Gene list
Applied filters:
COG category: General function prediction only
Organism: Pasteurella multocida
Number of genes found: 5
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Pasteurella multocida >gid:1160840 aadA1 aminoglycoside adenylyltransferase ATGAGGGAAGCGGTGACCATCGAAATTTCGAACCAACTATCAGAGGTGCT AAGCGTCATTGAGCGCCATCTGGAATCAACGTTGCTGGCCGTACATTTGT ACGGCTCCGCAGTGGATGGCGGCCTGAAGCCACACAGTGATATTGATTTG CTGGTTACGGTGACCGTAAGGCTTGATGAAACAACGCGGCGAGCTTTGAT CAACGACCTTTTGGAAACTTCGGCTTCCCCTGGAGAGAGCGAGATTCTCC GCGCTGTAGAAGTCACCATTGTTGTGCACGACGACATCATTCCGTGGCGT TATCCAGCTAAGCGCGAACTGCAATTTGGAGAATGGCAGCGCAATGACAT TCTTGCAGGTATCTTCGAGCCAGCCACGATCGACATTGATCTGGCTATCT TGCTGACAAAAGCAAGAGAACATAGCGTTGCCTTGGTAGGTCCAGCGGCG GAGGAACTCTTTGATCCGGTTCCTGAACAGGATCTATTTGAGGCGCTAAA TGAAACCTTAACGCTATGGAACTCGCCGCCCGACTGGGCTGGCGATGAGC GAAATGTAGTGCTTACGTTGTCCCGCATTTGGTACAGCGCAGTAACCGGC AAAATCGCGCCGAAGGATGTCGCTGCCGACTGGGCAATGGAGCGCCTGCC GGCCCAGTATCAGCCCGTCATACTTGAAGCTAGACAGGCTTATCTTGGAC AAGAAGAAGATCGCTTGGCCTCGCGCGCAGATCAGTTGGAAGAATTTGTT CACTACGTGAAAGGCGAGATCACCAAGGTAGTCGGCAAATAA >gid:1158379 aadA14 aminoglyoside adenyltransferase ATGACTAATAAGCCCCCTGAGTCGATTGCAGAACAAGTATCCGAGGCTCG ATCAATTTTAGAAAATCATCTTGAAACTATTCAGGCGATTCACTTGTTTG GTTCCGCAGTAGATGGTGGATTAAAGCCATTTAGTGATATCGACCTGTTG GTTACGGTGGGCACTCCTTTAAACGAGTCAACCAGAGCTGCATTGATGTC CGATTTGTTGGCGGTATCCGCTTTCCCTGGCACCGATTCAAAACGCCGTG CACTTGAGGTGACGGTGCTGACTCAGGAAGACGTAGTGCCGTGGCGATAT CCAGCGAAACGGCAAATGCAATTTGGTGAATGGTTGCGTGATGATATCAA TGCGAGGATTTTCGAGCCCGCACTGATGGATCATGACCTCGCCATCTTGC TGACGAAAGTGCGGCGACATAGCGTTGCCTTGTACGGCCCAGCTGCTCAC GAATTTTTCGATGAAATTCCTGTCGTCGATGTGCAGCGTTCGTTACTGGA AACATTGACACTCTGGACTACAGAGGCGGATTGGAAAGGGGATGAGAGAA ACATCGTTCTCGCCTTGGTGCGTATCTGGTACACCGCAATGACCGGAGAG ATTACTTCTAAAGTTGCTGCAGCAGACTGGGCGCTTCAGCGTCTGCCTCG TGAGATCAAAAGCGTTGTTATTGCCGCAAGGGATGCGTATCTGGGGCTGG AAGCCGCAGATCTGGCAGCTTATCCGAAAGAACGGGCAGACCTTCGGAAC CATATCCATTCTAGCGTGACGGCGAAACTGCAATAG >gid:1160832 catB2 chloramphenicol acetyltransferase ATGACGAATTATTTTGAGAGTCCCTTCAAAGGGAAGCTTCTGACTGAGCA GGTGAAGAATCCGAACATCAAGGTAGGGCGGTATAGCTACTATTCCGGCT ATTACCATGGGCACTCGTTTGATGATTGTGCTCGCTACCTTCTACCAGAC CGTGATGACGTTGATCAGCTGATTATCGGCAGCTTCTGCTCCATCGGATC AGGCGCAGCTTTTATTATGGCTGGGAATCAAGGCCACCGATATGATTGGG TCTCTTCTTTCCCTTTCTTCTACATGAACGAGGAGCCCGCGTTTGCAAAA TCAGTCGATGCATTCCAGCGGGCTGGCGACACAGTTATAGGAAGTGATGT GTGGATCGGTTCGGAGGCCATGATCATGCCCGGGATCAAGATCGGGCATG GAGCGGTGATAGGTAGCCGCGCTTTGGTTACCAAAGACGTGGAACCCTAC