGGTCTACAATTATCTTTTGATCACGGCCTATGACGGCCAGCACCGGCATGCCTCGGTCATTTATGTTTTAGACAAAAAGACGGGGAAATTTTTGAAAACGGTCCGCTTGCCAGGCCGGCAGCACCTGGGCGGGATTGCTTACGACCCTAAGGGGATGCAGATCTGGCTGACCGGGTCAAAGGACGGGCAGTCAGCCTTGATGTCCTTCTCCTTGGCCAAATTGATCGAATACGTGGCCAGCGCCAAGACCAGCGACCAGCTGGTTTATGACCATGAGATTCCGATCAACTCGATCGCCAAGGCCTCAGCCCTGACTTATTACGATGACCAGCTCTTTGTTGGCTACTTCAATGAAAATGGTCACGGCAAGGTTGCCAGCTACAAGCTGGCCCGGTCCGGCCAGTACAAAAACACCATCACCACCAGTGAGATTTCCAGTATCAACGAGTCCGTTTCCTGGTCTGACCCGGACGGGACGACCAGTATGAACAAGCAGATCCAGGGCCTGGCCATCTACGGGGACAAGATCTTCCTCAGCCAGTCATATGGGAGCAAGGATTCCAAGCTCTACATCTTTCCGATCATGGCCGTGAACAACCTCGACGAGTCAAATGCCGAGCAGGTGGTCAGGATGCCGCCTTACTTAGAGCAGATCACAGTCTATAAGGGCCAGCTGCTCTGCCTCTTTGAATCGGCCTCCAGCCAGTATGCCCGCCAGGATATCACGGTCATGGACCGGACCCTGTCGGTCAATATCAACGCCCTGCTGGACAATAACTGA
>LACTIS1119B1_10910 hypothetical protein
ATGGATAGCCAACTTGCTAAGAAAATCATCATCGACGTGCAGATTTCCGGCTGGTCCTGCCTGATCCCGGCCAGCGGCCTGCTCTACCTCTACCAGGTCACTCATTACGCCAGCTTCTTGTGGGGCCTGGCCCTGGTCGTTTTGTACGCAGCCTACGTGCTGGCGACCGCCAAGCTGGACAAGTGGCAGTCCCCAAGCTACGTTTTGCGGATGAGCTTGATCGCGATGTTCTTCGTCGGCTTTCTGCCTTCAATTCCGCTTTTGTTCTGCTACAGCCAGGAGCGTAAGGCCGGATTGAAGTAG
>LACTIS1119B1_10920 D-Ala-teichoic acid biosynthesis protein
ATGGAAAACAAGACACCAGTCAGCCGGGGGAAGGTCATCCGGTCCTTTATCCTGCGAACCCTGCTTTACAGCCTCATTTTATTAGGCTTGATTTATTTGTATGAATATTATGGCTTGGGTTCAACTGGCTTTATTTACAATGAATTTTAG
>LACTIS1119B1_10930 D-alanine-activating enzyme DltA
GTGGAAATGAGAAATATTGTCAAGACGATCGATGAGATCGCGCAAAGAGAACCAGACCGGGTAGTTTACGACTACCTGGGTCAAAAGAACACCTACGCTGACTTGATCAAGCGGGCTAACAGCTGGGCAGCCTTGTTAAAGGAAAAGGCACCGGCCAAGGTACCCGTTATGATTTGGGGCGGGCAGACTTTTGACATGCTGGCGTGCTTCTTAGGTTGTGTAAAGAGCGGGCACTGCTACGTGCCAATCGCCGACTATTCTAACGCTGAAAGAATCGACCTGGTCAGAGAAGTCTCTGCCTCCCCGGTCTTGATCGCCATCAGCGACTTGCCGGAAGTCGACCTGGGCGACTTGACCCTGCTTAAGCCGGACGACGTTCCGGAAGAGGGGACAGCGGATGAGGCAGACTACGTCAAGGGCGATGAAAACTTCTACATCATTTGTACTTCCGGGACGACCGGTAAGCCTAAGGGGGTCCAGATCAGCCACGACAACCTGGTTAGCTTCGTTGACTGGGAACTGAAGGACTTTGACCTGCCGGACCATCCGCGCTTTTTGGCCCAGGCCCCTTACTCATTTGACCTGTCAGTCATGAGCATCTACCCGGCCCTGTTGAGCGGCGGGGAACTGGTTGTTTTGCCTCACGAAGTGACGGAAAACTTTGCCCAGCTCTTCAAGGCCTTGCCGGAAACCGACGTAAATGTCTGGGTGTCAACTCCGTCCTTTGCCCAAATGTGCTTCCTGGACCGGACTTTTGACGCAGAACACCACGCCGGCCTCAGCCACTTCCTCTTCTGCGGGGAAGAACTGCCCCGCAAGGAAGTTGAAATGCTCAAGAAACGCTTCCCGGACAGCCGGATTTTTAATACCTACGGGCCAACGGAAGCGACCGTGGCAGTCACGCAAGTGGAGATCACCCCGGAAATTCTGGAAAAATATGACCGCCTGCCAATCGGCTATGTCAAGGAAGATACGGAAATTACCATTGACCTCAGCCAGGGCGATGACGGCAAGAGCGGGGAAATGATCATCGCCGGCCCGTCAGTTTCCAAGGGCTACATCAATAACCCGGAAAAGACCGAAGAAGCCTTTTACCAGGAAGACGGCGTTCAGCACTACCGGACCGGGGACGTGGGCTACTTTGACGGGGACCTGCTTTTCTACAAAGGCCGGATCGGTTTCCAGATCAAGTTCAACGGCTACCGGATCGAGCTGGAAGAAATCAACTTCTACATGAACCAGAATCCGCTGGTCCGCCACGCGGTTGCTGCCCCGATCTACAAGCCTGACCACACGATCAAGCAATTGGTAGCCGTGGTTGAGTTAAACGACGGGGTCCGCTGCAAGTTCGCTGAAGGGACCATTACCAAGCAGATCAGAGACGGCCTGGCCAAGGACGTGATGCCGTACATGATCCCGCAGCGCTACCTTTACAAAGACGCCCTGCCGATCTCCCAGAACGGGAAGGTTGACATCAAGGCGGTCATCAAGGAGGTTAACCAGGCGTGA
>LACTIS1119B1_10940 D-alanyl transfer protein DltB
GTGATAAATCTGCAACCATATGAAAACCCGCAGTACTTTGTCTACCTGTTGATCGCGCTTTTGCCTTTGATCATCGGCCTTTACTTCGGCAAGCGCTACAAGTGGTACGAAGCCCTGGTCTCCCTTGCTTTCATCTTCCTCATCTTCGACGCGGACAAGTGGCAGCAGGGGGTAACCTTGATCTGCTATATCGTCTACCAGTTCCTGGTGACTTTTGCCTACCAGCACTACCGGAAGAAGACGGGGAAGGCCAATAAGACCTGGGTCTTCTGCCTGGCCGTGATCCTGGCTATCCTGCCTTTGGCCGGGGTAAAAATCTGGCCGATCGTGCCCCACAAGCAGGGGATCGACTTCGGCTTCTTAGGGATTTCCTACCTGACCTTCAAGACGGTCCAGGTGGTCATGGAGCTGCGCGACGGGACGATCAAGCAGGTGGATCCGGTTATGTACGCCCGCTTCCTCTTGTTTTTCCCGACTATCTCCAGCGGCCCGATCGACCGCTACCGCCGCTTCGTCAAGGACTATGACAAGGCACCGAGCCGGGAAGACTACATTAAGGACCTCTCTTACGCGGTCAGATACCTCTTCCAGGGCTTCTTGTACAAGTTCCTCCTGGGCTGGTTCTTCGGGACCTACTTGCTGCCATACCTTGAGCAGCAGGCCATCCTGGCCGGGCGGATGTATCCTTTGCACCTGTCCTGGTGGCTTTTAGGGGTCATGTACTGCTACTCAATGTACCTGTTCTTTGACTTCGCGGGCTACTCCCTCTTCGCCGTGTCGATTTCCTACTTTATGGGCATCCACACGCCGATGAACTTCAACAAGCCTTTCGCGGCCCACAACATCAAGGAATTCTGGAACCGCTGGCACATGACTCTGTCCTTCTGGTTCAGAGACTTCATCTTCATACGCTTCACCTTCTTCGCGATGAAGAAGCGCTTGATCAAGGACCGGAACCGCCTGTCGCAAGTAGCCTACCTGGTCAACATGATGGTAATGGGGGTCTGGCACGGTTTGACCTGGTACTACATCGTCTACGGTCTTTACCACGCCGTGGCCATGATCATCAACGACATCTGGCTCCGCTTCAAGAAGAAGCACAAGCTGGTCAAGCACAACAAGTTCACTGAAGCGGTGGCAATTTTCGTGACCTTCAACGTGGTCTGCCTCAGCTTCTTGATCTTCTCAGGATTCCTGAACAACCTGTGGTTCAACGTGCCGCTGGGCAAGTAA
>LACTIS1119B1_10950 D-alanyl carrier protein DltC
ATGGATATTCAAAAGCAAATCGTTGACATTTTAGCTGAAGCAACTGGTGAAGACTTCTCAGACAACATGGACCAAGAACTTTACGAGAGCGGGATCATGGACTCCATGGCCACTGTGCAGATGCTCTTGACCCTGCAGGAAACCTTCGACATCACCGTTCCGGTTTCTGAATTCAATCGCGACGACTGGAACACCCCGAACAAGCTGGTTGAACAGGTGAAGAAACTGCAAGATGAAGAATAA
>LACTIS1119B1_10960 D-alanyl transfer protein DltD
ATGAAGAATAAGACAAAACTTTGGCTGATCTTTGGGCCAGTCATCTGCGCGGTGCTCTTGCTGATGGGGATCTTATCCCTGCCTTGGGAGCGGACCTTCTCAAAGGGCAGCCTTTTCCAGGCCGCCGCTTCGCAGACCACGACTGTCTTCAAGGGCAAGGCCATGCGGCAGAAGGCCTATAAGCAGGGCTATGTGCCTTTCTACGGGTCAAGTGAACTGTCGCGTTTTGACAACATGCACCCGACTGTCCTGGCTACCAAGTACCATCGTTCCTACACGCCTTTCCTGCTTGGGGGACCGGGCAGCCAGTCCCTGGCTCAATACCTGGGGATGCAGGAGGCGCCAAGCAAGAAGGCCGTGGTGATTATTTCACCGCAATGGTTCACGCCCCAGGGGCAGAACCCGGATGCCTTTACCCTCTACTACTCGCCTCTGCATGCCAGCGACTTTATTTTGAACGCTAAAGACACGGAAGCTGACCGCTACGCGGCCCGCCGCCTTTTGCAAATGCCAAGCGTGAAGAGTGAGCATGTGATCCACCATGCCCTGCTGGAAATCGCGGCCGGGGTGGGGATCTCCAAGATGGAGCGCTACTACCTCCGCTGGCGGCGGCAGATCTACTCCACGGAAGACAAGTTCTTTACTTCCCTGCAGCTGCGCGACCGCCTGCCAAAGATTGAGCAGCAGGGGGCCAAGCTGCCGGATACCTACTCTTACGAGGGCTTGAAGAAGGCATCAGAGAAGGAAGCCAAGAAGGATACCAAGGGCAACCGCTTTGGGATCCGGACTAGTTTTTACAAAAAGCGCTTGAATGCCAAGCTGCTCAAGAAACTGAAGGGGAGCCAGAAGAAGTTCAACTATGTTGAATCCCCGGAATACTCGGACTTCGAGCTGCTCTTGAACCAGTTCGCCAAGGACAAGACCCAGGTCCTCTTCATTATTCCGCCAGTTAACGCCAAGTGGCAGAAGTATACTGGCTTGTCACAGAAGATGTATGACACGGCTACGACTAAGATCAAGCACCAGCTGATCAGCCAGGGCTTTGACAACATCTATGACCTGTCCAAGGACGGCAAGAAGAAGTACTTTATGGAAGACACCATCCACCTGGGCTGGAACGGCTGGCTAGCCGTTGACCAGGCAGTCAAGCCTTTTATGGAGCAGAAGTACGCGGAACCGGAATACGCGATTAACGACTACTACCTGACCAAGACTTGGCGGGAAAAGAAAAAGCTGCCGACGGTGGCTTTGACGAATAAAGACGTCCTGGCAAAATTAAAAAAATAA
>LACTIS1119B1_10970 hypothetical protein
ATGACTAAAGTCAAATTCAACCTGGACGACGAACTGGCCATCCTGCTTCAGGCCTACCAAGACCAAAGCGGGACAGACAGGGACGCCATCATCAACCAGGCCGTCAAACAGCTGCTGGTCAAAAAACTGGGCAAAAAGCGGATCGCCCAGTTGCTCAAGGACAGCGAAGACGGCAGCGACTACCAGCTGGAACAGTTCTTCAGCAGCTACGACTGGCTTGAATAG
>LACTIS1119B1_10980 hypothetical protein
ATGGTTAAAATGACTTTTAGTCCGGAAGCTGGAGAATTTTTGCAAAAGAAGCTGGGAAACAAGCCAGTCTTGATCCTGGCTTTAAATGACGGGTCCAACAAGTACTCACTGCAGGGCGGAAGTTGCACGATCGGGGCTAACTTCCAGTTCGTCGCCCTGGACCAGGCAGACTCGGACTACCAAATCAAGATCGACAACGATTTAGGTCTAGACTTGTACACGGGCCAGGCGGAAATGGGCTTCTTGGATGACAGCTTGAGCGTTGGCGAACAGTACGGGATGCTGTCCTTGAGCGACGGCAGCGGCTTGATTGACAGCGCGGTCGGCGTCAACGTTTACGAGCCAAGCAAACTTACCGCTGAACAGATTCAAAACGGCGCCAGCTGCTAA
>LACTIS1119B1_10990 antimicrobial peptide ABC transporter ATP-binding and permease protein
ATGACAGTTCTTGAATTGAAAGACGTCAAAAAGTACTACAAGATGCCGGGCGGGGGCCAGTACGAGGCCTTGCGCGGGGTCAATGCGAAATTTGTCGCCGGGGAAATGGTCGCCATCGTCGGGGAATCTGGGTCAGGCAAGTCTACCTTGATGAACACGATCGGGGGCCTGGACTCTGACTTTGAAGGGGCCATTTTATACGAAGGGAAGAACCTGCGTGATTTTTCCCAAAAGGAAATGGTTAACTACCATAAGAAATCAATCGGTTTTATTTTTCAAAACTTCAACTTGATCCCCCACCTGGACTTGATCGACAACGTGTCAATCGCCATGACCCTGTCCAACGCGGATGAAAAAACGCGGCGCGGCCGGGCGGAAGAGCTCTTGACCCAGGTGGGCCTGAAGGACCACATGCACAAGAAGCCCGATCAGTTGTCCGGCGGGCAGAAGCAGCGGGTGGCCATTGCCCGGGCTTTGGCCAATGACCCGGACGTGATCATCGCCGATGAACCAACCGGGGCCCTGGACGCGGACACGACTGACGTGATTTTGAACATGATCAGAGACATCGCGGCTTCAGGCAAGCTGGTTCTGATGGTTACCCACTCAGACAAGGTGGCCAGCCACTGCAGCCGGGTTCTGCGGATCGACCAGGGGCAGATCGTCAGCGACCAGGAACAAAAGCCCCTGGACCACCACCTGGAGCAGAGAACTGAAGTTAAGATCCAGCAGATGAGCCTCTTTAAGGCGATCTCTTTGGCTTTTAAGAACATGAAGGCCAAGTTTGGCCGCAACGCCCTGGTTTCAACCGGGATGGGGATCGGGATCATGTCCGTAATCCTCATGCTCAGCCTGGGCAAGGGGGTTACCTCTTATGTCAGCGGGCAGATGAGCACCTACTCCAATCCCCTGGTCGCGGAAATCCAGAAGACTTCCAGCCAGAAGATGCGCCAGCAGGGGATGCAGGCCCAGCAAACCGGGGACAAGGCAGCCCTGGCCAAGCAGCAGCAAAACAATATGGCCTCTTTGTCCGGGACCAGCAGCGCTTCGGCTTTTAGCAAGCAGGACTTAAAGAAGCTGGAGAAGATCGCCCATGTCAAAAAGCTGCAGAAGGGCTACAGCGCGATTTCCCTGGGGACCAACCAGCTGAAATACGGCAAGAAGACGGCCAGCATGATCTACCTTAAGACGGTCAATGATGGGATCGCCAAGTCAGAGGTCAAGAAGGGCCACTTGCCTAAGGCTGGCAAGGACGAGGTCATGATCGACAGCGGCAGCGCCGACAACTTGGGCAAGAAGATCTTAGGCAAGAAGGTCAAGGCAAGTTTGCAGATCGGGACCAAGACTATCACCAAAACGGTCAAGGTAGTCGGGATCTATGAAGCTTCCGGTTCCGGCCAGGTCAGCACCCTGCTTTTGCCCTACAGCGACTTGGCAAAAATCTTCAAAGACAACGGCTTGAGCTTGAAGGCAAACGTGGTCTACTTGATGGCAACGGACAAGCAGTACACTTCTTCTATCAAGCAGGCAGCCAAGGACAAGGGCTTTGCCGGCTCAATGCAGGAGCAGATGGCGGAAATGTTTGACAGCATCTTGAGCGTTTTGACTTACGTTCTGACGGCTATCGCGGCAGTTTCCCTTTTGGTTTCAGCTATCATGATCCTGGTTGTCTTGAATATCTCGGTAGTCGAAAGAACCCAGGAAATCGGGGTCATGAAGGCACTGGGTGCCCGGCGCAAGGACATCCGGCGGATCTTCTCCAGCGAAGCCTTTTTGCTGGGCCTGGCTTCCGGGATTGTCGGCATTGCTTTGACCTGGCTTTTGGCCCAGGGGATCAACAGCTTCACCCAGTCAGCCTTTAAGGCGGCCGTGGTCAGCTTGACCCCGCAATACGCCTTGACTGGCTTGCTCATCAGCATTGTCATCAGCATGATCGCCGGGATCCTGCCAGCCAACCACGCTTCCAAGCTGGATCCAGTTGAAGCTTTGCGGAAGGAGTAA
