Gene list
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COG category: Secondary metabolites biosynthesis, transport and catabolism
Organism: Agrobacterium tumefaciens, K84
Number of genes found: 6
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Agrobacterium tumefaciens, K84 >gid:1162360 probable S-adenosylmethionine-dependent methyltransferase ATGCCGATGACACCAGATGCAGCGGACAAGATCACTGAGACGAACCGGCT CGCTTGGAATGCCGAACGATATGATGCCTGGATATCCAGCTTCGGAAGCG TGGAAGCGGAGGCGGCGAGAATCATCGCAGAGCCAGAGCGTGTTCTGCGC CGTCTTTCCCCATACCTTGGAGATGTCGAGGGCAAGCGTATATGCAGTGT GCAAGGCTCCCACGGGCGCATCGCGGTAGCACTTGCAAGGCTGAACGCCG AGGTGCTGGTGATTGACTTCTCGGAAGAGAACCAGCGTTTCGCTCTGGAC CTGGCCACAGCTGCTGGCGTGACAATCGACTACGCCGTTTGCGACATCAT GGAAGCTGGTTTGCTAGAGCAGGCTCACAACTTCGATACCCTCGTGCTCG AGCTTGGAGTCCTCCACTACCATCAGGATCTCGATCGCTTTTTCATGGTT ATGCGCAAGCTAGCAGTGGATGGCGGCATGCTCTTGTTGAACGAATTTCA TCCGTTTCAGCGGAAGTTATTCTGGGCGGAGGGACCACATGACTACTTCA AGGCCGACCTGATAGAGGCTGACGTGCCGAACCCTAATGTCGCCGGCGCA AGCCTCGGAAGATGCCTATATCGATTCTGGACTATGGGCGATATTCTGAC GGCCGTTATCAAGGCAGGGTTTACGATAGCGAGGCTGGACGAGCATCCAG ACTGGACCGATCCTGCGATTCCAGGCTCCTTCACGCTGGTCGCTCGCGGC TAA >gid:1162361 probable ATP-binding/permease fusion ABC transporter ATGTCAATTTCAGACACAATCTACCGTCCGTTTGAAAATTTGATCCGGCC ATTAGATATTCCCTACCGGCCTCTTCCCTCCACAGGGCCTGTGGCGGTCC TCCTGCATTTCATATCAATGTTTCGGGGTGTGCTGATCCTACTCGCACTT TCCGCGATGGCGATGGAAGCGATCAATTTGTCTATCGTCTGGGGGCTGTC GGTTGTCGTGGATGGCGTCACGCAACAGGGCGCGTCCGCATTCCTGGAGA ATGAATGGCCACTGCTGACCTTTCTCGGTCTCTTGATCTTCCCGGCGATG CCAATCGCTTCGTTCCTACTCAACACACTCCAGTCACATACGCTTGGCAT CGGCATGCCGGCGGCAATCCAGTGGCAGGGCCACAAGGCGGTGGAGCGGC AGGATCTTGCTTTCTTCCATGAGCTATTTGCTGGGCAGGTCGCCTCGCGG CTACAGCAGGTATCATCCGCCGTACAGCAGCAGATCATTGCCGCTTTCCA GACCGTCCCGCGCTTTTTGTTGCAGATGGTTGGTTCCGTTATCCTGCTTA GCGCTCTGTCCTGGCAGCTCGCCCTGCCTGTTGTCATATGGATCGCGCTC AACGTCGCATACACCGTCAGAACAGTTCCCACCTTTGCCGAGCGCTCCCG TCGCACCGCCAAGCAGCGTAGCTTGGTTGCCGGTGCCATTACCGATCTCT ACACCAACATGCAGATGATCAAGCAATTTGCCGCTGAAGATAGCGAAGCA GGCGCGATCCGCCGTACCATCCAAAAGTCCGTACAGACGCAGCAGAGCGA ACAACGCATCTACCGTACGTCCGAACTCGCCGTGGTTATCCTCAACACGA TCCTGTGGCTAAGCATGCTATCGATCGGATTTTCCGGCTTGGTTAAGGGG TTCCTCTCCGTCGGTCAGTTCGTCGGCGCAGTCTACATCCTGCAGCGGCT