ACCATAGTGGGGGGAAACCCTGCAAAGTCGATTAGGAAGCGCTTTTCTGA AGAAGAAATTTCTATGCTTTTAGATATGGCTTGGTGGGATTGGCCGCTGG AACAAATCAAGGAAGCAATGCCTTTTCTTTGTTCGTCTGGCATTGCCAGC CTGTATCGTCGCTGGCAAGGCACAAGCGCCTAA >gid:1158372 floR florfenicol-chloramphenicol exporter ATGACCACCACACGCCCCGCGTGGGCCTATACGCTGCCGGCAGCACTGCT GCTGATGGCTCCTTTCGACATCCTCGCTTCACTGGCGATGGATATTTATC TCCCTGTCGTTCCAGCGATGCCCGGCATCCTGAACACGACGCCCGCTATG ATCCAACTCACGTTGAGCCTCTATATGGTGATGCTCGGCGTGGGCCAGGT GATTTTTGGTCCGCTCTCAGACAGAATCGGGCGACGGCCAATTCTACTTG CGGGCGCAACGGCTTTCGTCATTGCGTCTCTGGGAGCAGCTTGGTCTTCA ACTGCACCGGCCTTTGTCGCTTTCCGTCTACTTCAAGCAGTGGGCGCGTC GGCCATGCTGGTGGCGACGTTCGCGACGGTTCGCGACGTTTATGCCAACC GTCCTGAGGGTGTCGTCATCTACGGCCTTTTCAGTTCGATGCTGGCGTTC GTGCCTGCGCTCGGCCCTATCGCCGGAGCATTGATCGGCGAGTTCTTGGG ATGGCAGGCGATATTCATTACTTTGGCTATACGGGCGATGCTCGCACTCC TAAATGCGGGTTTCAGGTGGCACGAAACCCGCCCTCTGGATCAAGTCAAG ACGCGCCGATCTGTCTTGGCGATCTTCGCGAGTCCGGCTTTTTGGGTTTA CACTGTCGGCTTTAGCGCCGGTATGGGCACCTACTTCGTCTTCTTCTCGA CGGCTCCCCGTGTGCTCATAGGCCAAGCGGAATATTCCGAGATCGGATTC AGCTTTGCCTTCGCCACTGTCGCGCTTGTAATGATCGTGACAACCCGTTT CGCGAAGTCCTTTGTCGCCAGATGGGGCATCGCAGGATGCGTGGCGCGTG GGATGGCGTTGCTTGTTTGCGGAGCGGTCCTGTTGGGGATCGGCGAACTT TACGGCTCGCCGTCATTCCTCACCTTCATCCTACCGATGTGGGTTGTCGC GGTCGGTATTGTCTTCACGGTGTCCGTTACCGCGAACGGCGCTTTGGCAG AGTTCGACGACATCGCGGGATCAGCGGTCGCGTTCTACTTCTGCGTTCAA AGCCTGATAGTCAGCATTGTCGGGACATTGGCGGTGGCACTTTTAAACGG TGACACAGCGTGGCCCGTGATCTGTTACGCCACGGCGATGGCGGTACTGG TTTCGTTGGGGCTGGTGCTCCTTCGGCTCCGTGGGGCTGCCACCGAGAAG TCGCCAGTCGTCTAA >gid:1160831 tetG tetracycline resistance protein ATGGGTCTCGGCCTCATCATGCCCGTCCTTCCGACGCTTCTGCGCGAGCT TGTGCCAGCAGAGCAGGTCGCTGGTCACTATGGTGCCTTGCTGTCGCTCT ATGCGTTGATGCAGGTCGTCTTCGCGCCCCTGCTTGGACAACTTTCGGAT GCTTACGGTCGGCGTCCGGTGCTTCTGGCTTCTCTTGCGGGAGCCGCAGT CGATTACACGATCATGGCATCTGCGCCGGTCCTGTGGGTGCTTTATATCG GCCGACTCATCTCCGGCGTCACGGGCGCAACCGGAGCCGTAGCTGCCTCA ACCATTGCCGATTCGACGGGGGAAGGTTCTCGCGCACGCTGGTTTGGCTA CATGGGGGCCTGTTATGGAGCAGGCATGATTGCCGGGCCAGCACTTGGTG GCATGCTCGGCAGTATTTCTGCCCATGCTCCGTTTATCGCCGCTGCCCTT CTCAACGGTTTCGCGTTCCTGCTTGCCTGCATTTTTCTCAAGGAGACTAA TCACAGCCATGGCGCGACCGGAAAGCCGGTTCGCATCAAACCATTCGTTC TGTTCCGGCTGGATGATGCATTGCGCGGGCTAGCTGCGCTTTTCGCAGTT TTCTTCATTATTCAACTGATCGGCCAGGTGCCTGCGGCCCTATGGGTCAT CTATGGCGAGGACCGTTTTCAGTGGAACACCACGACCGTTGGCTTGTCGC TCGCGGCGTTTGGAGCAACACATGCGATTTTTCAAGCGTTTGTTACCGGC CCTCTTTCAAGCCGACTTGGGGAACGGCGCACGCTGCTGTTTGGCATGGC TGCGGATGCGACTGGCTTCATTCTTCTGGCTTTTGTCACACAGGGATGGA TGGTGTTTCCGGTTCTGTTGCTGCTTGCCGCCGGGGGTGTCGGGCATGCC GGCCTTGCAGGCAATGCTTTCGAATAA