>LACTIS1119B1_11000 TetR family transcriptional regulator
ATGCCCAGCCAGACTTTTTTCAACCTGCCTAAGGAAAAGCAGGACCGGATTATGGCAGCGGCCCGGGAGGAATTTTTTACCCACAGCTTCGATGAAGCATCCATCAACCGCTTGATCAAGGCGGCGGGGATCCCCCGGGGGAGCTTTTACCAGTATTTTGCGGATAAGGAAGACGTCTACTTTTACCTGGGTGACCAGATCAGCCAGCGGATGATCGAAGGCGCCCGGAAAGAATTAGCTGCTTGCGGCTATGATCCTTTTGCCCTGGCCAGGAAGGTCCTGCCCCAGTGGCTGGATGAAATCTTCTATGGGGAAAACGCGGCCTTCTTCTACCGGAAGATTGACATGCTGCACTCCCAGCAAGTGCCCCGGCCCAAGCAGGCGGAAGACCCGCTGGCCTGCCTGTCGGCTCAGGAAATTGCCGGTTTGACAGCTAAGGTTGCTTTGCAGGACCGGACTGACTTGAAATTTCTCCTGCACAGCCTGCTCTTGGCCTTCATCAGCTGCCTTAGTGAAGGAGCAGAAGACTATGAAGCCGGCCGGCCCGTCGATACGGCCAAGCTGGCCCAAGTCCTGGACCGCCGCTTGAGCTACCTGGAAAATGGCTTTAAGAAGAAAGCAGATTGA
>LACTIS1119B1_11010 hypothetical protein
ATGGCATCAGATGAAGAATACATGCGTCTGGCGCTTGCCGCGGCCCGCAAGGCTGGCAATGCTACCTGGCGCAACCCAAGAGTCGGCAGCTGCCTGGTCAAGGACGGCAAAGTCCTGGCGACTGGTTTCCACCAGCACTACGGCGGCTTCCATGCTGAACGTGATACCATCTCCAAATTGACTCCGGAACAAATTATCCAATTCCACTATTTACGTGACTTTAGAGCCTTGCTGCCATTACGGCAAGCAGCCGCCCTGCACCCAGCTGATTATTGA
>LACTIS1119B1_11020 hypothetical protein
GTGGTGGTCGGGGCAACCGATCCCCACTCTCTTGTAACGGGCAAGGGTATCGCTGCTTTGCGGCAGGCAGGCCTTGAAGTAAGCACTGGTCTTTTAGCAAAAGAAGCAAGTCAGCTGAATGACCACTACAACTACTTTTACCAAACAGGTCTGCCTTACGTAACTTTGAAACAGGCCATGACCCTGGACCACATGCTGGCGAAAAAGGGTGAGCGGACCGCGATTACCGGGGCTGAGGCCTGGACCCGGGTCCACCAGGAACGGGCTGGTTACCAGGCTGTCTTGATCGGGTTAGAAACGGCGATCATCGACGATCCTTTGCTTTTGACCAGCGAGGACCTGGTTCACCCGCCAGTCAGAGTTGTACTGGACCGGCGGGGCCGGCTGCTTGAGCACTTGGATTTACGCTTATTTTCCGACAAGCGGGCTGAGACCTGGATTTTGACGGAAAATCCGGCTTTCTTGGAGCAGGATATGCCAAAGCAGGTAAAAATTTTTGCCCTGCCGGATGGAAAAATCTCGACCAGCATAAAAATTCTGGCTGACCAAGGCGTGCAGAGCGTTTACGCTGAAGGCGGCGCGCATTTGCAAGAGAGCCTGCTGGCAGCGGGCCTGGTCAATGACGTGATCAGCTATGTCGCTCCCAGCTTTTTGGGCCGGGGGACTGAAGCAGCCGTAGCCGCGGAAGCACTAGACTTGAAAGATGTCCAAACTGAGCAAGTTGGCGACGATGTAAGAATCTATGGGAGGATCAAGGATGTTTAG
>LACTIS1119B1_11030 riboflavin synthase subunit alpha
ATGTTTAGTGGTTTGGTAAGCGGCAAGGCGCGGATTCAGCGCCTGGAGCAGGAAGGCAAGACGATCGTTTTGACGGTCAAAACATTCCCGGAAAACCTGGCCGGGGTAAAAATCGGTGACTCGATCGCCGTCAATGGCTGCTGCCTGACGGTGGAGGCTTTTTCCAAAGACAGCTTTACGGTAACCATGATGCCGCAGACTTTTGCCAAGACGACTTTTAAAAATCTGCAGGCTGGCGACCAAGTGAACATGGAACGCAGCGTGCCAGTGGGTGGCCGCTTTCAAGGGCATATCGTCAGCGGGCATGTTGATGAGACGGTAGAAGTTGTTGACTTGAAGCAAAACGAAAATGCCTTAGAGCTCGGCTTTTTCCTGCCGGACCGCTTGAAAAAGCAGGTCGTCCCGCAAGGGTCAGTGGCCATCAACGGGACCAGCTTGACGGTGATGAACACTGGTGATAACTGGTTCTCAGTTGGCTTGATCTCCCACACCCAGGATGAAACGAATTTATCTGGCCTGCAAGTTGGCGACCAGGTCAACCTGGAGACTGACGTGCTGGGCAAGTACGTGGAAGCCAATCTGGCTGCTTTTTTAAAAAATGAATTGGACAAGTAG
>LACTIS1119B1_11040 GTP cyclohydrolase II
ATGGATGTCAAAAAGATTCAAGATGCAATTGCCTGGATGAAACAGGGCGGCCTGGTAATCGTGGCCGACGACGAAGACCGGGAAGCCGAAGGGGACATGATTGGGTTGGGCAGCAAGGTTACTCTGGAAAAAATCAACTTCATGACTAAGCATGCACGGGGCCTGCTCTGCACCAGTATTGGCCGGGAGATCGCGGAAAGACTGGAACTGCCGCAGATGTGGCAGGACAACACGGACCCGTTTGGGACGGCCTTTACCGTCAGCGTTGACTACAAGACGACGACCACGGGGATTTCAGCTTACGACCGGGCAACTACGATCAAGGCTTTGGCCGACCCGGAAGCCAAGCCGGAAGACTTTTTCAAGCCAGGTCACTGCTTCCCGCTGGTCGCTAAAGACGGGGGCGTTTTGGAAAGAAACGGGCACACGGAAGCCTCAGTTACCCTGGCCAGACTAGCTGGTGAAGCGGAAGTGGCCTACATCTGCGAAATTTTGAAGGAAGACGGGCACATGGCCCGCCGGCCGGAACTGGAAGAAATCGCCAAGGAATACGACCTGCCATACTTCACGATCGCGGAATTGCAGGAGTACTGCCGGAGCTTCGCGAGTAGCCGGTCAGAATTCGTAAAACTGCCAACTGACTACGGCGATTTTGAAATCAAGGATTACGGCAATGGCAACCTGGTGATTAAGAAAGGCGAAATTGCCAAAAATGAGCCGGTAATGCTGCGGATCCACTCCAAGTGCCTGACCGGGGACGTCTTCGGCTCCAAGCGCTGTGACTGCGGCCACCAGCTCCACCAGGCCATGCGGCGGATTGAAGAAAAGGGGTCCGGGCTTATCCTCTACCTTAACCAAGAAGGAAGGGGGATTGGCTTGACTAATAAGCTCCGGGCTTATGCCTTGCAGGACCAAGGTCATGATACTTATGACGCCAACCTGCTTCTGGGCTTTGCTCCAGATGAGCGCAAGTACGACGTGGCCGCCAAAATGATCAAGGATTTGGGGATTAAGCAGGTACAGCTTTTGACCAATAACCCGGACAAGATCAAGCAATTGGAAGAGGCCGGGGTGGAAATTACCGACCGCCTGCCCCTGGAAATAGCGGCAACGGCTGAGGACCGCAGATATCTGGAAACCAAGCGGGACCGCTTTAAGCACATGTTAGTCAGTTTATAG
>LACTIS1119B1_11050 6,7-dimethyl-8-ribityllumazine synthase
ATGGCAGTAATTCACGGTGATTTTAAGCAAGTCCACGGCAAGGTAGCGATCGTGGTGTCCCGCTTTAACGAGCTGGTGACCAAGAGCCTGGCAACCGGCGCGGCCGAGACTTTGCTTAAGTTTGGGATCAAGGAAGAAGATATTGATACTTACTGGGTACCGGGGGCTTTTGAACTGGGCTTCGCGGCTAAAAAGCTGGTTGATTCCGGCAAATACGACGGGATCATGACTTTGGGGGCGGTGATCAAGGGCGAGACCGACCACTACGCGATGATCATCAGCAATGTAACCAGCGCGGTCATGGAATTGAATTTGGCGGGCAAGGTACCGGTGACTTTTGGCATGCTGACGACGGAGAATATCGACCAGGCCTTGCAAAGATCCGGCTTGAAAGTCGGCAACGAGGGGAGCGCGACCGCCCAGAGCCTGCTGGAAATGATGAGCCTGCAGGAAAAAATCGGTTAA
>LACTIS1119B1_11060 hypothetical protein
ATGGGCGTCAGCTACTTGATGGATATTGCCGTGGAAAACGTTTCCGGCGTCAAAGCCATCCCCTTGGTTCCAAGCCAGCGAAGCTACTGCTACTCCAGCTTGGGGATCCGCGAGAATTTCATTCCGAATGAGGTTCAAAAGCAGTATCTGGAGATCTTGAAGAAGAACCAGGACCTTAATTAA
>LACTIS1119B1_11070 hypothetical protein
ATGTTTTACGATAAGCGAAAGGATTTTTATATGGAATTCAGAGATCTGCGTTATTTTATCGACTTGGTGGAAAGCGAAAGCTATCATGCCACTGCTCAAAAGAATCAGGTCACCCAGCCAGCCATCAGCGCCATGCCTTGA
>LACTIS1119B1_11080 hypothetical protein
GTGCCAAAGATCATGGCCGCTTTGATTCTGGCTTTCTGCGGGTCGGTCTTCCTGTCGACTTCGACTTACTCAGCTGGCCCGGCAGCTATGCTGTCTGGTACGGGCTATGTTTCAAACAAGGGCTGGCGGAAGCTGAGCGCGATCATCGGTGTGATTTTCAATGTTATTTGGCTGGGCGGCGGTTTGCTGTGGACCAAGTGCATTGGTTATTGGTAA
>LACTIS1119B1_11090 cellobiose-specific PTS system IIC component
ATGGACAAATTAGCCAAGTGGTGCATATGGCTGAGCCGCCGCTCCTTTTTTAGAGTGGCCCAGCGGACCTTTGCCGTTCTGATGCCGATCGCGACGGTCGGGGCCTTTTTCCAGGTCTTGCAGAATAGCGTCTTTGCGCCGGAAAGTTTTATCTATAATTTATTTGATTTTGACAAAATCATGAGTGACCGCTTCTGGGACATCGGGACCAGCCTGTCACAATGCGTGGTTGAAGTTATCTTCGGCCTTTTTTGCCTGTTCACGGTTTATTTCTCAGCTTCCTTTACGGCTAAAATCTACCGTAAAGATGCGACGATGGCTGGGATCAGTGCTCTGACCAGTCTCTTGGTCATGATCTATCTCTTTCAGCTGGGCTTGACCGGACGGATTTCTTTGCTTACAGGAGGCTATTTGGTCTTCCAGTACACCTTCTTTGCCCTCTTGCTGGGTTATGGGGTAGGACAGGTCTTCCACTGGTTAGGGGCCGATTATGAGCCTGTCAACTATGAGCACACCAAACTGGTCCAGGACCGGGCGATCAAGGCTCTGAAGCCGACCTTGGTTACTGTAATCGTGGGCATCGCTATCGGCGGGATTCTCTATGTGGTCATCAGCAAGGTCAAGGCCAACTTCAGCCTGACCAGAATCGTGTCATCGGTTGAAAATTCCAACAACCTGCTTTTGACGGTGCCGGCCACGGCCCTGGCTTCATTTTTGAGCTGGCTGGGCCTGGAAGCCCCGATTCTTGACTTGGGCAACGTGGCTGGTTCAGCCGCCGCGACTGCCAACTTGACCTATGTCTTGCGGCGGGGGTCAGTCTGGAAGGTGCCTTATCCTTACCTGGGCGGGTCCATGATCTCGATTTACGGGGTTATGGGCGGCTGCGGGACAATTTTAGCTTTAGCCGTGGCCATCTTGATCTGGGGCCGACGGAAGGAGTCGGAAACAGTGGCTAAGATGAACCTCTGGCCGCTTTTGTTCAGTTCGTCCCGGGGCTTTTTGGTCGGCTTGCCGGTGATTCTCAACCCGATCTATGCCCTTGAGCTGGTCCTGGTGCCAGTCGTGAACATGCTGATCGCTGCTTTGGCGATTTTCCTGCATATCGTGCCGACTCCGGTCTACACGGTCTTGACGGGGACGCCAGGCCCTCTGGTGCCGTTTTTTGCCACTAACGGCAACTGGCCGACCTTGATTTTCACCATCTTCCTCTTCTGCCTGGACGTGGTCATGATGATTCCAGCCGTCAAGCTGGACAACCGGACCAAGATCCTGCTGAAGGACTATGAAATGGAGGATGACCGTCATGTTTAA
>LACTIS1119B1_11100 acyltransferase
ATGTTTAAGAGCCGCAACTGGAAACTGATCGTCGTTGCCTTGACGATCATTATTTTGCTGGCCGTTCCGGGCTATTCCTGGATGAAAAAGACCAACAAGGAGCACGCTGAACGCCAGCGCTCGCAACTGTCACCTCTGATCATGGTTCCCGGCTCCAGTGCTACCGTCAACCGCTTCAATGAACTGGTGGACCTGCTCAACGAGAATACCCCTTATAAGCACAGCCTGCTTAAGGTGGAAATCAGTGAAGACGGGACCTTGACTTATTCTGGTTCAATAAAAGAGGAGGACAATGAGCCCTTTATCGTGATTGGCTTCCAAAATAACCATGACGGTTACAGCAATATCAAGAAGCAGGCCGGCTGGCTGGACGATGCCTTTTACGAAATTGCCAAAACTTATAAGTTTAACAACTTCAAGGCTTTTGGCCACTCAAACGGGGGCCTGATCTGGACCTACTGGCTGGAACACTACTACAGCGACTATTCAGATGAAATCACAATCAAGCGCTTGATGACCTTGGGCTCGCCTTACAACTTCAGTGAAAAGAGCATCAAGTACAAGACGCAAATGATGACAGACTTTATCAAGTACCGCAAGCGCCTGCCGAAAAATATGATCGTCTACTCCCTGTCCGGCGGGAAAAACTACGAATCCGACGGGATAGTGCCGGAAAGCAGCGTGGAAGCCGGCAAGTACATCTTCCAGAACCAGGTCAAGAGCTATACCACGATGACTGTTACCGGGGCAGAAGCCCAGCACTCCAGCCTGCCGCAGAATAAGCAGGTGGTCAGGATTATCCAGGAGTACCTGCTCAAGCAGCAGGTCAAGCCGGGGCCAAACAACAGCCAAAATTCCAAGCACAAGGAAAACTAA
>LACTIS1119B1_11110 haloacid dehalogenase
ATGAAGATTAAATTGATCGCGGTGGACTTGGACGGAACCTTGCTGACTTCCAGAAAGAAGGTCAGCCCTAAGACCCTGGCGACTTTAAAAAAGGCCCGGGAAAAAGGAATTCTTGTGGTGCCCCTGTCCGGCCGGCCCCTGCCTGGCGTCTTGAAGGTCTTTGAACCCTTCAAGTTGGATCCGGCAGACAACTTTGCTATTTGCTACAATGGCGGCCTGATCCAGCGGATGGACGGGGAAGTCCTAAGCGCCAGCCCCTTGACTGATGAAAACGTGGAGCACATTCTGGCCTTGAAGCAGACGGGGATTTTTGGCCCTTACTTCATGGACACCAAGGATTTCTATGTAGCCCCAAAGGGCAGTGCCTTCGGTGTCGGCTTTCTGGCCAAGGCCCGGAACATGGGGGTCAAGCGGATGGTGCCCGGCCAGCACTACGAATTCATCAAGGGCGAGTTTGTTTCTTTGCCTAGCAAGATGAAGAAGTTCCGGGCTGGCTTCAGTCCGGCAACTGAGCAGGAATTCGAAATCTCTGCTTCCGGCGGCCATTGCCTGGAATTCAATACTCCCGGCACCTCCAAAGGCCAGGCCCTAACCACTTTGCTGGACCTTTTGAACATCCAGCCGGAAGAAGCCATGGTTTTTGGCGACAACAACAATGACCTCTCTGACTTCCAGTTGCCTGGGGTCTTCAAGGTGGCCATGGGCAACGCGATCGACGAGATCAAGGCCGCGGCTGACTACGTCACGGCCAGCAACAATCAGGACGGCATCGCTTTGGCGGTGGAGAAGTTTGTAGACATGGGAGAATAA
>LACTIS1119B1_11120 glutamine amidotransferase