TTCCACCCAGATCTTTGTTTTCCTGCAAATGGGCCAGCAGATCTTTCAGG CAATAGGGACAATCAAGGACGCGATGCCGGTGATGACCACGCCGCCCACC ATCATTGATCGGCCGAGCGCAGCCGATCTTGTAGTGGACCGTGGCGAAAT TCGGTTCCAAAATGTCGGTTTCGCCTACAAGTCCGGCAAGCCGGTGATCA ATAATCTTTCGCTGACCATCCGGCCCGGGGAAAAGGTCGGCCTGGTTGGA CTATCTGGGGCTGGCAAGACAACACTCGTGAGCCTTCTGCTGCGCTTTTA CGACATTCAAGACGGAGCAATCCTGATCGACGGGCAGGACATCTGCGAGG TCACTCAGGGGAGCCTTCGCCGCAACATCGGCGTGATCGCGCAGGATGTA GCATTGCTGCACCGCTCGGTCGGCGATAATATCCGGTATGGTCGGCCAGA GGCGACCCAGCAAGAAATCGAAGCGGCGGCGACGACAGCGCGGGCTGATC TGTTCATCAGGGACCTGTCGGACGGTGAAGGCCGTAAAGGTTATGAGGCC TTCGTCGGCGACCGTGGTATCAAACTCTCCGGTGGTCAACGGCAACGTGT GGCTATCGCGCGGGTGTTGCTGAAGGACGCGCCGATCCTGGTGCTCGATG AGGCGACCTCCGCCCTCGACAGTGAATCAGAGGCTGCTATCCAAGAAAAG CTGGGGCTGGTCATGGCAGGAAAGACGGTCATTGCTATCGCCCATCGCCT TTCGACTATTACCATGATGGATCGGATAGTCGTGCTCGACCGTGGCCATA TCGTGGAAGAAGGCAGACCTGAGGAGTTGATAAAGCGGGGTGGCTTGTTT GCCCGCCTTTGGAAACGTCAGACGGGTGGCTTTATTCCAGAGGATGAGTA G >gid:1162356 agnB1 probable methyltransferase ATGGTAAAGTTGGCAGCCGGCGAAGTGTCGGCGATGAGTTACAACGAGCT CATTGGTGTGGTGCGGGAGACCAACCGCCCCCCCGGGGGCGCGGGTACCC TTCGAGAGGTTGCCGAAAAAGCCTTTATCGGCCCAACAAGTCGAATCTTG GACATTGGTTGCAGCACAGGCTTTACAGCCGTCGAGTTCGCTCGTTTGAC TGGAGCGGAAACCATTGGGATCGATATAAACGCAACGAGTGTCGAGGTTG CTAAGGATCGCGCCACGCGCGCAGCTGCGCACACTGCATCGTTCGAGGTC GCAGACGCTATGGCCCTGCCCTTTGAAGATGGAACCTTCGATCTCGTGTT CTGCGGGAATGTTACATCGCTGATCGACGATCAGTCGAAGGCCCTTACCG AGTATCTCCGAGTTCTTAAGCCGAACGGGTGTCTTGCCGCCGTACCAATG TATTACCTGGAGCCACCGCCCAAAGAGGTGGTGGAAAAGGTTAGATCTGC AATACAGGTTCCAATCGCTGTGAAATACAGACGTGAGGCAACGGACTTTT TTCGGCCGAGTGGCTTGGAACTAGTACATGAGAGCGATTGGGCCTTTGAC AAAAAAACGGACCAAGAGATCGCCGCTTTCTGCCGTAAAATTCTGGGTCA GGTAGAACATGCCCGGTTTGAGGAAGAGGCATTGGACGTCCTAAAGAGCC TCTATGCGTCATATATGTCGCTTTTCCGCGAAAACCTATCATATATGGGT TATACGATTATGATCCTTCGCCGGGACGCGGGTATCGATGAGGGAGAGCT TTTTACCGGAACCCGACGATAG >gid:1162389 agnC2 probable 2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase protein ATGGAACTAACGGGCGAAGTAAAAGTGGCGGTGGTAGTTGGAGCAACGCG CGGAATAGGCCTCGCGATAGCTAAGGATCTTTCCTGTCGTGGTTGGCTGG TTATCTCAATGGCGAGAGGAGCCGCAGATACACTTTCCAACAGTGTCCCG CTGACACCAGGCGCCCGGTTTAGCCTCCAAGTCGATGTCACTGACGCAAA