ATGGGCGAGCCCCGGACCTACGTCAACGCTGCTTACGTGGACTCAGTCCTCAAGAACGGCGGGATTCCTTTGGTAATTCCTTTTACCGCTGGCGGAGAAGAAATGGCCTTTAAGCAGCTGGACTTAGTTGACGGCTTGATCCTGTCTGGCGGCCATGACCTTGACCCCCACTTGTACGGGGAAGAAATTGACCAAAAAAGCGGGGAAACCTGGCCAGACCGAGATGCCTTCGACATGGCCCTCTTGAAGCGGGCGGAAGAAACCGGCAAACCGGTCCTGGGCATCTGCCGGGGCGCCCAGATCATCAACGTGGCCCACGGCGGCAGCATGTGGCAGGACCTGTCTTTGCGGCCAGGCAACACTTTAAAGCACATGCAGGCTACCCGGCCTGACGTGGGCACCCACGTGGTCAAGATCAAGAGCGGGACAACCCTGAAAAAGATCATGGGGGAAAGCAGCCTCATGACCAACTCCTTCCACCACCAGCTGATCAAGGAAGTGGCTCCGGACTTGACCGAATCAGCCAGCGCCAGCGACGGGGTGACGGAAGCTTTGGAAAGCACTGACGGCAAGGTGATCGCCGTGCAGTGGCACCCGGAAGAAATGCACGCTAACCCTGCCCCGGAAGCAGCCATCATGAACCGTCTCTTCAAGTACCTGATCGACAAGGCGGAAGAAGAGAAGCAGTAG
>LACTIS1119B1_11130 drug/metabolite transporter permease
ATGAAAGACAAGCATTTGGGAATCCTGTTGGCAATTACTGGGGCTGCCTTATGGGGGACCTCGGGGACGGCGGCGGAAATGCTCTACCAAAGCCCAAATATCAATACCTTCTGGCTGGTTGACGTCCGGTCATGGCTGGCCGGGGCGAGCCTTTTGCTCATTTCCCTGGTCCACAATGGGAAGGGGACATTTGCTATTTTCAAAAATCCCCGGGACCTTCTCTACGCGGCCCCTTTCTCAATGCTGGGCATCACCGGGGCCCAGTTTACCTACTTCTACACGGTAGCGGCCTCAAGCGCGCCGACGGCCACTGTCCTGGTCTTCCTGGCCCCGGTCTTGATCATTTGCTTTATGGCGGCTAAAACCCAGCAAATGCCCCGGAGAATCGATCTGATCGCGGTCTTGCTAGCGGTGGTCGGGACGGTGGTTTTGGTGACCAACGGAAATTTCAGCCACTTGGCGGTGACGCCTAAAACCCTGGTCTGGGGCTTCTTCAGTGCCTTGACCCAGGCTCTGGCCATTGCCATGCCGGCCAAGCTTTTTAAAAAGTACGGGACCATCACTATTTTGGCCTGGGGGATGCTGCTGGGCGGGATTATCCTCAGTCCGGCCCTGGCCGTGATGCCCGCCACTGGAGTTACGGTTAATGAATGGAGCCTGGTGATCTACATCGTGATCGCCGGTACGGTTTTCGCTTACTCGCTCTACCTTTCCAGCGTTATGTACAATCTCAGCCGGCCTGGCCAGCATGCTGGAGGCCTTTGA
>LACTIS1119B1_11140 hypothetical protein
ATGCTGGAGGCCTTTGAGCCGCTGGTAGCGACGATTCTGTCGGTTACCCTTCTGGGCAGCGACTTTGGCATCATGAAGATGGCGGGCGGGGTCTTGATTATCCTGGCCACCTGCCTGCAGGTCGTGCCCAGTCCCCGCCGGGGCAAATTGCAAAGAAATCTTTAG
>LACTIS1119B1_11150 DNA invertase Pin
GTGGCTTTAAAAGACGTTGATAAATTATTTACGGATAAATTAAGTGGGGCTAACACTAATCGGCCAGAACTGAAAAAAATGCTGGCCTATATTCGTGAGGGTGATATTGTAATGGTCACTGAATTAGATCGCTTAGGCAGAAACAACCAGGATTTAACTAATAGTTTAGCCAGTAAATATTCAATTAAGCTGCTAGTGATGGCGTTAATGCCTCCTGCATGTACTTCGGGAGGCGGGAAATGA
>LACTIS1119B1_11160 hypothetical protein
ATGACCCCCGAAATTAGGACACTAATTTCGGGGGTTATTTTCATGACTAAATACACTAAAGAAATCAAACTTGCTATCTACCACGAATGGGTAGACGACCACAGAAGAGGCACCTACCTTAGCCAAAAATGTGCCATAGGTACGACAAACAAGCCCTGA
>LACTIS1119B1_11170 cold-shock protein
ATGCAAAATGGTACTGTAAAATGGTTTAATGCTGATAAGGGCTTTGGGTTTATCACTGGTTCAGATGGAGATGTATTCGTACACTTTTCATCAATTAAAACTAACGGTTTTAAGAGTCTTGAGGAAGGGCAAAAAGTTAGCTACGATGTTGAACAAGGCAATCGAGGACCTCAAGCTACTAATGTTGTTCCACAATAA
>LACTIS1119B1_11180 hypothetical protein
TTGATTCAATCACTAGTCTTAATAAGAATACTACAGCAGCATATTTGCAAAAAACTACTAATGTTTATTAGAAGGTCTAATAGCAATAACAGTACATCTAACACAGAACAAAAACAAGTAGTTGCAGTTAATCATGACTATAGTGTAACGGCTAACAATAATGTTACTGATAAGGCTGCCGCAGACAAGGCTGCCGCAGACAAAGCTGCCGCTAGATCCAACTCTGAATCAGCTACGGTAGATAGCTCTTCTAGCTCGGAAACTACTAATCCAACCGTTGACACCCCATTCGCCGATAAAGCTGTTCACACTATTTATACTGGTACTAATACTTACCTATATACCACTAAAGAGTTAACTACCATTGCCACCACACCATTACAAGGTAATACCAGCGTAATTGCTTATCCCGATGGCATTACAACGGCCTTAACCGGTAAGAATGCTGGTGACCCAGCTATACCCGTAACTTATAAAGGACAAAACTTGTATTTTAAAGGTACTTTTGAAGGCTTGACTTCAAACGGCTTATATCCAGATGGCTATTACTACGCTTTAACAGACACCGTCTTCTACGGTGTGGTTAAGCCAATCGACCCTTCCGTCAAACTTGACGCACCTTTTCTAAACGGTTCCACTTGGTTCTACTTTTTTGATGGTGGCTTTACGATTTACAGTTATAAAAATAACGTTTGGACTGGCAATACCTTTTTAAACGCTCAGTAA
>LACTIS1119B1_11190 hypothetical protein
ATGAAAAATAAAATATTAGGAAATAAATTATTTAAAAGTGGCAAAGTGTTGATTGCTGTCGCAGGAGTGTCTGTAATCATGACAAATGCTGTAATCCCTGTTATTAGTACAGCATCAGCAAATACGAATAAGGTGACACCTGTTCATACTGCTTCAAACTGGAGAGCTAACGACCAAAAACCGTTGATAATAACATGA
>LACTIS1119B1_11200 hypothetical protein
TTGGACATGACCGCCGCTCACCTGGCTGCCCAGCACCCGGTGACTGACGCCAAGACCATCGAAAAGCAGATCAAGGAAGAAAAGCAGGCCCAGGAAAAGGCCGCTGAAAAGGAAGACTACGAAGCCGCCCTTGACCACAAGGCCAAGGCTGAAAAGCTGGAAAAGCAGCTGAGTGAAAACCACAAGGAAAGAAAGACCGTGGCTACCCCGGCTGACGTGGCCGCTGCTGTTGAACGCCTGACCGGGATTCCGGTTTCCAAGATGGGCGCCAGCGACATCGAACGCCTGAAGGGGCTCAGCAGCCGCTTAAAGGCCAAGGTCATCGGCCAGGATGAAGCCGTTGAAGCAGTAGCCAAGGCTATCCGCCGCAACCGGGCTGGCTTTGACGAAGGCAATCGGCCAATCGGCTCCTTCCTCTTCGTTGGCCCGACCGGGGTCGGCAAGACGGAACTGGCCAAGCAGCTGGCCTTGGACATGTTTGGCTCTAAGGATGCCATCATCCGCCTGGACATGTCTGAATACTCCGACCGGACAGCCGTTTCCAAGCTGATCGGGACCACGGCCGGCTACGTGGGCTACGATGACAACTCCAACACCTTGACGGAAAAGGTTCGCCGCAACCCTTACTCAATCATCCTTTTGGACGAAATTGAAAAGGCTGACCCGCAGGTCATCACCTTGCTCTTGCAGGTCCTTGACGACGGCCGCTTAACTGACGGGCAAGGCAACACGGTCAACTTCAAGAACACCATCATTATCGCTACCTCTAACGCCGGCTTCGGTAATGAACAGCTGATGGGCGACGCTAAGAAGGACGAGAAGCTGATGGACCGGCTGGCTCCTTACTTCAGACCGGAATTCCTCAACCGCTTCAACGCGGTCATCGAATTCAAACACCTAACCAAGGAAGACTTGAAGAAAATCGTTAACTTGATGCTGGCTGACGTAAACAAGACTCTGGCCAAGAAGGGCATCAGCCTGACTGTCAGTGAAAGCGCCAAGGACTACTTGATTGAACAAGGCTACGACGAAGCTATGGGGGCACGGCCGCTGAGAAGAGTCATCGAACAGGAAATCCGTGACAAAGTAACTGATTACTACCTGGACCACCTGGACGTCAAGAAGCTGAAGGCGGACATGGTCGACGGGACCCTGGTTATCAGTGAAGATAAATAA
>LACTIS1119B1_11210 hypothetical protein
ATGGATTACAACAACTTTAACGATATGGATGATCTTTTTAGAGAATTAATGAACGGCTTGGGCGGCTTCAATTCCGAAAACCGCCGCTACTTGATCAACGGCCGGCAGGTAACCCCGGAAGAATTCGCTGAATACCAGAAGACTGGACAGCTGCCAGGACAAGGCCAGGCCAAGAATTTCCAGGGCAAGCAAAAGAAGGCCAACGGCATTTTGGAAAAGTTAGGCCGGAACCTGACCGCTGAAGCCCGGGAAGGCAAGCTCGACCCGGTCATCGGCCGGAACAAGGAAATCCAGGAAACGGCGGAAATCCTCTCCCGCCGGACCAAGAACAACCCAGTCCTGGTCGGGGACGCCGGGGTCGGCAAGACCGCGGTCGTTGAAGGCTTAGCCCAGGCAATTGTCCACGGGAACGTGCCGGAAGCAATCAAGAACAAGGAAATTATTTCCATCGACATCTCCAGCCTGGAAGCCGGGACCCAGTACCGGGGCTCCTTTGAGCAGAACATCCAGGACCTGGTCAAGGAAGTCAAGGACAGAGGCAATGTCATCCTCTTCTTTGACGAAATCCACCAGATCCTCGGTGCCGGCGGCATGGGTGACGGCAATGGTTCCAAAGGGATGAGCGACATCTTGAAGCCGGCTTTGTCCAGAGGTGAAATCACCGTAATCGGGGCCACCACCCAGGATGAATACCGGAACACCATCATGAAGGACACCGCTTTGGCCCGCCGCTTCAACGAAGTAACTGTCAATGCTCCGAGTCCAGCTGAAACCTTCAAGATCTTGAAGGGAATCCGGTCCTTATACGAAAAGCACCACAATGTGGAACTGCCAGACGACGTCTTGAGGGCCGCCATCGACTACTCAGTCCAGTACATTCCGTAG
>LACTIS1119B1_11220 hypothetical protein
GTGAGAACGATAAAGATCGATATTCTTCGATACCTCGACGACAAGCACCTGACCATTTACCGGGTGGCGAAAGAGTCGGGCTATGGCTACACTACCCTTCACAAGTCATTTAACAAGCAGCAATCAAATGCGACGTCAATCAACTTGCGCGATCTCGACGCGATCGCCCGGACCAAGCACGTGGCGATGTGGCAGGTTCTGCGTGAGCTGGAGAATGATTATCTCAGCGATGACGATGATGACTAA
>LACTIS1119B1_11230 glutamine amidotransferase
ATGGATGATAATTTGATTCGCATTGCCTACCTCTACGAAGACTTGATGAACACCTACGGGGACTCCGGTGACGTCAAGATCCTCCGCTACTTTTTGCAGAAAAAAGGCTGGCAGACCCAGATCGACAATATCTCCCTGGGCAGCCAGTTCAACGCGGCTGACTACGACTTTGTCTTCTTCGGCGGCGGCCAGGACTATGAACAAAGCATCGTGGCCAAGGACCTGCAGCGCTTCAAGGAAACCCTGAACGACTACATCCAGGCTGGCAACCCCATGCTAGCCATCTGCGGGGGCTACGAACTGATGGGAACCTACTACAACACCATTTCAGGGGCCAAGATCAAGGGCCTGGGGATCCTGCCCCTACACACGGAATTTGACCCAGAGAAGCGGATGATCGGTGACACCAAGTACGAAACTGAATGGGGCCCGACCATCGGCTTTGAAAACCACTCCGGCCAGACCTTCCTGGATGACCGGAAGATGCTCAAACCTTTCGCCAAGGTAGTCGAAGGCTACGGCAACAACCATGAGGAAAAGGAAGACGGGGTCCGCTACAAGAACTTCATCGGCTCCTGGTCCCACGGCCCGATGCTTAAGAACGAGAATGTGGCTAATGCCCTGGTGGACATGATTTTGAAGCGGCACGCTGCCCGCGTGGCCCAATAA
>LACTIS1119B1_11240 hypothetical protein
ATGAGTGAACAATACATTTTGGCAATCGATGAGGGGACTACCTCAACCAGGGCAATCATTTTCAACCATGCCGGCCAGCAGGTGGCCAGCGTGGCCCGAGAATTCACCCAGTACTTCCCCAAGCCCGGCTGGGTAGAGCACCATGCTGAGGAAATCTGGAACGCGGTCCAGATCACGACGTCAACGGCCCTGATCAACTCCGCCATCCGGCCGGACCAACTGGCGGCCATCGGGATTACCAACCAAAGAGAAACCACGGTGGTCTGGGACAAGGAGACGGGCCGGCCAATCTACCCGGCCATCGTCTGGCAGTCCCGGCAAACTAGCGATATCGCAGAAAAGCTGGTTAAGGACGGCTACAGCGAGATGATCCGGCAAAAGACGGGCCTGGTGATCGACCCTTACTTCTCTGCCACGAAGATCCGCTGGATTTTGGACAATGTGGAAGGGGCCCAGGAAAGGGCGGAAAAAGGAGAGCTGCTTTTTGGCACGATCGACACCTGGCTGGTCTGGAAGCTGACCCGGGGCAAGGTCCATGTAACTGACTGCACCAATGCCAGCCGGACCATGCTCTTTAACATTCATGATTTGACCTGGGACCAGGAGATCATGGACCTGCTGAAGATTCCGCGGGCCATGCTGCCGGAGGTTAAATCAAATTCTGAAGTCTACGGGGAAACTGACCCTTACCAGTTCTTCGGCGGCAGGGTGCCGATCGCCGGGATGGCCGGGGACCAGCAGGCGGCCTTGTTTGGCCAATTGGCCGTCAAGCCGGGCATGGTCAAGAACACCTACGGGACCGGGTCTTTCATCGTGATGAACACGGGGGAGGAGCCGATTGAATCCAAGAATAATTTGCTGACGACTATTGGCTACAAGCTGGGCGATCAAGTAAACTAG
>LACTIS1119B1_11250 hypothetical protein
TTGGAAGGGTCAGTCTTCGTGGCCGGGTCAGCCATCCAGTGGCTGAGAGACTCGGTCAAGCTGCTGAACTCAGCTCCGGAATCAGAGCAGGCGGCCCTGGAATCTAAAGACGATAATGAAGTCTATGTGGTTCCCGCCTTTACTGGTTTGGGGGCACCATATTGGGACAGTGAAGCCCGGGGGGCGATTTTTGGCTTGACCAGAGGCAGCAGTGACAAGGACTTGATCAAGGCAACCCTGCAGTCCTTGGGCTACCAGACCCGGGATGTGGTCGACACCATGCAGAAGGACTCGGGCATTGAGATTCCGGTCCTCAGAGTCGACGGCGGGGCTTCAAACAACAACTACCTCCTCCAGTTCCAGGCAGACCTTTTGGGCAAGAAGATCGAACGGGCAGCGGATTTGGAAACGACTGGCTTGGGGGCCGCCTTTCTGGCAGGTTTAGCCGTCGGCTACTGGCAAGACCTGGATAGCTTGAAGGAAATTGCCAAGACCGGGGCCGCTTTTGCGCCAAAGATGGAAGAGGCGGAAAGAGACCGGCTCTACGCGGGCTGGCAGCGGGCGGTTCTGGCCACCCGGGTCTTTGCCCACGGGAAAGATTTTTAG
>LACTIS1119B1_11260 protein tyrosine/serine phosphatase
ATGCCAAAGCGGATCGTAAAGTTAGAGGCCGGCTACAATTGCCGGGATTTGGGCGGCTATGTCAGCCAGGACGGCCGGACTGTCAAGTGGGGTCGGCTTTACCGGTCGGGGTCACTCAGCCATTTGACCAAAGCGGACCAGGCGGAACTGGCCCGGCGGAAGATTGTGGTGGACTGTGATCTGCGCTCCCGGCATGAACAGGACAACTTCCCGGACAAGCTCTGGCCCGGGGCTAAACTGGTCGACGCCCACTTTTACAGTGAGAGCGGGGATGAAGAGGAAGAAGCTGAGGCAGCCTGGGAGAAGTATTCGGGCAAGCTACCCAAATTATCTTACCTGGCCATGGTCTACCAGCAGAACCTTGTCGCCCCCAGAACGGGCCTGGTGATGCGGAAGATTTTTAAGGAAATGCTGACCCTGGAAGATGATGAAGCCTTGATCTACCACTGCTCCATGGGCAAGGACCGGACGGGGATGGTGTCGGTGATCGTTTTGATGGCTTTGGGCCTGGGAGACCGGGAAATCCTGCGGGACTACCTGCTCAGCCGGGAATACAGCCAGGACTGGGATAAGGCGGATGAAAACGACCGCTTGGGCCAGCAGATTGCCAAGATGAACCAGACCCAGGTCAGCCAAACGGCTTTTTACGGGATTACGGAAACGATCCGGCAGACCTGGGGCGGCTTTGACCGCTATTTTGCCAGCCTGGGCTTTGGCCAAGGAGACTTGGACCGGCTTAGGGACAAGTTTTTAGAATAA
>LACTIS1119B1_11270 IS1182 family transposase
ATGCTTGTTAAGCGGGCGTTCCTCTACTTCACGCAAATGCTCATTGATGAAAATCTGATCAGAGAAAATGCCTTGTTTATCGACGGAACCAAACTTGAAGAAGATGCCAATAAATACTCGTTTGTTTGGAGAAAAGCTGTCGAGAAGTATCACGACAAGCTTAAGAACCATGCCCTTGAGCTCTACGATGAGCTTGTTAAAGAGAACGTCACTCAAACGATTGAAAGAGAACAAGCGCAAGAAGCCGCAGGACTTGAAGAAATAGCTAAAAGCACAGAGGCCAAAATTGAAAAGCTAACCGAAGAAATCGATAGCGAAAACCTTGATAAGACAGAAAAATCAGCTCGAAAGCAGTTACGCAGAAAGCTGAAGAAAATAGCTAGGAAACTGCACAAGGACTACATTCCAAGAGCCTACAAATACGAGCAATCAGAGAAGATTTTCCAAGGCAGAAACAGCTATTCCAAAACAGACCACGACGCGACCTTTATGCTTATGAAAGAAGACCACATGCGCAACGGACAACTAAAGCCGGGCTATAACATTCAAGCAGTCACATCGAATCAATACGTGATTGATTATGCCATATTTCCTAATCCAACAGATACAAGAACCTTGGTACCTTTCCTAAGTCAAATGGCTCTCCTGTCTCATTTTGAGAACATAGTAGCTGATACAGGTTATGGCAGTGAGTACAACTATATCACGCTAGAAGATCAGTTTAAGAAGAAATACTACATTCAATACTCGACATACCGAATTGAGAAAACACGCAAATACAAGAAAGATCCAACTAAGGTCGCCAATTGGCACTACGATGAAGCAGATGACTTCTATATCGATCCCCAAGGAGTAAGATTCAGATTCAAAGGTTATAGCAGTAAAGTGGACCGGTACGGCTATAAGCGAGACTTTAAAATTTATGAAGCAGATCCGATTCAAGAAACGGATGAATTAGAAGAAGCCTCTAAAACACCAAAAGGCTATCAGCGCCGCATTACGTACAATCCGACGTGGGAAAACGTTAAAGCCCATGCGAAAGAATATCTTGAGAGCGAAGACGGAAAACGAATCTACAGCTACCGAAAAATAGACGTAGAGCCGATTTTTGGGCATCTCAAGAATGTATTTGAGTTCACCTCCGCGGAAGGAAGAAAGTAG
>LACTIS1119B1_11280 hypothetical protein
ATGAAATATGAGTTAATTAATGGTGATTGCTGCGTTCGGCAATATAATCATGTCGACATCGTGCCAACCAATTTTTGTGGTTTATCTAGAGAAATACTTTCAAGGGATCCTCAACATGTCTTTCTTCAGATTAATAAATCGGCGGGTTCTTTGCCGCGCCAGGGGTTTAAGATACATGTTTCGGCTACCTTGCAAAACTACCAAGTTATTTTAGATAAAGTATATGACCTTAGTTGTAAAAATAATTTTACGTTTAATGCTAATTTCCCAGGATTTTACAACTCAATGTCTAAAAAGCCTACTATTACGGCCTTTTTTGAAGTTTAA
>LACTIS1119B1_11290 serine/threonine protein kinase
ATGACTGGGAAGTATATTACTGTTTATCCAGAAACTGAAAGCAGATTTAAAGAATTGATTAGAACAATCTACGATTTGGTTGGAGAAGAAGATGGAATTCCAATCTTTACTGACCAGGTTTTTAGGGACAGTAAGAATATCTATTATCGATATGGAATAATTAATTCTGATGATGATTTTATACGTGATGAACAAAGTAATAAGCTATATCGAGATCATGAATTAAGACCGTATCAATTACCATCTTTCGTAAAAGAACCTTTTGAATCTAAAAATGAATATAAACTAGAGGTGATTGGAAAAAAGTATTTTCTAAAAGGAATAATTTCACGAAAAAGTTCAGGAAGTGTTTATAGAGCGCAAGATATTCATGGTAGAGACGTTGTAATTAAGCGTGCAAAATACGGTTTTAAAGATTCAGAAGAAACTGAGATTCAAAAATTACAAAACGAGAGAAAGAATCTAATAAATTGGGAGAAGTATGATTTTATTCCTAAGGTATTAGACTCATTTTATGAGCAGAAAGACTTTTTCTTAGTTGAATCGTACATTGAAGGCTTGACGATTGATGATCTGCGAGCGGAATTTATAGGCGATAAAAGAGATAGTCTTTATTTTGCTAAAATAAGGCACATTGTACTTAATTACCTAAGATGCTTGCAAAGGTTACATAATGATTCTTTTTTTCTAGGCGATATTTCTGCTAGGAATATCATTGTTGATTTCGAAAGTGAAAAAGTGTTTTTGGTTGATGTTTCACAATCGGCGTTGCTAACAAATATGGATGAGAGCTTTTATTATCGAACTCAAGGTTTCTATGATAGACGAGTGGATTATCTATCTTCCGAACTTCAAGATGTCCATCAATCTGGATACTTAGTAATGAGTATATTTTCAAGGGCAAATGACTTTTTAAAAATAGACCGAAGCGGCAAACAAAGTTGGAATTTCTTTATTAAACAGGCAGTTGAAGAAAAAATTCCTACTGTGTTTATTAAGGCTATGAAAGTGCTGATCAATGCTACGGCAGGCAGCTTAGATAGGGCAATCGAAATTTTGCAAAAAGATGATATGAATGTACTGAGTCAAATTACCACAACTCAGCAATTACCTTTAAAGTCACTATTGCAAGGGTTGCAAAGGCCGGTGTCAATTGAACAGATTGAAGAAAATAGCCTTGATGAAAAAATTAGTGAAGCCAGAGTGGTGAAGGCGCTTTTATCAATGGAGTTAGGAAATAGCAGCTGTCCAGTTCCTGATTTTGAACAGAGTCAATTAAAAATTTTCGAAGAACTAAGTCAAACTAGGCCTTCAATGGAAAAGATATTACGGCAGTTATTTTTGATGGTTGAATATCTTAAGGAAAGAGTTCCAAAAGTTCCGGTCAAATTTGATAACTTTGATATCACAATAAAAAAGATAGAAAGTACGTTTTGGGTAGAAAATAACGATTTTTGTGGTTATAGATTGTTTGCAAAGTCAAAATACATTTCTCCATATTTGAAAAATGGTATGGCAGGGATGCTGATAGTACTTATGAATGCAAAAGTAATTTACCAGACTAAGGTGTATGACCGACGGATTAAGCAATTGGCTAATGAACTTTCTAGGATGGCGTATGCTAAAAATGGTACCTTCATAGAAGGCTTGTCTGGCATTACTTGGAGTCTTATAAAGTATGTTAAACAATCACATGATAGGGACTATATGCCCTTAATCGAACGGCAATTATCTTTTTACCAATATTTTTGTATAGATTGCCATGGCTTGATGTACTTAATCGACTCTAGAAATGAAGCCTTAGATACCAGTCTGTTTTATGGTAATCGAGGAATGGCGTTTGTATTGAAAGAATGGGAGAAGTTAAATGAAAATCGGAGAACTTGTTAG
>LACTIS1119B1_11300 multidrug ABC transporter ATP-binding and permease protein
ATGAAAATCGGAGAACTTGTTAGGCAAAACCGACTGCGGTTTACATGTGCGCTTGCTTTAGAAGTTTTGGGACAGCTATGTGTGGCGGTTGGAAATTATATAATTGGATTTATACTAGACTTACTGGTTAAGAGAGATATTAGTAGATTTTATCTTGTTTTAGCAGTATTTTTTGTATTGTATATGGGCGGATATGTCCTAATCAGCTTTGCTGAATACTTATATATCGTACAAGTTCAAGAATATGTTCATCAACTTAGAAGAAAAACAGTTGATTATTATTACCAAAATTCTGAAACTGTTGCTGAAATGCAAAATCATTTGACGAATGACTTTCAGATGTTGTTTGACAATTTTACTCAGCCACTGTTCGTTTTCTTTGACTCTGCTCTAGCTGTCGTATTTTCAGCATACGCGCTAATTACGATGCATTGGATTTTGTTGGTTACAACTGTGCTGTTGTCAGTTATGTTTCTATACTTGCCAAGCATCTTCTCTAAGAAATATCAAGAAAGAACGCTGAATTTTTCTAATATGAACACGGCCTATCTGACTAGTATAAAGAATTGGTTAGGGGGACTAGCTGAAATTCAACGTTATGATGCGAGACACAAGCTAGTTGAAGTTTTAGAAAAGAGGTCTAAGAAATTAGAAGGCTCATTGGTTACGCGTCAAGTTAGCGCAATTGAGATAAACTTTATCAACGGTTTTATGAGCATCTTTTGTCAAGTTGTATTAGATCTCGTAACTGGAGCATTGATTTTTGCTGGAGCAATTTCTATCGGGAAACTTGTCGCGGTTGGCCAATTCTCTAGTACAATATTTAACAGTCTGGTTACGTTGTCTAACTACCTGGAGCAAATCAAGTCAACTAAACCGTTGAATGAAAAGGTAGCTGCTGCCTTAGCTGATCCACCTAAGGATGTAAATACAGATAAAGAATTGGCCTCCTTTGATCATTTGCAGACAACTGGTTTGTCGTTTTCCTATGATCACGGGGAGACAATAAATTATCCCGATTTGAAAATCAAGGCTGGCGAAAAAGTTTTGCTGACCGGTGACAGTGGGACGGGTAAGTCAACTTTGTTAAAGGTTTTGGCGGGAGAGTTGAAAGCAACGACTGGTAATATTGCCTTCTATGATCACAATGATCGGAAAATTGATATTTCACTTAAAGCCATGCATTACGTGCCGCAAGACCCGGTGCTGTTCCCAGCATCGATTGCAGACAACATTACCATGTTCAAGCTTGAGTTGAATGACAAAGTTGGAGAATACCTGCAGAAAGTTGATTTGGCTAAAGATATTGCCAAGTTTCCAAAAGGCCAGGATACTGTTATAGATGTAGAAAAGCTTAATGTTTCTGGTGGGCAGAGACAAAAGATTGTTTTAGCTCGTGCGGAACTCAATCAAAGTGACTTTATTTTGATCGATGAAGCTACGGCTGCAGTGGATCAAGATAGCACGAAGCGTATTTTAAAGAACCTTCTTAAAACTAATGCAACGATTATTTTTATCGGCCACAATTTCACGAATGAGATGGTTGACATGTTTGACAGACAAATTTTTTTGTCTAAATAA
>LACTIS1119B1_11310 protein-tyrosine-phosphatase
ATGGAGATGCAAAGGGTAATTGAACTGGACATGCCGGTAAACTTCCGTGACCTGGGCGGTTATCAAGGCTTGGACGGCCGCCGGGTTAAGTGGCGGAAGATCTACCGGTCGGCGGCTTTAAACGAGATGTCAGCCAGGGACCGGGTCAAGCTGGCCAACCTGCGTATTACGGTGGACTGTGACCTGCGGTCCAGCCGGGAGCAGCGGGACTACTCCGACCTGCTCTGGCCGGGGGTCCGTTTTGTGAATATTGGTCTTTACGCTGAAGGGGACCGCTTCAACCAGGCCCATCCTTTCTTGCGCCTTTTTCACCATCTGCCGGAATTTGACGACTACCTGCCTAAGATCTACCAGCAGGTTTTGTTAAATGAGCATTCAGAAGAGGGGATCAAACGGGTCTTTGAGGAATTGCTGAAGCTGCCGGAGGACCAGGCCTTGGTCTACCACTGCGCGGCTGGGAAAGACCGGACGGGGATCATCAGTATTTTGATCTTGATGGCCCTAGGCGTGGACGACAAGACCATCGCGGAGGACTATTTGCTGACGGATGAATTGTACGATTTTTCCATTGAGAAGCAGCATCCGACTAATGAGAAGCTGTCTCGCAGGTGA
>LACTIS1119B1_11320 hypothetical protein
GTGATCGCGAAGATGAACGTGACCCGGGGCGAAGGACCCGCGGTTAAAGGGATCACGGAGACTATCCGGCAGGGCTGGGGCAGTTTTGACAAATTTTTTACCAGAAAACTGGGCTTTAAGCAGGCTGACTTGGAAAAGTTCCGGGAAATGTACTTAGAGGAGGAAGAGACAGACTAA
>LACTIS1119B1_11330 macro domain protein
ATGAATTTAGAAATCTGGCAAGGGGATATCACGACTTTGAAGGTGGACGCGATCGTCAACGCGGCTAACCGGGAACTGCGGGGCGGCGGTGGCGTCGATGGGGCTATCCACCGGGCAGCAGGACCTGAATTGAATGAGGCCTGCCGGGCCTTGGGCAGCTGCGAGACGGGTGAGGCCAAGATCACGCCGGGCTTTAACCTGCCGGCTAAGTACATCATCCATACTGTAGGGCCGATTTACTCGGGTTCACACAGCGATCCCCTGCTTTTGGCGGCCTGCTACAGAAACAGCCTGCGGGTGGCCAAGGAAAATGGCCTGCACTCGGTCGCTTTTTCCGCGATTTCAACCGGGGTCTACGGCTATCCGCTGGACGCGGCCAGCAAGGTGGCCTTCGGTGAGGTCCGCAAGTGGCTGAGAGAACACAAGGATTACGAAATTCGGGTAATCATGGTGGCCTACGACGCCCGGACTTACGCCTTGTACCAGAAATTGCTGGGCTAG
>LACTIS1119B1_11340 hypothetical protein
ATGTTGAGAAAATATTACGTGACAATCGTCTTTACCCTGCTGGCTCTGCTAAATTTGCTGAGCAGCTGGGGAACGCTGCAGTACCGCCTGGTCATGCTGGCTTTAAACCTGGTCTGCGGTTTTAGCATGGAGTACCTGGTGAACAAGAAGGCGCCGGCAGAGAAATACAATTTGTGGAAGGGATGCACGGCAGCTGTTTTGCTGGCAGTCAACCTGCTTTGGATTTTTTTGACAAAATAG
>LACTIS1119B1_11350 cytochrome C5
ATGGCAAGAATGTCGCGCAGACAGTACCAAGAAAGACAAGAACAAACCGCGCAAAAGCAGACGCGGCAGACAAACCCTAACTCCGTTCCTCGCTTGGACACTGACGGGGCTTCAAGAAGCGAGCAGAAGGTCCGGCTCAACTTCTGGCAGATCTTCGCCGACCGCCCTTACGTCACGGTCATCATGATCAGCCTGGCCCTCTTCTGCATCCTGGCCAAGTGGTGGATCGGCCTGGCCATCATCATCATCTTGACCATTGCCGGTATCTTCGTGATTGGCCGCTCTCACCACCCTAACCGGGCCCTCAGTCTGGAATTCAAGCTCAAGGCCTCCCGCAAGCTGAGTATGATCAAGGCCCTGCAGCTTTTGGGTTCAAACATCATGTTCCTGGCCGCCTACATGCGGCAGATCGTCAGCGTTGACTTCTCCAGCGCCGGGGCGACTGACAGCCTAACAGTCATCCAGAACATGCTCTCCAATCAAGGGACTTTCGACCAGCAAGGTTCCTATTTCTTGAACCTCTTCAACCAGCTGACCGGGGGATCGCTTTGGGGGATCTACCGCTACGCTACCAACAGCTCGCAGATGATGAACTCCACTGCCGGCACCATGATCATCCTCTGGATCTTCCTCTTGATGATCGCCCCAGCCTTCTGCGTTTTGTCCCAGTTCTTCAGAGAGCCTTACTCCCGGCACGTGATGACGGTGGCTTCCTTGATTTCCACCATCTCCTTTGCCTTGACGCCAACTTTGATGAACCGCTGGGTCATCTCATACGCCGTAGAAAACCAGATGAGCCAGGCAGCAGCGGAAAACGCTGTCCAAGTCGGCGGTATGGTCTACCCGGCCATCATCTCCGCCATCTTCGTCTTTATCCTGGCTATCTACCGGGAAATCAAGAAAGATGAATTTTAA
>LACTIS1119B1_11360 hypothetical protein
ATGAAAGCGAGAAGCGAGACCTGGATCAAGCAGATGGCAGCAGTTGCGGCTGCTGGTATTGGGGCAGTCAGCCTGGGGGCGGTAAATTTGCCTCAGCCAGTCAACGCGGCCACTAATGACGTCCAGGCTAGGTCCAGCCAGGATGACTTGAAGACGGCGCAAGAGAACGTTAAGACGGCTGAAGCTGCAAAGCGCGCAAGCTGCTTTGATCGCGGAGGAAGCTGA
>LACTIS1119B1_11370 hypothetical protein
TTGGCGGAAAAGAAGGAAGCGTTGGCCACTGCTACGGCAAAAGCGGCCGCAACTCTGCACGCTTTGAACCTGGCAAAGGCCCGCTTGGCTGCCTTGGAAGCAACACAGCCGACGGACCGGACCCAACGACTCCAACTGAACCGACTACCGAGCCGTCCAAAGAACCTTCTACAGAACCAACCGCTGAGGAATATACTGAAGAACCAGCTGATACGGAAGAAGATACTGACGGCGGTGACGTTGTGA