CTCAGTCAAACATAGCTTGGCCGTGGTGGAGAGAGTATGCGGCAGGCTTG ACCTGCTTGTTTGCAGTGTAGGAATGGCGAAACTGGGTGGTATTGAAACC ACCAGCCCAATCGACTTTGAGCGTATTGTTAAAGTGAACCTTATCGGCCC ATTTTTTCTGTTTCATTACTCTAGCAAGCTTCTGAAAGAATCGAGAGGCA AGGTGATCGTTTTGGGTTCCAGGGCAGCTCGAGGAAATTTCACCAACGTT CTCGCCTATGGCGCATCTAAAGCCGGCTTACTTCATCTTACCCAAACCGC CGCGAGAGAGTGGAGCGAGGCGGGGATTACGCTGCATGTAATCTCGCCGA GTGCAGTTTCAACGCCGATGCGGGCAAGCGTTTTTCCAGAAGAAAATCCG AAAAGTCACCTGTCCCCGGAGCAAATTGCCGCTTTGTGCAGTTCGCTGCT CGAGGAGCAATTCCGCATTACGACAGGAAGCGTGATCGATGTACCCTTCT GA >gid:1162388 agnC3 probable S-adenosylmethionine-dependent methyltransferase ATGTACCCTTCTGAAACTCATACGAATAGCGCGGCCTATTCATCAATAGC CTCGATCTACGATGAATGGATGGCCGATTTCGACTACAATTCAATCCTGG CTCTTTTGGACGAATGCGGGATCAAACCTAGGACGAAGGTGTTAGATGCC TGCTGCGGTACTGGCAGGCTAACTGAATTGCTTAGCACGTCGGGGGCGAC GGTCGTCGGTATTGACCGCTCCCCTGAAATGCTTTCCGTCGCGACGGAAC GGCTCAAGGGCAAACCAAACGTCGAGTTCCGGTTAGCCGACCTTAGAGAA GATCTTCTTCTAACCGACGTAGAGCTCGTTACCTGTACTCTTGATAGTAT CAACTACCTCGAAATTGGTGATCTCCAGCTCATCCTAAGTAGATTCTCAT CTTATCTTTGCCGAGGCGGTGCCTTATTGTTTGATATGAACACGCCATAC AAACTAAAAGAGGTATTCGGTAATACAATATACGCAGATACGCGGCAGGA ATTCGCATATATCTGGAAAAATAAACTTTCTACAAATCATATAGATTTTG AGATAGACATATTTAAGCGTCAGAACTCGGGGCTTTATTCTCGCAGCGCA GAAACGCATCGTCAGTTTTTCTACAGCGAGGAAATCGTATTGGAGCAACT TTCACGAAACGGATTCAGCGAAACCATGGTGTTCGATGGCTATAGCAAGA AATCTACTCATCCAACCACCCAGCGAACCGTTTTTCTCTCAAGGAAGTAA >gid:1162383 agnD3 probable short-chain dehydrogenase GTGACTCGCAAAACGGCATTCGTGCTTGGAGGTTCCAAGGGCATTGGAGC TGAAATCGTTCGCACCTTGGCAGTGGCCGGCCACGATGTGGCTTTCACCT ACAACTCATCGACGGACCTAGCCGCAGCCTTATGCGATGAGCTGAGAGCT GCAGGGCTTACTTGTTTTTGTTTTAGAGCGGATGTTCGAGATCTTTCTAG CGTGCCGCAAGCGATAGCGAAGGCGGCATCGCAACTAGGGCATATCAACA TCCTCATAAACAATGCCGGAATTTTAAAACGTGGCAAACTGCAAGAATTC GATCTTCTGGCGTTCGACGAAATTTTCAATGTAAATGTGAGGGGGCCTTT CATTGCTTCGCAAGCTGTCCTGCCATTCATGCCAAACGGCGGAAGAATAC TTATGATGGGAAGTGTTGCAGCAGACAGATCGGCGATCGAAGGTTCAGCA TTCTATGCAGCCACCAAGGCAGCACTGTCTTCTATGGCTCGCGGGTTTGC CCGGGACGTTGCGCCCTTGGGGATCACAGTCAATACCATCCAACCAGGTG TTATCGAAACAAACATGGTATCGCCCGGTGCTCTCAGTCGAGACGCGTAT CATGCAATTCCGGCCGGGCGAAAAGGTCTGCCGAGCGATGTGGCGAACCT CGTCAGGTTTTTAGTCAGTGACGAATCTTCTTATATAACCGGAACAAGTC TCAACATAGATGGCGGTTATTTGGCCTAG