>LACTIS1119B1_11380 hypothetical protein
GTGACTGTAGTGAACACGGATGAAGAGCCAGCAACTAAGTCAGCAGCCAAGACTCCAACTCTTGTAACTAAGTTAGCCAACACTGCACCAGCAGCCACTGGAGCTCAGCTCCCGCAAACCGGTGAAAAGGACGCTAAGCCAGGCATCTTGGCAGGCATTATTTCTCTGCTGGCCGGAGTTTCTCTCTTTGGCTTCAGCTTTGAGAAAAGAAAGCAAGAAAAGTAA
>LACTIS1119B1_11390 fumarate hydratase
ATGGCAGAACAAGAATACCGTATTGAATCAGACACGATCGGTGAAGTTAAGATTCCTAAGGAAGCTCTCTGGGGCCCGCAAACTGAAAGAAGCCGCAACAACTTCCCATCCGGCGAATTGATGCCATTGGCTATCATCCGTGCTTTCCTGCACTTGAAGAAGGCTGCTGCTGAATCAAACGTTGAAGTTGGCGACGAACCAGCTGAAAAGGGACAAGCAATCGAAGAAGCTATCGACCAATTGCTGGCACTTAGCGACGAAGACCTGCGCAAGGACTTCCCACTTCACGTATTACAAACTGGTTCAGGTACTCAAACCAACATGAACGTCAACGAAGTTGTTGCCAACCTGGCTAACAAGCTTCACCCAGGCTTGAACATCCTGCCTAACGACGACGTCAACCGTGGCCAAAGCTCAAACGACACTTACCCAACTGCAATGAACATCGTTGCCGTTGAAGCTGTCGACAAGCTGGAACCAGCTATTGAACACTTGATTGACGAACTTAAGGTAAAGCAAGACAAGTACTGGAAGACTGTCAAGGTTGGCCGTACCCACCTGCAAGACGCTACTCCTTTGACTTTCGGCCAAGAAGTTTCCGGCTACATCTCAGCTTTGAAGCATGACCTGGCTTACATCCAAGAATTGAAGCCAAGCCTTTACGAATTGGCTATCGGTGGTACTGCCGTAGGTACTGGCTTGAACGCCGCTCCGGGCATGACTGAAGCTATCGCTGGCAAGCTGTCAGAAGTTTACGGCCACGAATTCAAGGTCGACACCAACAAGTTCTGGGGCCTGGCTCACCACTCAGCTTTGAGCGTAATGCACGGCGCCTTCAAGACTTTGGCTAACGACATGTTCAAGATTGCCCAAGACATCCGCTTCCTGGCTTCTGGCCCACGTGCCGGCTACGGTGAACTTAACATCCCAGCCAACGAACCAGGCTCATCAATCATGCCAGGTAAGGTTAATCCAACCCAGGCTGAAGCCGTAACCATGGCTGTAGCCCGCGTATTGGGTAACGACGTAACTATCAACTTCGCTGCCAGCCAAGGTAACTTCGAAATGAACGTCTTCAAGACTGTCATGATCGCTGCCTTCCTGGAATCAGCTGACATCCTGGCCGGCACTATTACTGGCTTCGCTGACAAGATGATCCACGGTTTGACTGTCAACGAACAAAGAATGGATGACCTACTGGAAAACTCCCTGATGACTGTTACTGCTTTGTCACCAAAGATCGGCTACCACGAAGCTGCCGTAATCGCTCAAACTGCTCAACGTGAAGGCACTACCTTGAAGGAAGCTGCCCTGAAGAGCGGCAAGGTGACTGAAGAACAATACGATGAATGGATGGACTACATGGCCATGACCAACATCGACCGGACTAAGCCGGAAGAATAG
>LACTIS1119B1_11400 2-oxoglutarate translocator
ATGTTAACAAAAGTTAATTACAAAGGCTTCATCTGGCCTTTGATCATCGGGATTGGGCTCTTCCTGCTCACTCCTCTGCGCCCGGCGACCATCACCGTTGCTGGCTGGCATATGTTCGCCATCTTCCTGGCGACGATCATTGCCTGCATTACCAAGCCCCTGCCAATCGCCGGGGTATCCATCATCGCCTACGTGACCATCATCGGCCTGGGCCTGGTGCAAATGAAGCCAGCCCTGTCAGCCTTCGCTGACTCAACTCCATGGACCATCGCCATGGCCTACATGATTGCCCGGGGCTTTACCAAGACTGGCTTGGGCCGGCGGATCGCCTTGATCTTCGTCCGGGCCTTCGGGAAAAAGACTTTGGGTCTGGCCTACTCCTTGTCCATGATCGACTTGGTCGTTTCACCAGCCACCCCAAGTAACACTGCCCGGTCTGGTGGTATCGTCCTGCCAATCATCGAATCCTTGTCCGATACCTTCGGTTCCAAGGTTTCTGATGGCACGGAAGACAAGATCGGTTCCTACCTGGTCTTCAACGAATTCCACGCCAACACGATCTCATCCAGCCTCTTCATGACTGCCTCAGCTCCTAACGTGGCCGCGGTTGGTCTGGCAGCGGCTAATGGGGTCAAGATTTCCTGGTTCGGCTGGGTAGCAGCCGCTATCGTGCCAGCCTTGATCTCCTTCATCTTAGTGCCAATTATCATCTACAAGATGTACCCGCCTAAGATCAAGGAAACTCCTAACGCCAAGGAATGGGCTGACGGCCAATTGAAGGAAATGGGCGCTATAAAGGCTTCTGAGAAGGTTATGATGGCAGTCTTCATCCTGGCCCTTGTCTTGTGGATGCTGTCCAGCTTCATCGGCTTGGACGCTACCTGGGTAGCCTTCCTGGCAACCGCGCTTTTGCTGGTAACCGGGGTGCTGACCACCAAGGACATGCTAAGCGAAACTGGTGCCTGGAACGTTGTCGTTTGGTTCTCAATTCTGATCTTCATGGCCAACCAACTGAGCCTTAAGGGCGGCGTGATTCCGTGGCTGCAGACTTCAATCAAGTCTGTCATCGGCGGCATGTCACCAGTTCTGGTCATGGCCATCCTGGTCCTGGTTTACTTCTACAGCCACTACCTCTTTGCCTCCGGCACGGCCCACGTTGTTGCCATGTACGCGCCTCTGCTCTTGATTGCCAAGAGCGCTGGCGTGCCGGTAATGTTCGCGGCTATCATGCTGGGCATGACTGGGGCGATCTTCCAGTCAACCACCCACTACTCATGTGGGCCGGCTACTGCCCTCTTCGCCCTAGGCTATGTCAAGCAGACTGACTGGTGGAAGATGTGCTTCGTTTTGGGTCTCTTCTACCTGGTAGTCTACGGCGGCATCGGCGGCTTGTGGATGAAGCTGATCGGCCTGTGGTAA
>LACTIS1119B1_11410 hypothetical protein
ATGGTAGTTGAAGCCTACAAGCACAAGAAGTTCATCGACAGCTCAACTGGCAAGAAGACGGACCTGATGATCTACAAGGACGTTAACCCGACTAAGAAGGCCGCAACTAAGCAACTCAAGGCCAACCTGGCTCAAAGCGACAAGGTAGCCAAGACTTTGTCCGGCGACAAGCTGACGGCCTATCTGACAGAACAGAACCAGAAGAATGCCGACTACGCGCAAAAGAAGTGGCAGACCATGAACAATAGCTTGATCGTCCACTCCAACAAGCTGGCTCCGGTAACCAAGTCCAAGCTCACTTTCAACAAGTAA
>LACTIS1119B1_11420 dipeptidase
ATGCGTAAGTTTATTTGGACTGCCGGTGCCCTGGGCCTGGCCGCTGCTTTTACCGCCACACCTGTTAAGGCTTGCACGACTGTAGTAGATGGCAAGAAGGCCACGACCGACGGATCAACCCTGGTTGCCCGTAATGAAGACGTTGGCGCCTGGTCCAAGCACTTCTATGTTCACCAGGCAACCAGCAATGGCCCGACCACTTATGTTTCTGAAGACAACGGCTTCAAGACCAGCTTGCCGAAGACTGCCCTACGCTATACCAGCATGCCAGACGGCGAGCAGGTTAATGGCCAGTGGATTTTTGGCGAGAACGGGGTCATCTTCAGCGACAAGAACGAAATCTGGTACATGGAAATCGGCTCCGGCCACACCTGGGCAGCTGTCAGAGTTCCAGACAACAAGTATGCCGTCATCCCTAACCAAATGGTGATCGGCAAGCTCAACCTCAAGGACTCTAAGAACTACATGGCTTCAACCAACCTGGTCAAGAAGGTTAAGGCCTGGTCCCAGAACAAGAAGATCAAGCTGGCTGGCTATGTAAAAAGCACGGTCAACTACTCCAAGGCTTTTGGCACCAACGACAAGACCGACGCCATCTACAACCGGCCAAGAATGTGGGACGGGCAGAGAATCTTGACCCCAAGCAAGAAGCAGTCAATTACTAAGAAGTCCTACACCCTCTTCCTCAAGCCGGAGAAGAAGGTTAGTCCGGCCAAGGTTGGCCAGGTGCTTTCCTCCCACTTCACCGGGACCAAGTACTCCAGCTACGGCAAGTGGAAGGGCGGCTACCGGCCGATCAACGTGCCAACTGACGTGGAATCCCACATCCTGCAGATCAGAAACAATGTGCCTAAGGAATACGCGGCTATCCAGTGGCTGGCCATGGCCCGCCGGCTAACAGCGTCTGCCTGCCTTTCTACACCAACATCAGTGACACGCCAAGCCAGGACCCGACTAATACCAAGTCCGCCTACTGGACTTACAAAACCACGGCCATGGTAG
>LACTIS1119B1_11430 citrate lyase regulator
ATGCAGCTCAGCAACGACCAGCTTGCGAACATCGCACACGACTACTATATCAGCAAACTCAACATCGCCGAAATTTCCGCCAAATACAACCTGTCCCGCTACCTCATCGACAAGGCCTTAAGCGATGCTGAAAAGACCGGCATCGTCCAGATCAACATCAAGGAAGAAGCCAAGCGGAATCCCGGCCTGGAAAAGAGTTTCCGCCAGCAGTTTGGCCTCAAGGAAGCCTTTATCTTGAAGAAGCTGGAGACTAAGAACCAGGACAGCGAAAAGATCATCAGCTTTGCCGCTGAACAGATCCAGAGCTACATGCAGTCCAGCAAGAACGTCGGAATCACCTGGGGCACGACCATGCTCGACATCATCAACTCCTTTACGGAAGTAAAAAACGATGACCTGACCTTCGTCCAGCTGGTTGGCTATCCTCTCCAGGGCAACGGCCGCAAGAATCCGCTGGAAATCATCGCCGCTGCCCAATGCGGGGGCCACTTCCGCGCTCTGCCCGCTCCCCTTTACTCCTCCAACCCCGACCTGGTCAACTTGATCAAGAAGGAACCTTTTTACGAGCAGCTGGATGAGCTCTACGACAACATGGACCTCCTGGTCGCCAGCCTGGGCACCCTGCAAGCCTTTGAAGAAGAAAGATTCCTGCACGAAAAATACGAGAGCCTCCTCTTCAAGAACATCCACCAAAAGAGTATCTCCGGCATGATCTTCGGCCGGCCATACGACCATGAAGGCCACTTCTTCAGTTCAATTACTGACAAGATCATCGGCATCTCCGACCAGCAGATCGTCAAGACCCCGGTCCGCTTCGTCGTGGTCAACGACCGCTTCAAGTCTGAAGCCCTCTTAGGCGCCCTCAAGTCGGGCATCATCACCCACCTGGTCACTAGTGAAACCATCGCTGACCGGGTCCTGCAGCTGCAAGAAGAAAGCGGCCGGTAA
>LACTIS1119B1_11440 hypothetical protein
ATGACGTTCAAACACAATTTCAAGAAAGTTTTATCAGCAACTGCTTTTGCAGCTGCCCTCGTGGTTGCTCCCGCCGCTAACGTTTCAGCGGCTACTAATGACGCAAGTTCTACCCAACAATCAGCAACTGCAACTAGTCAAGACCAACAAGCCAGCCAAGACCAGGCCGCAAGCCAGTCTAGCGCTGCTAACCAAAGCTCAGCTACTGCTGCTTCAGCAAGCGCAAGCACTTCTACTTCTAGCGCGACTTCAACCAGCACGGTAAAGAAAACCACTAAGAAGGCTAAGAAGACTACTAAGAAGAGCAAGAAGAAGACTTCCAAGAAGAAGGCAGTCAAGAAGGTTGCTAAGAAGACTACTAAGAAGAGCAAGAAGAAGACTTCCAAGAAGAAGGTTGCTAAGAAGACTACTAAGAAGAAGGCAACTAAGAAGGCCAAGAAGACTAGCAAGAAGTCAACTAAGAAGACTACTAAGGCCGCTACCGCAGCTGTAACTGCCAGCGCTGGCCAAAGCCAGGCAACTGACCAGCAAGACGACGCGGCTAAGAAGGCTGCTGAAGCTGCTGCTAAGAAAGCCGCCGCTAAGAAGAAGGCTACTGCCAAGAAGAAAGCCGCCGCTAAGAAGAAGGCCGCTGCCAAGAAGAAAGCTGCCGCTAAGAAGAAAGCTGCCGCTAAGAAGAAGGCTGCTAAGAAGTCAGCTGAAAAGGCAGCTAAGTACTGGATCGCTATGCGGGAATCAGGCGGTTACTATACTGCCAGAAACGGCAGTTGTTACGGCCGCTACCAACTCTTGATTTCTTACCTGGGCGGTGACCTGTCCAAGAAGAACCAAGAACGGACTGCTGACCGCTACGTTTACGGCCGTTACGGTTCATGGGTCAACGCCAAGAGATTCTGGCTGGCTCACAACTGGTACTAA
>LACTIS1119B1_11450 hypothetical protein
TTGCGGGTACATGGTAGCGTCATGGCCCTTAAGCAAGACGATGTACCCAGCTACTTAACCAGACAGAAGATCCTGTCTCCAGTTAAGCTGGCCATGGCAGAAAAAGCCAACCTCAACCAGCTCCGCTTTACCAAGGAGCAGCAAGGGCTGCTGACTGAATTAACCCGGCTGACCCGGCGGGTCAAGCTGAGCTTCGTCTACCTCAGCCCCTTGAACTCGATCAGCCAATTCAGTTTCTAA
>LACTIS1119B1_11460 aminopeptidase N
ATGGCTGTTAAGCGTTTTTACGAAACATTCCATCCAGATCACTACGATCTATACATCGACGTTGACCGGGCAGCAAGATCTTTCTCAGGGACTTCCACCATCCATGGTGAAATCCAGGAAGAAACTGTCTTGGTCCACCAAAAGTACATGACCATCAGCAAGGTCACTGTTGACGGCAAGGAAGTGCCGTTTACTTTTGGCGACGACTTTGAAGGCATCAAGATCGAAGCCGGCAAGACTGGGGAAGCGGTCATCGCGATCGACTACTCAGCGCCTTTGACTGAGACTATGATGGGGATCTCCCCGTCCTACTACCAAGTTGATGGCGTCAAGAAGGAACTGATTGGGACCCAGTTTGAAACTACTTTTGCCCGGGAAGCCTTCCCATGTGTTGACGAACCAGAAGCTAAGGCAACCTTCTCCCTCGCCCTCAAGTTCGACGAACACGAAGGCGAAACTGTTTTGGCCAACATGCCAGAAGACCGGGTAGAAAACGGCGTGCACTACTTTAAGGAAACTGTCCGCATGTCCAGCTACCTGGTTGCTTTTGCCTTTGGTGAAATGCGGTCATTGACCACCCACACCAAGAGCGGGGTCTTGATCGGGGTTTACTCAACTCAAGCCCACACTGAAAAGGAACTGACCTTCTCCTTGGACATTGCCAAGCGGGCAATTGAATTCTACGAAGACTTTTACCAAACTCCATATCCGCTGCCGCAATCACTGCAGCTGGCCCTGCCTGACTTCTCAGCCGGTGCCATGGAAAACTGGGGTCTGGTAACCTACCGGGAAGCCTACCTGCTTTTGGACCCGGACAACACCACTTTGGAAATGAAGAAGCTGGTTGCGACTGTGGTGACCCACGAACTGGCCCACCAATGGTTCGGTGACCTGGTAACCATGGAATGGTGGGACAACCTCTGGCTGAACGAAAGTTTCGCCAACATGATGGAATACCTGTCAGTTGACCACCTGGAACCTAACTGGCACATCTGGGAAATGTTCCAGACTTCTGAAGCAGCGGCTGCCTTGACCCGGGATGCAACCGACGGGGTACAGTCAGTGCACGTGGAAGTTAATGACCCGGCTGAAATCGACGCCCTCTTTGACGGGGCCATCGTTTACGCCAAGGGGTCAAGAATGCTGGTCATGGTCCGGTCACTTTTGGGCGATGAAGCCTTGAGAAAGGGCTTGAAGCGCTACTTTGACGAGCACAAGTTTGGCAACGCGGCAGGTGACGACCTCTGGGATGCCTTGTCAACGGCCACTGACTTGAACATTGGGGAAATCATGCACACTTGGCTGGACCAGCCAGGCTACCCAGTGGTGAATGCTTTTGTTGAGGACGGCCACTTGAAGCTGACTCAGAAGCAATTCTTCATCGGTGAAGGCAAGGAAGTCGGCCGCAAGTGGGAAATTCCGCTTAACGCTAACTTCAAGGCACCGAAGATCATGTCAGACGTTGAACTTGACCTGGGTGACTACCAGGCTCTGCGGGCAGAAGCCGGCCACGCTCTGCGCTTGAACGTGGGCAACAACTCCCACTTCATCGTGAAGTACGACCAGACTTTGATGGACGACATCATGAAGGAAGCCAAGGACTTGGATCCAGTTTCCCAATTGCAATTGCTGCAAGACCTGCGGCTTTTGGCAGAAGGCAAGCAGGCTTCATACGCTGACGTGGTACCAGTTCTGGAACTCTTCAAGAACTCAGAAAGCCACATTGTCAACGATGCTCTGTACACGACTGCTGCTAAGCTGCGGCAATTTGCCCCAGCCGGCAGTGAAGCTGACAAGAACCTGCGGGCTCTGTACAACGACTTGTCCAAGGACCAAGTTGCCCGTTTGGGCTGGCTGCCTAAGGCAGGGGAAAGCGATGAAGACATTCAGACCCGGCCATACGTTTTGTCTGCTAGCCTTTACGGCCGCAACGCTGATTCAGAAAAGCAAGCCCACGAAATCTACGTGGAATACGCTGATAAGTTGGCAGAACTGTCCGCTGATATCCGGCCATACGTTTTGATCAACGAAGTTGAAAACTACGGGTCAAGCGAATTGACTGACAAGCTGATTGGTTTGTACCAGGCAACCAGTGACCCATCATTCAAGATGGACCTGGAAGCCGCGATCGTGAAGAGCAAGGACGAAGGCGAACTGAAGAAGATCGTTTCCTGGTTCAAAAACGCTGAAATCGTTAAGCCGCAGGACTTGCGCGGCTGGTTCAGCGGCGTTTTGTCCAACCCGGCAGGTGAACAGCTGGCCTGGGACTGGATCAGAGACGAATGGGCATGGTTGGAAAAGACGGTCGGCGGCGACATGGAATTCGCTACCTTCATCACTGTCATCTCCCGCGTCTTCAAGACCCAGGAACGCTACGACGAATACAACGCCTTCTTTACTGACAAGGAAAGCAACATGCTGCTGAACCGGGAAATCAAGATGGACCGGAAGGTCATCGCTAACCGGGTAGACTTGATTGCCAGCGAACAAGCTGACGTCAACGCCGCGGTTGCTGCTGCTTTGCAAAAGTAA
>LACTIS1119B1_11470 nitroreductase
GTGAAGATTTCCCGTGACGAATTGCTGGAAATCATTAATGAATCTATCTCTGCTCCAAGTGCCTGCAACCTGCAGTCCTGGCACTTTGTTATTGTCGACACTCCAGAAGGCAAGAAGAAGCTTCACGATTTCTTAATGCCGTTCAATTACCCTCAAGTTGACACTGCTCCAGCCACGATCATGGTTTTCGGTAACACTAAGTCATATCTGAAGTATCGTGACCTGTGGAATGGTATGGTAGAAGAAAAGAAGGTAACTCCAGAAGCACGCGATGCCGCGGTTAACACCTTCCTTCCACTTTATGAAAAGGCTGACCGGCAAATGTTAGTTGCAGACGCAATGGTTGATGCCTCACTCGTTGCCATGCAACTGATGCTGGTTGCCCGTGAACACGGCTACGAAACCAACCCAATGGCTGGCTATGATGCAAGCAAGGCTGCAGCAGAATTTGGCCTGGACCCAGAACAATACATTCCAGTGATGGCCATCTCCATTGGCAAACCGGACCCAAGTGAAGTTGTTCCAGATACTGTCCGTTATGATGTCAAAGACGTGACGGAATTCGCCTAA
>LACTIS1119B1_11480 hypothetical protein
ATGGCGGCAGCGGCAGATGATTTGTTTGACCATATGTGTGCGATGCGGGCTGGTTCAACAATTGCCGGCGTTATTCAGTTAAGGGAACTCTCACGGGCGGATATTGCGAACTTACAGGCGATTCTAGCTGAAAAGGCCAAAACAGCGCCCGAGGAAGTTCAGTGTAACTGCTTGCCAGGTGATCAAACGTGTTAA
>LACTIS1119B1_11490 cation-transporting ATPase
ATGGCAAATAAAGAGGAACATATGAACATGAAAAACATGAGTGCTAAGAATATGGAAAATAATGAATCAAATATGAGTCATATGGATCATGATGACATGAAAATGGATCACGATATGACCGAAACGGATCATAATCAAATGAACATGGACCACGATATGGCCGAAATGGATCACAGCCAAATGAACATGAATCACGAAACTATGAATATGAGTGGGATGAATCACGGTGATATGGATATGGCTGGGACCGACATGATGATGCACGGTGGCTCAATGATGCATATGGGGAATTTGAAAGTTAAATTTTGGGTCTCCGTTGTCTTAGCGATTCCAGTTTTACTGTTAGCGCCAATCATGGGTTTAAACGTTTCCATCCTTAGTTTCAGTTCACCGCTAATTGTTGGCATTATCATCGTTTTGTTTGATACAGCACTTTACTTTTATGGCGGAATGCCATTTTTAAAGGGGGCTAAAGCGGAAATTCAGAATAAATCTCCTGAAATGATGACGCTAGTAACCCTTGGAATTTCCGTTTCGTATTTCTACAGTTTGTACGCATTTATTGCCAACAACTTCTTGAACCCGGCAAATCATGTAATGGATTTTTCGTTCGAACTTGCAACCCTGATTTTAATTATGCTTCTAGGACACTGGATTGAAATGAATGCATTGATGGGGGCTGGGGATGCCTTACAAAAGATGGCGGCCCTGTTGCCTAAGACGGCCCATCTAGTTACAGATAATGGTGAAACAAAAGAAGTGCCAGTATCTGATTTAAAAGTTGGTCAAACTGTCCAAGTGCGTTCAGGTGAGAGTATTCCAGCCGATGGTGTTATTACGGCTGGGGAGTCGACCGTGAATGAAGCAATGGTAACCGGTGAATCTGCTGCCGTTACCAAGAACGTTGGCGATAAGGTCATTGGTGGTACAACCAACAATAACGGGACGCTAACGGTTAAAATTAGTGGTACTGGTGACTCCGGCTATCTTTCTCAAGTAATGAAAATGGTTCAAAATGCCCAGCAAGCTAAATCTAAAGCAGAAGATAAAGCTGATTTAGTTGCCAAGTATCTATTTTACGCGGCACTTGGTGTTGGGATTATTGCTTTCTTTGCCTGGTTACCCCAGGGACTAGAGACTGCAATGACGATCATGGTGACCGTCTTCGTGATTGCTTGCCCGCATGCGTTAGGATTAGCGATTCCATTAGTGGTTTCTCGTTCTACTACGATTGGCGCTCGAAATGGGCTATTAGTTCGAAATCGCCAAGCCATTGAAGCAAGTCAACATGTTAGCCACGTTCTCTTGGATAAAACTGGCACGTTAACAGAAGGTAAATTTACGGTGAATGCATTGATTCCAAATGATGGGATTGACGAAACAACGTTATTAAGCCGACTGGCCGCCCTTGAAAATAATTCGACTCATCCGCTGGCCCAAGCAATCATTACTGAAGCCCAAGCGAAGGGCATTGAAGTCGTTGCGGCTGAAAAGTCTCAAAATATTCCGGGCGTTGGTATTTCCGGTAATGTTGATGGCACTGACTATATGATTGTTAATGGTAACTATTTAACGAAGCAAGGGATTAGGTTTGACGAGGCCGCTGCTGATAAATGGGCTGCTAAGGGTAATTCCGTCAGCTTCCTATTGCAGGGCACCCAAGTTCAAGGAATGGTTGCTGAAGGCGACACCATCAAAGCGGGTGCTAAGGAATTAATTAGTGGTCTTCAGAGGCGAGGAATTACCCCCGTAATGCTCACTGGCGATAATCCAAAAGCCGCGGAACACGTTGCTAACTTACTAGGATTGACTGAATTTCATGCAGGCCTATTACCAGATGATAAGCAAAAGATTATTGCTGATTATCAAGCAAAGGGCAATCACGTCATCATGGTTGGTGACGGCGTAAATGACGCACCAAGTCTTGCCGCGGCCGATATTGGAATTGCAATTGGCGCCGGAACCGATATTGCCATTGATTCCGCTGATGTTGTGTTGGTTAAATCAGAACCCAGCGATATTTTACATTTTCTTGATTTGGCTAAAATCACAAATCGGAAAATGGTTCAAAATCTCTGGTGGGGAGCAGGCTACAATATTGTCGCAATTCCACTCGCTGCTGGTGCATTGTCATTTATTGGAATCATTCTAAACCCAGCCGTTGGTGCTGCGGTCATGGCGATGTCGACAATTATCGTGGCAATTAATGCGATGGGATTGACTGATGAAAAGATTAAAAACGTGTAA
>LACTIS1119B1_11500 hypothetical protein
ATGACTTCTCGCAAAGACTACCGGAAGAAAAATACTCAAGGCAGCAAATACTTGATTATCGCGGGTGTGGCGGTTATCGTCCTGGCCTGCGCGGGTATTTGGGGCCACAATGCCTACCAACAGCACCAGGCAACCGTTCTGGCGGAAAACAAGAAGCAGGTGGCATACAACAAGAAGCACTTCAACGCTAACGTCACTATCTATGGCGTCAAGGTGGGCAAGCTGACGGTTGACCAAGCGGTCGAAAAGATCCAGGCCAAGGCTGTCAACAAGCTGGTCTACAAGGACGGCAAGATCAGTGCTGTTCGTGACAGCAAGCTGACAACTATCAGCAAGGAGCAGGTCCAGAAGTACTTTGACAAGCAGTACACCCAGCTGCCGACTGACCAGAGCTACAATTACGAGAACACGGCTCTGAAGAAGGGCAAGAGCAAGCTGAAGGCCATTACCGCGGCCAGCGTGGACTACTCTGTGGCGGGGAAGACTTTTACCCTGGCAGCTAAAGACTACTTGACCCAAGTCAGCTACTACAGCGGCGCTGTCCACTACGACGACGCAAGCAAGCTGACGGCGAAACTGAACGCCATGGACAAGGAAGTCAAGACTTTGGGCAAGAGCTACAAGTTCAAGACGCCAGCCGGGTCAACCATCACCGTTACCAACCAGAGCTACGGCTGGGGGATCTGGACGGCCAGCGCCAAGAAGGCGGTTCTGTCAGCTTATGAGACTGGCAAGAAGACCATTGACGGGAAGAACCACATCTATGGTGAAGGCTACACCACGCAAGGTCTGGGCTACGGCAAGAGCAACAATGGGCTGGGCAACAGCTATGTGGTTGTGTCAATCGCCAGCCAGGACATGTGGGTGGTTGTCAACGGCAAGGTGGTCGTAACTGTATCTGACGTGGTTACGGGGACGGCCAACAAGGGCGACAACGCTACGCCTACTGGGGTTTGGTACATCATGTACAAGCAGAAGGACGCTACTTTAAGAGGGCAGAACGACAACGGGTCGAACTACGCTTCTAAGGTCAGCTACTGGATGCCGTTTACGATGAGCGGCTGCGGGCTGCACGACGCGTCATGGCGGACCGACTGGTCAAGCACGGCCTACCTGAAAGGCGGGTCACACGGCTGCGTCAACATCCGGCCTAGTAAAATCAAGTCCGTTTGGAACGCGGTTAAGGTGCACATGCCTGTGATCGTTTACTAA
>LACTIS1119B1_11510 hypothetical protein
ATGATCAACCCTGATTTTGCGATTATCTTAAATTTTAACCCAACTGGGGCAAATGTAAACGCGGATGCTCTGGTCCGCCGGGCAAGGGACATCGGTGCCCGCGCCGTCAGCGGCCGGGAAGAATTAAAAGCGGGCTGCGAAAAGTACACCATCGCCTACCTGCCAGACCAAGCTGGCCAGCACTACAAGGCAGATGAAGTCGTGGACGCTTTGCTAGCTGCCAGAAAGGCCGGCCAGGCCTTAGTCGTTGACGTGGACGGCGAAGACGAAGCTGACCAAGCGGCTTTAGACGCTTTGAACGCCTGGATGCACAAGTTTGGCCACGCGGTTAATGAAGGCCAGGAAAGTGACTTGTCAGCTGACGCGGCAGAGGCTTTTGTCTTGGCCAACCGGCACGCGCCCTACCAGGCCTACCTTTTCTTAAAGGCCCCTTATCCTGCAGAGGTCAAGGTGACTGGCTTGACGGAAGCGCCAAACCGGATCGAATGGCTCGACGGCCGGGAAGAATGTGAATTTGTTTTTGAAAACGGAGTCCTGACGGTTCAGTTAAAGAAGCAAGAAAGTCCTTTTGCCTGGCAACTGGTGCGGATTCAAGGCCACCGGCCGGAGGACGATATCGCGGAGACAAAATTTTAA
>LACTIS1119B1_11520 hypothetical protein
ATGAAGATTGTAATTTCCCCCGCTAAAAAAATGCAGACAGACGGCGGCTTTTTGCCGAAAAGCCAGCCCGTCTTCCTCGACCAGGCTGAGGAGCTTTGGTCCTATTTGCATTCCTTAGATCAAGCTGATCTGGAAAAAGTCTGGCGGGCCAATGCCAAAATCACCGAAGAAGCCCGGCAGATGCTGGCCGCTGACCTAACTCAGTCGCAAGTACCAGCCCTCTTTGCCTACAGTGGCCTGCAGTACCAGTACCTGGCCGCCGATGTTTTAGACGAAGCCGGGCTAGACTACGTGGATCAGCACCTGCGCGTTTTGTCCGGTCTTTACGGCAGCCTTCGCCCCTTTGACGGGATCGTGCCCTACCGCCTGGAAATGAAGAGCCCCCTGCCTGCCTTTAAGTATAAGAGCCTTTATGAATTCTGGGGAGAAAAAGTTTACCAAGAGCTCTACCAAGATGATTCCGTGGTCCTCAACCTGGCTTCCAAGGAATACAGCCATCTCCTGACTCCGTTCTTAAAAGAGGGAGACCGCTTGCTTGAGGTCGTCTTCCAGGAAGAGAAAAACGGCAAATGGCGGACCCAGGCAACTCATGCCAAGATGGCCCGGGGCCGTTTAGTCCGCTGGCTGGCGGAAGGGGGCCGGGACTTGTCCGACCTGCCGGACTTCACCGACTTCGGCTATGCCTTTGCCCCTGACCAAAGCGGGGAAGACCGGGTCGTTTTCCGGAAGAAGGCATGA
>LACTIS1119B1_11530 FAD/FMN-containing dehydrogenase
ATGGAATATCATAAGTTAACTGCTGAAGACATTGAAAACTTGCGGCCAATGATTGCCGACCCAGAACGTTTTATTACTGAAGTAACTGAACACTGGGACCACGACCAATTCAAGACTGTCCGGGCTATGCCTGACCTGGTAATCCAGCCAACCACGGCTGAAGAAGTAGCCAGCGTCTTGAAGTATGCCAGCGACCACGAAATTGCCTTGACTCCACGGGGCAACTCAACTGGTTTGATGGGGGCTAACTTGACTGTGCACGGCGGGATCTCCCTGGACATGGTTAAGATGAACAAGGTTATCGACTACGACCCAGACAGCTTGACCATCACTGTTCAACCAGGCATCCGTTTGAACCAACTGGAAGAATTTTTGGCAGACAAGCCATTTACCTACATGCCAGCACCAGCCATGCACTGGGCTACTGTAGCCGGCAACATCAGCACCAACGCCGGTGGCCTCAAGGCCATCAAGTATGGGGTAACCCGGGAACACATCCGGGAAGTCAAGGTTGCCTTGACTGACGGCAAGGTCTACAAGTTCGGTTCCAAGTCAGTTAAGTCATCATCCGGCTACTCCTTGAAGGACCTGATCATCGGTTCTGAAGGGACTTTGGGCGTGATCACTGAAGCTGTTCTCCGTCTTTACCCAAGACCAAAGCACGCTTTGAACGCCATCATTCCTTTCCCGACTTTGGACGATGCCATCCAGTCAGTGCCAGCTATCCTAGCTTCCGGCGTTGTGCCAACCACTGTTGAATACATGGGCCGCAAGGTCTTGAACCTGTGGGAAAAGTACTACGACGCTACTTTCCCAATCAAGGAAGGCGACGGCTTCATCATCCTGGGCATCGACTCCTTCACGGCCAGCGACGCTGAAGCCCAATTGGCTCAAGCTTTGGAAGCAGTCAAGCCATTCCACGCTTTGAAGGAAACTGTCTTGAACGCTGAATCAGACGAAGCCAAGACCATCTGGGACGCCCGTGAAAAGCTGCTTTTGGCTATCCAAAAGTCAACTCCTAAGATGGACGAAGTCGACGTTTCCGTGCCGATCAACAAGATTCCGCTGGTTCTGCACCGGATCGAAGAACTGGAAAAGGAAGAAGACATGCGGATTCCTAACTTCGGCCACGCCGGCGACGGTAACCTGCACATCTACCTTTGCTCAGACGATATGACTGACGACGAATTTGCCAAGAAGGGCGACATCATTATCTCCGAACTCTACAAGACCGCCAAGTCAGTGGACGGCAACATGTCCGGTGAACACGGGGTTGGCTACGCCCGCCAGAACTACTACGAAGACTTCTACGGCAAGGACTACACCGACTTGCTCAGAAAGGTCAAGGGCCTCTTCGATCCTAAGGGCATCCTTAACCCAGACAAGATCTTCCCGTTAGACTAA
>LACTIS1119B1_11540 TetR family transcriptional regulator
ATGGTCAAGGCAACTTTTGAGAATTTAAGCAAAGACAAACAGGACCGGGTAACGGAGGCCCTGCTCAAGGAATTCAGCGCCCATACTTTGGCCAGCGCCCAGGTGGCGCGGATCGTCAAGGAAGCCGGGATTGCCCGGGGGGCCTTTTACAAGTACTTTGAGGATTTGACGGATGCTTACCAGTACCTGTTCAAGCTGGCTATGCGGGACCTGCACACGGGTCTGACCGGCCGGATGGGGGCAGACGAGCTCTATCAGATGACCAAGGACTTTGTGACCAAGGCTACTGGCAGCCAGTACTATGACTTGATCCGCCTGCACTACGCGGCTAACGAGGCGCTTTTGCCAAGCAGCAGGCCCAACAAGCAGATGCCGGCCTGTGCCTGGGCGGCCATGGCCCTGTCACACGAGGCGATCAAGGAAGCCTTGCTGGACCCGGACAAGGCAGATTTTTACTTAGACCGGGAGCATGAGGCTTTAGAGAAGCTCTTTAGCCAACATAAATAG
>LACTIS1119B1_11550 antimicrobial peptide ABC transporter permease protein
ATGTTTTTAGCACTAAAAGAGATCAAGCATGAAAAGATGCGGTACGGCTTGATCGTCTTCATGATTTTTCTGATCGCGTACATGATTTTGGCAACCTGGGGCCTGGCATACGGCCTGGCCCGGGAAAACACGGTGGCTTTGGAAGGGTGGCAGACCAAGAGCGTGGTCTTGAACAAGAACGCCAACCTGTTTATGAACAGTTCGATTTTGACCAAGGACGACTTGAAGAAGATCGACCTGACTGACAAGGAAGCCGTGGTCGGCGAACTGCAAGTAGTGGCCAAGAAGAAGGGCAAGACCGGGATTAACGCCCAGTACATGGGGGTTAAGAAAGGCGAATTTATCTACAAGGACCAGGATGTAATTGCTGGCCGACGCGCTAAGAGCAAGTACGAAGTCACGGCTGACAGCAGCTTTAAGGACAAGGGCTACAAGCTGGGCGACAAGGTGACCTTGAACGGGTCAGACCACAAGTACACGATCGTCGGCTTCGTCAAGGATGCCAAGATTAATATTGAACCGATCATGTATGGCTTTTTGCCGGCATGGAAGGAATTAAAGAACGTGGCACCGGGGATTGAAGCTTCCGGGATCATTTCCCAGCGGAAGCTGTCTGTTAAGGGGAAGAACTTCAAGACTTACGGGATTAAGGAATTTACGCAAAAACTGCCGGGCCACTCTGAACAGAACATGACTTTTGAATTGATGATTGCTTTCATGTTCATCATTTCCCTGGCCATCGTGGCAGTCTTCCTGTACATTTTGACTATCCAGAAGCTGCCGAACTACGCGGTTCTGCGGGCACAGGGCGTGCCGGCCAAGACTTTGATCTGGGCCACGGTCAGCCAGAGTCTGCTTTTGGTAACGAGCGCTTTGGTCCTGGCTCTTTTGGCAATCTGGGGCACGGCGGCCGCGATACCGGCATCTGTTCCGATGGCCTTTACGCCAGGGATTTTCGTGGCAACGATCGGCGGGATGTTGGTAATGGGTCTGCTGGGCGGGCTTAACCCAGTTAGAACGATTTTGAAGATTGACCCGGTACAGGCAATTGGAGGCTAA
>LACTIS1119B1_11560 peptide ABC transporter ATP-binding protein
ATGGCAGCGATTGAAATTAAGAACGTGAAAAAAGTTTACGGGCAGGGGGATGCAGCGACGGTTGCCCTCAAGGGGGTCGACTTCAGCGCGGATACTGGCAACGTGGTTCTGTTGATGGGACCAAGCGGGGCCGGGAAGAGCACCCTGCTTACGATTATGGGTGCCTTGCAGACCGCGACGAGCGGGAAGGTGGAAATCGACGGCCAGGACATCAGCCAGTTGAAGGAAAAGGACCGCAGCCGCCTGCGTTTGAACAAATTGGGCTTTATTTTGCAGGCCTACAACCTGGTGCCTTACTTGACGGTTAAGGAACAGTTCCAGCTGGTGGACAAGGTGAAGAAGACCGGCAACTTGCGCCAGGAAGAATTAAAGGATCTTTTGGCTGACCTGGGGATTGAGAACCTGGTCAAGAAGTATCCGGAGAACTTGTCAGGCGGGCAGAAGCAGCGGGTGGCAATCGCCCGGGCCATGTACGCCAACCCGAAGATTTTACTGGCTGATGAGCCAACGGCATCACTGGACAGTGAACGGGTGGAAGAAGTCGGCCGCTTGTTTAAGAAGCTGGCCAAGGATGACGGGAAGGCGATCATTTTGGTCACACACGACCCGCGGCTGGAAAAATACGCTGACCACATCTATGACATGATGGACGGGCAGTTGACACAAAGAAAATAA
>LACTIS1119B1_11570 hypothetical protein
ATGGAAAAATTATACGAAATCTACACAGACGCTGCTGAGGACAGTTTTGAAGTCGGTCGCCTCTTGTTTGAAGAAAACGGCTGGCAGCTCTACTTGACTTTGGATGAGCTGGGCCGGGATGATTCCTTGCTCTTGATCAGAAAGTCAGCGGTCACGCGGCTGTTGGATCAATCGGATTATTTGGCAGAGATCCAGCGCCGGCGGAAGCTGCTAACGCAAAAAGGACTGGCAGATCCTTTCAAGCTGGAAGACAAAGTTACCTTAATCAAGTCAGTCGGAAGCTTTATGGACTTATTGCCCGGGCAGGTTGTATATTTTTGCCTGGAAGGCGAAGATTACCAGCAATGGGGATATATTGATGAAATTTCTGCCGGGCAAGTTAATTTTGCGGCATATCCTTCTGGCAAGTACCAGCCTTTCGCAGGAAAAGTTGCTGTCAGTCAACTCCGGCGGCTAGCCGCTTTCTCCGGTGAATGGTTGCTGGACAATCCTAAGTTGCGGGATACTGAAGATACAACTGTAGATGGTTTGTGCGAAGTTTATCTGAAAGAAGATCCAGCTTCATTCGCGGTTGGTCGGCTCTTGTGTGCTGATGACGACTTCAGCTTGTATTTGACTGTTGACGAAATTGGCCGGGATGACTCATTGCTGCTGGTTAAGAAGAAGGCCGTTGACAGAGTAATTGATCGATCAGAGTATTTGCAAGATATCAGCCGCTGCCGGCGCCAGCTTAAGGAAAGAGGATTAGAAGATCCCTTTGAAGTTCAAGATAAAGCAGCAGAAATCAAGCAGATGCAGGACTTCTGGCAATTAGCTGCTGGGGCAAGTCGTGTCCTTTGTCATGAAAGATGA
>LACTIS1119B1_11580 hypothetical protein
ATGAAAGATGAGGAAGAAGCAGAATATGGCATCTTGAAGAGCAAGGAAGGGGATGCCTTAAGCTTTGAGCAATACCCGTCTGGCAAGTACGAGACTTTTGCTGGCCAGATCAACCTGGCTGAAGTCGATCGCTTGGAAGCTTTTGGCGGTGAATTGACTTTGGAAAACAGCAATTGTTAA
>LACTIS1119B1_11590 transcriptional regulator
TTGAAAAAATCTGAGCGGCTTAATCAAGAGCTGATTTTTTTAAGTGACAAGAAGCGCTTTAACCTGCAGGACCTGATGGACAACTTTCAGATTTCCAAGCGGACGGCCCTAAGGGACATTGCCAGCCTGGAGGAACTTGGCTTGGCCTTATACGCCGAAGCAGGCCGGGCTGGCGGCTATTCACTGATTCAAGAGGACCTGCTGACCAAGATATACTTCAATTCGGATGAGGTTGCCGCGATATTTTTCGCGCTCAAAGCCATGGAGCAGCTAAAAGAAACCCCGTTTAACGAATCTTTCCAGATGATCAGCCAAAAGCTGCTCAAGAACCTGGCAGCGAGCCGGCAGCAGCAGGCCTTAGCCTCACAAGCAGCGGTTTCCTTCTTCAACACCCCGGCAGTTCACCACAACCCTTACTTGCGCCTGCTGATAGAGTCAATCCTGCACGACTCCCTGGTCCGGGCCAACTTCAAGGGCCAGCAAGTCCTGCTGCAACCCTGCCAACTCTTTTTTAGGGATGGCAACTGGTTGTTTGCGGCCTATGACTTGGTGGGCCAGGCCTTTTGGAACTACCGCTGCGACCAATTGCAGGATTGTACTGAGCAGGCTGCCGTTCCTAATAAGCTTAGTTTGGCTGAATTGAAGCAAAAGCAGCTAGAGTTTGAACACGACAATTCAGGCCAGGAATTTAAAATTCTCCTCAACCACCGGGGCCAGGAACATTTTTTGAAAAATCTCTACCCAAATATGCAGCTTGAGCATGAAGGCGGGACTACTTATTTGACCGGTTCATATACGCCACGCACCTTTGAGTACTTAATTGACTATCTCTTGACTTTTGGACTGAATGCGAAAATCATCACGCCAGAAGAGCTAAGAAGGAGCTTTAAAGAGCGGCTGGCTGCCATACTTGACCAATACAGCTAA
>LACTIS1119B1_11600 FMN-binding protein
ATGTTAGAAGAAAGCACTACTTTAACCCAAAACTTTTTGGAGGTAATCAGCGATCCGCAACCAGTAACGATCGTTTCCTACCAAGCCAGTCCAGCTCATGTGGTCAACACCTGGAGCAGCTACATCAAGGTGGTTGATGACTCAACCTTCCTCGTGCCTGCTGCTGGGATGCGGTCGATTGAAGCAGATATTGCGGCTCAAAACAGCCAGCTGATCCTGACCTTCGGCTCCATGAAGTTTGAAGGCACTGAAGGTCCAGGCCGTGGCTACCACGTTTATGCTACTGGCGAATTCGTTGAAGCCGGCGAGTACTTTGACCTCATGAAAGCCGATCTGCCTTGGTTGCGGAAGGTCCTGGTTGTCCACGTGCAAGAAGTTAAGCAAAAAATCTAA
>LACTIS1119B1_11610 hypothetical protein
TTGGACTATCAAAAGATCTTGCAGTCCAAATTAAGTTGGCAAGGCATTGCTAAAGAAACAGGAATCCCCTATTCTACAGTTAGGACGATGGTCAGCAGACCGGATCGGCTCAATTACACGAGCTGGCTCAACGTAATGCTTCTGGCCGAATACCACGACAGACTTGAGCGCAAAGATTCAGAGAATGACGATGGCCCAGCCCGACTAGACCTCCGGAATACCAGCATTGTCCTAAATGGCAAGCTGTTCACTGATGAAAAGTACCAAGACATGTCAACCACGGCCAAGCTTATTTATGGCTATCTGATTCGCCCTGCGCAAAAGCGCTACAAGGATGAAGCGGGAAGAGTTGATGAAGAAAATGATTTTTTGGCTAAGATATCCCAGTCTTGTCTGATAAACCCAAAAAATGTAGCGGCGATCAACTTGCGCAAACGGACTATTGTCATGCTAAATGGTGAGAGCCTCAGCTTTTCACGGAGGTTCCGGCATGAAATGGACAAATTGGTTGACGAATATAATTGGAAGGTCGAAATGTCGGCCAAAACGGCTGCTCCGTTAGGAAAATAA
>LACTIS1119B1_11620 glucose specific PTS system IIA component
ATGTTTAGAATTTTTGATTTGCTAAAGAGTAGGGCCCGGCTGAGCAAGGTTCTGGCTCCGGTCCAGGGCAGGTTGTTCCCGCTCGAGGATGTCAACGATGAGATTTTTGCCAGCAAGGGACTGGGCGAGGGCTTCGCGGTTCAGCCGTTCAGCGACTTGATCTACGCTCCCTTGAACGGCACGGTTACTTCTTTGTTTCCGACCAACCATGAGATTGGCATCCGGACCAAGGAAGGACTGGATCTCTTGATCCACCTGGGTTTGAATACGGTAGAGCTAGGCGGGGTCGGCTGCGACATTTTAGTTGAAGCCGGCCAGGAAGTTAAAAAGGGGCAGCTATTGGCGACGATGAACCGCAAGCTGCTCCGCGGTCTCGGCTACGACGATACGGTGATCGTGACTTATACCAACGACCGTATCCTGAAAGGGGTCTCGGCACCGGTCTTCTTTAGGGAGATCAATGCCAAAAGAGCGGTCCAGACGATCAGCTACCATTAA
>LACTIS1119B1_11630 hypothetical protein
TTGGTCTTGAAGAAACAGCTGCGGCAGTACTTGCTGATCTATACCATTCTTGAAACCATCTTGCTCATCAGCAGTTTTTTGCTCAGCTTCGTGATTTCAGCTTTTGTGACGAAAGCGCCACTGGCTTCACAAATCGGCTTAGAAACCTTGCTCTTGCTGGCGCATTATTTAGGCGTTTTTGCCTTGCTCTTCTTTTTAGAGACCGCGATCTTCCTGGCTGGTAAATTGCGGGCTGGAGCGGCAATTGAAGCCTTGCTTTTGCTGGATGCCTTTTGCCTGGACCGGTTGGGCTGGTCTGTTTTCTTAAATCATGGTCTGGCAATTGTTCCTGGCCAGGGCTTCTTCGTGACCGCTCCGGCAGTCTACTTGGCTTATGACCTCTTGCTTTACTACTATCTGGCCAGCCGGGCCTTCTACCAGGAGGTCAAATATGCTTAA
>LACTIS1119B1_11640 hypothetical protein
ATGCTTAACAAGACCCTATTAACAAGGAACTTGCAGCTGTACTGGCATAACATCAAGTTCCGCTTTCTTATCGTTTATCCGGCAATGCTCTTGCTTTTGACCTTTAAAAGCTGGCAGGGGATGGCCGGGATCCGGCTCTTTTCCGGCGTTTTGCAGGTCCCAGGAGCAATCGTCTTTCCTTTTGACTGGCTCTTTATAATGCTGGCTGTCTTTTTAATCATTGGTGACAGCCCCCGGGAGCTCTTCCTGAAGGACTATCCAATTGTTAGTCGGGTTCCTGCTGGCAGCTATCTGGCGACGATTTATTTTATGAATGCCAGCTTGACGGTCATGATTTGGCTGACTTGGCAGCTTTTTGGTGGCTTGCCGCTAATCTTTTCTTTAGAAATGCTGTTGATTTTTCTGGCCTTGACTGCCCTGTACGCCAGTTTGCAGTTCTTTATCTCATCCTTGCTGGATCTGGGACTGTACGCGGCAGTATTTATACTAGCGATTCTGGTCAACCAGCTGCCTTTTCTGTCCAGCTTGATGTATTTGCGCTACTCAGCTCACTGGGCGGACGGCCTGCTTGGTTCTGGCCTCTGCCTATTGGCAGCCTGGATTCTCAGTCGAATGATAAAATATATCGATTTTTCTTTGGAGTAA
>LACTIS1119B1_11650 ABC transporter ATP-binding protein
ATGATGAAAATTATAGAAGTTGACCATGTCACCAAGCGCTTTAAAAACAAACTGGCCCTTAATGACGTTTCCTTCAGCATTGATGCTGGCAAAATTTATGGCTTCCGAGGCCCCAATGGGTCAGGTAAGTCCGTGACCTTCAAAACCGTTCTCGGCTTTATCCGGCCAAACTCCGGGACTGTCAAAGTTTTGGGCAAAAAAATCCGCCAGGACGTCATCTTTGCCCCGGACACCGGCTTCGCGATTTCTGAATACGGTTTGCTGGAAGACAAAACCGGCCTGGAAAACCTCAACCTGCTCAAAGTCTTGAACGATGACCAAAGCGGCCAGGCAGAAGCGATCTTGCAGCAGGTAGGCCTGGATCCAGCCAATCCCTTGAAACTGAAAGAGTATTCTCTGGGCATGCGGCAGCGGCTTTTGATCGCGGCCGCCCTCCTAGGCGACAAGCAGATCCTCCTTTTTGATGAGCCAACCAATGCCCTCGACGAAGATGGGCAGGACTTTTTGGCCCGGCTCCTGCTGGAATTGAAGGACCAGGGCAAGACCATCCTCGTCTCCAGCCATGACAAAGACTTCCTTAACCGGGTCGCCGACCACATCTTCGTCTACAGTGAAGGCAAGATTGTCAAAGAATTGGAGCAAGATCATGAAGTTGAAGCATAA
>LACTIS1119B1_11660 hypothetical protein
ATGAAGTTGAAGCATAAAGGAATCTGGTTCTCTGCAATCTTTCTCTTGTGCCTGCTGGGCCTTTTCCTAAGCAAAAAACATATCGACCAAGTCTACCAGAACTTGCAGGTCTCCCAAACTGAAGTCAGTCAGACTGCCTATAGCAAGGTTAGCCAGAATCTGGCTGTCAAAAGCGGGCAGGGCAAGACTGAAGGAGGCAACTACCTGGCAACCATCTACGTCAAGGCCAAGACTGGGCAGAAGCTGTCCAGAAATGATTTCTACCTTTATCGAGGGCTGAAAGAGGGAGCGACCATGATCGACTCTTTAAAAATCAATGGCCAGGCAACTAGCCGCCTGCGATCCGGCGTAAACAAGGTCCAGGTCAAAGCCCCGAAAAACGGCAATGAGCAATATCTCTATTTGCTCGTTAACCCCCAAAAAGGCAAGTACGTCAAATATCATTTCAATCTGCAAAAATGA
>LACTIS1119B1_11670 dipeptidase
ATGACAACACACGGACGTTCATCCTGCACTTCAATCTTGATCGGGAAAAAGGCCAGCCTTGACGGCAGCGTGATTATTGGCCGCAATGAAGACTCACGGACGGCCTGGCCCAAGCACCTGGCCTTCCACCAGCGGCAAGCAGGAGCCCAGACTTTCAAGTCACATGATAACAAGTTCACAATTGATTTGCCAGAGGAGGCCTTTGCATATTCATCCACTCCAGAATGGACGAAAAAGTACGGGCTTTTTGAAGAAGACGGGATCAATGAGTACCATGTGGCAATGAGTGCTACGGAAAGTGCTTATGCCAACGAGCGGGTTTTGGCCATCGACCCTTTTGATGCTGAAAAGGGCCTCTTGGAAGAAGCCATGGTGACTATTGTTTTGCCTTACGTCAAGACGGCTCAAGAAGGGGTCAAGCGCTTGGGCGAAATCGTGGAAAAGTACGGGGCGGCTGAATCAAACGGGATTCTGTTTGCGGACAGAGACGAGGCCTGGTACTTGGAAATCGGGTCCGGCCACCACTGGGTTGCCCAGAGAATCCCGGACGACTCCTACACGGTGGTTGCCAACCGGCTGTCAATTCAAGAGATTGACTTTAAGGATCCGGCCAACTTCCTTTATTCAGCCGGCCTGCAGGAATTCGTTTATGAGCACCAGCTGTGGCCAAAGGAAGCCAAGTTCAACTGGCGGGAAATTTTTGGCACGAGAAGCGAGAGCGACCTGCACTACAACACCCCGCGGGTTTGGTACGGGCAGAAGCTGCTGACCCCGTCAGTTAAGCAGGAGCCGCAATCTTTTGACCTGCCATTTATTCAAAAGGCGGACCGGCCGCTCAGCGTCCAGGACGCCCAGACGGTACTGGCCAGCCACTACAGCGATACGGAATATGACTTGACCAACCCGAAGAACGCGGCCCAGGCAAGCTTCCGGCCGATCGGGGTGGCGACGACCCAGGAATCCCACCTCTTGCAGCTTAAGGGCGAGGACATGTACCACTGGCTGGCCATGGGGGTTACGGCGCAGAGCGTCTACATTCCCTTCTTCCCGCAGGGGACCAAGGTGCCTTACATGTGGGGCAACGGCAAGGTCGACTACAGCCCGAACTCTGCCTACTGGATCTTCAAGCTGGCCGGGGTTCTGGTTGACCGGAACTGGGGCAAGTACGGCAAGGAACTGGCCAATGCCCAGACGGAAGCCAAGGAAAAGGTCCTGCGCCTCCGCTATGAATACGACCAGAAGCTGCATGCTGACCCAAGCCAGGCCACGGCGATCGCAGATGAGGCCAATGCCAAGATGGCCAAGACGGTGACGGACATCTACAACAAGCTGATCAGCAACTTGATTACCCAGCAGACGGGCGATTCCCCGCTCAGCTTCCAGATGGACCCGAACTTGTAA
>LACTIS1119B1_11680 TetR family transcriptional regulator
ATGGCCAGAAGGAAAGAAATTGATCGCGAGCGAATATTGGACATCGCCTACAAGAAAGCCTTGACCGACGGGATCGAGAACCTGACTGCCCGCAGCATTGCCCAGACTGGCCACTTTTCAACTCAACCGATCTATTTGGAATTCAAGAACATGGATGGCCTGCGCAAGGAAGTGCTTAAGCGCGTCTCCCGCACCTTGCGTGATGAAATCCTGCAGAAGAAATTTATTGGCGAGCCCTTATACGATGTTGACCTCTCCTACCTGCAATTTGCCCGCGACCACCGGAGCCTGTTCTCAACGATTTTCGTCAATGGGGAATTTGGTGACGACTTAATCCGCGATACCTTGATGGACCTGGGCCACACCAAGCTCCGCGAACAGTACCAGCGCGACCTTGACCCGGAACTGGAGAAGTGGCTCATCGCCCTCAACTGGATTATCGTCAACGGCCTGGCCGTAATGCTGGTCGATGGCCTGATTGACTATGACCAGGACAACTTCGTCCGGATCATCAAACGGCAGCTGGAAAGCCTTTTTGACCGCTGA
>LACTIS1119B1_11690 NADPH-dependent FMN reductase
ATGAAAGTTTTAGCTCTTAACGGATCTAACGCTGACAAGTCTTACAACGAAATGCTGCTGAAGTTCATTGCCAAGCACTTCGCTGATAAGTATGATTTTGAATTCGCGACCGTGAAGGGGTTGCCGATGTTTAAGGAAGGCCAGGAAGACCCGGCTGACGTGGCCAAATTGAGTGACCAAGTTGCCGCTGCTGACCTGGTTTTGATCGGGTCACCGGAACAACAGCACTCAGTAACCAGCGCTTTGAAGAGCGCCCTGGAATGGCTGTCAACCAACACTCACCCCCTCAACGGCAAGCCAGTCGTTATCGTGTCAACTTCACCGCTGGCCCAAGGGGCTGCCCGGTCACAGACCAAGCTGAAGACGATTTTGGCTTCCCCAGGCCTGCGCCCGGTTGTCTTCAACGACGATGAATTCATGATGGGCGGGGCAGCTACTGCCTTTGACGAAAACGGCGATTTGAAGATTCCCGGTACCGTTGACTTCCTGGAACACTTCTTTGACGAAGTCGACGCCTGGTACGCACAAATCACGAAGTAA
>LACTIS1119B1_11700 NADPH-dependent FMN reductase
ATGAAATTATTAGCTATTGTCGGAACTAATGCCGATTTTTCTTTCAATCGTCTGCTCTGCCAGTTCATCGCCAAGCGCTTTGGCGATAAGGCGGAAATCGAAGTCGCTGAAATTGGCGACCTGCCAGCCTTCTACAAGGAAGGGCAAGCTGATGCCCGCGTTGCGGCATGGCGGGAAAAGGTTGACCAGGCTGACGGCTTGATCATCGCTACTCCAGAATACGACCACGCTATTCCAGCTGCTTTGAAGAGCGCTTTGGAATGGCTGGGCAGCCACGCTGGCAGCAAGGTTATGGCCTACAAGCCAGTCTGCGTTGTAGGCGTGTCCTTGGGCGGCCAAGGCGCTTCCCGCGCCCAGGAAGATGCCCGGGAAATCCTGCTGTCTCCGGACATGACGGCCAACGTTTTGCCAGGCAACGAATTGCTGATCGGCCAGGCTTACAGCAGCTTTGACAAGGAAAGCGGCGACCTGGTTGACGAAGCTTCAATCGCTCAGCTGGACAAGGTTATGGAAGCCTTCTTTGCTTTCATTACCCAAGCCAAGAAGTAA
>LACTIS1119B1_11710 protein-tyrosine phosphatase
ATGGCAGAGGAGCTTTTACCCTTGAAAACAGTCCGCAATCCCCGGGACCTTGGCGGCTATACCGGCTTTGCCGGCAGGAAGATCAAGGCCGGACTTTTGCTGCGGACCGGGACGGTCGCAGCGATCAGTGAAGAAGATGGCAATTATTTGAGGGCTCGCGGGGTGAAAACCATCATCGACCTCCGTTCTCCGCAAGAATGCCGTAAGCGGCCGGATAAAAAGCTAGCCGGGATCCAGAACGTCAATATCCCCGTTAACAGCCGGGACCAGACCAAGGCCGGAGCCAGCCTGGCGGAATTAGCCAGGCAGTACGGCCTAGACCCCCTGGCGGGCTTCCGCCATATGGTGGAGAGCTACCGGCTGATGGTGACGGAAGAGCACGCACAGGCGGCTTTTGGCCAGGTTTTAGCCTATTTGGCTGAAACTGAAGGCGGAACTATTTATCATTGCTCGGAAGGCAAGGACAGGACGGGCCTGGTGACTGTCTTTTTGCTGACAGTTTTGGGGGTTGACCCGGAAACCATCCGCCAGGACTATCTTTTATCCGCTCCCTACCTTAACGACTACCGGGCCAAAAGGGACAAGGAAGCCCGGGAAAACGGGGAAAGCCTGGTGCAGCGGGCCAACCTTAGGTCTCTGGGCACGGTCAACAATGAGTACTTAGACAGCGCCTTGATCACCATCGACCAGGAATATGGCGGCATGGAAGCCTTTTTGACCCGGCAATTGGGTGTAACGCCCGTCCTTCGTGACCAGCTCCGGGCCAAGTATCTAGAAGAGTAA
>LACTIS1119B1_11720 thiamine biosynthesis lipoprotein
ATGGGAATCATCAAATACATATCAACTGACCAAGTCATGGCCCAGCACAAGGCCATGGGGACCCACATCAGCCTGCAGATCTACGGGGCAAGGGAAGACCCGGAAAAGATCCTGGACCAGACCAAGGTCCTAATCGACCACTTTGAAGACCTGCTGACGGTCAACCGCAAGCTGGACCACCCCCGCTACGGCCTGTCCGAAGTAACCCGGGTCAACGACCAGGCGGGCAAGGAGGCCGTGCAAGTCTCCAGCAGCGTTTACGGCTTGGTCAAGCTGGCCGTTGAGACCAGCCGGGAAAACTTCGGCTTCAACGCCTTAATCGGCCCCCTGGTTAAGCTCTGGTCCATCGGCTTTCAGGATGCCCGCGTGCCAAGTGACGCGGAAATCCAGGAGAAAATGAAGCTGATCGACCCCTGGATGGTCGAATTAAATGACGATGACCACACGGTCTTTTTGAAGCAGGAAGGCATGGAGCTGGACCTGGGCGGGATCGCCAAGGGCTGGACGGCCGACCGGATCAGGGACCTCTGGCGGGCTTACGGGGTCGAAGCCGGCATCATCAACCTGGGCGGCAATGTCCTCTTCGTCAACCCTTGCCCGAAGCGGGCCAACGGGATGTGGACGGTAGGCGTCCAGGATCCTTTGAAGCCGCGGGGAGAAAACATCACGGCCATGATGATCCCGGAATGCTCCGTGGTCACCAGCGGGACTTACGAGCGCTTTTTGGAAGTGGACGGGCACAAGTACCACCACTTGATCGACTCCCGGACCGGCTACCCGGTGGAAACCAACATCGCCGGGGTGACGACCTTCACCAAGAATTCCGTTGACGCGGAAATCGAGTGCAAGCGCTGCTTCTTTGCCGGCCAGCCAATTGCCAACTGGGTCAATGACCGCCGCTTAGGCGCCATTTACGTGTATAACGATGAACGGGTGGAAAAAGTCGGCCTGGATTACTAA
>LACTIS1119B1_11730 CvpA family protein
ATGCTCTTAGTTATTTTCGTCATTCTCTACATCGCCTGGCAGACCTACAAAGGCTACCATGTGGGTTTCTCCAAGCGGATCGTCAATTTGATCTTCGCCGGTCTGGTCTTCATGCTGGCCATCATGCTGCAGAATCCGGTCGGCGACCTGATCTACACCCAGTTCGTCCAGGGGCAGGCGGGCGACTCCAGCCTGGTCCTGCATGCCTGCCGCTTCGGGGCCTTCTTCGCCCTCTTCTTCATCCTCAAGCAGATATCCAAGATATTCAAGGCCTGGCTACCCGCCCAGGAGACCAAGACTGGTTTCACGGCCACTTTGGACCACATGGCCGGGGCCATCGTTTCTTTCGTGGCCTCCTACTTCTTCATGTACGTGGTCTTGTCCATCCTCAACTCAGTCGGCATCAGCCAGCTGAGCCAGCTGATCAGCGATTCACAGCTGCTCAGTTTCATCGTCAACGACACGCCAGGTCTGTCGACCGGGGTCTTCAAGACTCTCTTCAGCGTCAGCCGGACCACGGCCTAA
>LACTIS1119B1_11740 16S rRNA methyltransferase GidB
ATGAATCCTGAACTTTTTGCAGAAACATTGTCAAAATATAATTTTAAGTTGTCTCCTGTCCAAGAGCAACAATTTAAAACATATTTTAAGGAATTGGTCCGGGCCAATGAACACGTCAACCTTACCCGGATTACGGACGAAGACGAGGTCTACCTCAAGCACTTCTACGACAGCGTGACTCCGCTCCTGCTCTGGCCAGAGGTCTTTGCAGAAGGAGCCAAGCTCTGTGATGTCGGGGCCGGAGCCGGCTTTCCGTCACTGCCGATCAAGATCCTCCGCCCGGACCTGGAAGTCACCATCGTTGACTCTTTAGGCAAGCGGCTGAACTTCTTGTCTGACTTGCTGGAGAAGCTTGGCATCGAAGGCGTGAACCTGGTGCACGGCCGGGCTGAAGATGTGGGGCAAAACCCGGACTACCGGGAGAAGTTTGACCTGGTAACTGCCCGGGCCGTGGCCAGAATGAGCGTTTTGAGCGAATACTGCCTGCCCCTGGCCAAAGTCGGCGGCAAGTTCCTGGCTTTAAAGGGGCCGCGGGCTGACGAAGAATTGGAAGACGCCAAGAGTGCCCTGGAGAAACTGGGCGGCGAAGTTGTCTTCAGCCGGGTCATCACCCTGCCAGGCAGCGCTGAAGAGCGGATCCTCGTCCTGGTTGACAAGGTCAAGGCAACTCCGGGCAAGTACCCGCGCCAGGCAGGCACGCCAAACCGGAAACCCTTGTAG
>LACTIS1119B1_11750 chromosome partitioning protein ParB
ATGGCTTTTGGTTTTTTTCATCGAAATGAAATTCCCCAAAACAAGCAGGTTCAGGACCTGCCTTTAGCGGAAATCCATCCGAACCGCTACCAGCCAAGAAGGACTTTTAGCGATGATTCTATCCAGCAACTCGCCCAGACCTTGCAAGAAGAAGGGCTCTTGCAGCCGATCATCGTCCGCCAGGACCAGGGCGGCTACGAAATCATTGCCGGCGAGCGCCGCTTCCGGGCGGCCAAGAGCCTGGGCTGGGAAAAGATCCCGGCCATCGTGAACAATCTCGATGACCAGCAGACCGCTTCTTTGGCCTTAATCGAAAACCTGCAAAGGGAAAACCTGAATCCGATCGATGAGGCCCAGGCTTATGAGCAGCTGATGCAGCTCAACGACTTGACCCAGACCCAGCTGGCCCAGGATATTGGCAAGTCCCAGTCCTACGTGGCTAACAAGCTCCGCCTGCTCAAGCTGGCTGAACCTGTGCAAGAGTATCTGGCCAAAGGCGGGCTCAGCGCCCGCCATGGCCGGGCCATTTTGGGCTTAAGCGAAGAGGACCAGGTTAAATTGGCTGAAGAGATTGTCGAAAAAGGTCTCAGCGTGAAAGAGACGGAAGAGCGGGCGGCCAAGCTGGCCAATCCCAAGCCAGCCGTTAAGAAGAAGGCGGTGGTCCGCTATGGCCGGGACATGCAGCTGCAGATCAACACGATCAAGCAGGCGGTTAAACTGGCCAAGGAGTCCGGCGTGAAAGTCAAGGTTACCGAGGCGAAGAGCCCGGATGAGTACCAGATTACTATCGTGATGAAGAATCAGAGAAAGAAGAAGGAGGACTAG
>LACTIS1119B1_11760 chromosome partitioning protein ParA
ATGGGCAGCGTCATCGCAGTCGCCAACCAGAAGGGCGGCGTTGGCAAAACCACGACGACCATCAATTTGGCCGCTTCCATTGCTAAAAGAGGCTACAAGGTATTGATTGTCGACATTGACCCGCAGGGCAATGCCACCTCAGGCTTGGGGATTGAGAAGTCGACCATCGAGTATGATATCTACAATGTTCTGATCGATGAAATCCCGATCGCCTCAGCCATCAAGCCGACTAGCAGCAAGAAGCTGAACATCCTGCCGGCCACGATCAATCTGGCCGGGGCGGAAACCGAGCTGATCAGCATGATGGCCCGGGAAACCCGCTTGAAGGGGGCCATTGAAGACTTGGGCGACAAGTACGACTTCGTCTTTATCGACTGTCCTCCTTCTTTGGGGCAGTTGTCCATCAATGCCTTTACGGCCAGCCAGTCGATTTTGATTCCGGTCCAAAGCGAATACTACGCTATGGAAGGATTGAGCCAGCTGCTCAACACCATCCGCTTAGTCCAGAAGCACTTTAACAAGGACCTGGGCGTGGAGGGGGTCTTGCTGACCATGCTGGATGCCCGGACCAACCTGGGGGCCGACGTGGTCCAGCAGGTCAAGGAATATTTCGGCGACCGGGTCTACAAGACGATCATCCCGCGGATCACCAAGCTGGCTGAAGCGCCAAGCTACGGGGAGGCAATCACGGAATACGCGCCAAGTTCGCGCGGGGCCAAGGTTTATGATGACTTAGCAAAAGAGGTGCTGAAGGCTCATGGCAAGAGACTCAAGAAATAA
>LACTIS1119B1_11770 chromosome partitioning protein ParB
ATGGCAAGAGACTCAAGAAATAAGAAACAGGAAAAGAAGGGTGGCCTGGGCCGGGGCTTGGGGGCGCTTTTTGAAGAAGAACCCCAGGTAAAGCCGGCCGAAGAAATCGAAGACCTGCCTTTGGCAGAAGTCCGGCCCAACCCTTACCAGCCGCGGAAGAATTTTGATGAAAAGAAGCTGGCCGAACTGGCTGAATCCATCAAGGAAAACGGGGTCCTGCAGCCGATCATCGTCCGCCGGTCAGTCGGCGGCTACGAGATCATCGCCGGTGAGCGCCGCTGCCGGGCTTCCGAATTAGCCGGCCAGGCCACCATCCCGGCCATCATCCGCCAGTTTGATGAAAGCCAGATGATGGAAGTGGCCATCTTGGAAAACCTGCAGCGGGAAGACCTGACTCCTTTGGAAGAAGCCCAGGCTTATGAAATGCTGCAAAAGAACCTGGGCTTGACCCAGGAAGAGGTTTCCAAGAAGATGGGCAAGTCCCGCCCTTACATCACTAACTACCTCCGTCTGCTCACCCTGCCGCAGAAGACCAAGGGCCTTTTGCAAAGAGGGGAATTGTCCATGGGCCAGGCCAGAACCCTTCTGGGCTTAAAGGACAAGGACAGGATCGATGAACTGGCCAAGCGGGTGGTTAAGGAAGGGATGCCGGTCCGCAAGGTC