Gene list
Applied filters:
COG category: Unclassified
Organism: Corynebacterium glutamicum, 22243
Number of genes found: 8
Show UniProt / TrEMBL protein name | View as list | View in Fasta format (Protein) | ||||
# Corynebacterium glutamicum, 22243 >gid:867162 Yag1C GTGAGTGCCACCGACCCCGCACTGACCCCAGCGCAGCCCGACACCAGGCC CGACTACATCGCCCAAGCCATTGCCGCACTCACCGCCGCAGCGCGCACGA CACGCACCATCGGTGCGGGAACCGATAACGAGCACACCGAACCGGCCGAC TTTGGAGAGATCGCCTGTCACGTCATCACGAGCGTGGCGGCCAACCTCGG AGGCGTTGATACGCTGCTGGCCGGTCGCCCCGGCTCCTGGGAAGCCGACT ACGTCCGGCAGATCGTCCACAGCACCACCCCCGAGGACGAGCTGTTGACC TGGCGGACCGAGCCGGTGCGCATGCACCTCGATATTGAGGGCGTGTTCTA CGACTTCGGTCTGGAACAACTGTGGGACGAAGAATCAGGACAGGCTATCA AGCACGAACAGGACGACAGTCTCACCGAGGAACAGGTGGCCCGCGCTGAC GCCATCGCCGCGAGTATCGACCGGCTCTGGAAGCAGGATCAGGCCGCGTA CCGTGAGGCCTATCTGGCCTCGATCCGCCATGAGCTGACCAGGCGCGGGC TCACCGTCGAGGTGGAAGCCATCGACGAGCCCGCCGACACTCTCACCTGG GAGCCGTTCGCCGACGAGCTGCACGAGCTCGCCCGAAAAAACACGCCCTT GCCGATGACCGGAGAAGTCCCGGACTGGACCGAGGGCACCCCGGCCGACG CGCTGCGCCGGGCCGGTCTGACCTACACCGCCCGCGCGCAGGACGCCATC TAA >gid:867152 Yag1B ATGGCCCTGATTATTTCACGCCTGTCTTCTTACTACCCCAACTTTGCAAC AGCACCGGAAGTAGAGCGTGAGCAGCGCGGTTTTCTTGCTAAGGCATTTA AACCACGTGAAGGTTTAGACCAGATCGAGCAGTTAATGATCGAGCGTGAT CAGCAGCAGATTCATCGTGATCAGTGCGAGCACACGGTTGCTGACGTAAA AGCGGATCTTGATCAGGCACGCGCGGCGTATCAGGCAGCGCAAGATAGGC ACGTGGACGCAGTACAGGAACTGAGCTCCGTAAACCTTAATCCGCTACTG CTACATGACGGTGAGCTCAACCTCGCTGAGTCACATCATGATGACACCGC AGCAGACGACTATGACCACACCAGCAGCTGGGAGCACTCGTCTCACAACG ACAACGGTATGGATCTCTAG >gid:867146 Yag1A ATGAGCGACAAGAAGAAATTGCCTATGGCCTGGCCGCATATGGTTGTATC CCTACTCTGCGCCGGCGTGGCCGCAGGTGCAATCGTTGCCCTCTGGCTCG GGCGGATGGAGCGCGGGGAAACGTTTGCTGTCATGGTTTACTGCTTCATC ATTTCTGGCATAGAATTCTGGGCTTTCAACAAGATTGCGGATCGCCGCCA GGCTGAAATCGCAGATCGCCTCTATCGGGACGACGAGTCCATGCCATAG >gid:867164 Yag1E ATGACCCGCCCCACCCCGCGCAAATCATCCCTTGCCGGTTCAAGCCCCGT CACCCCACCTCAACCAGCTGCACAGGCAGACCCAGTGCCCGCGGCCAGCG TGCCGGCCGCCCCAGCTACCGCAACGCGGGCAGTGGCGCCGAAGCCGGCC GACGGCAAAAAGAAGTACCCACATAAAGTCTCGTTTTACCAAGACCCCGA GGACACCGCCCGAGTGCGCGGTGCCATCCTTTACACGATGACCACCGAGG GAAACCGCAACCTGTCCCAGTTCGTCAACCGCGCCGTGATGGCCGAGGTT GAGCGCCTGGAAGCCAAATACAACAACGGCGAGCCCTTCCCATCGGTGGG AGCCCGCGAGATGCCCCAGGGCGGCGCGGCGGCCGCAGGGTCCGAGGACT AG >gid:867150 parB2 plasmid partition protein homolog ParB2 ATGGCCATTAAAAAAGCATCTGATTTTCTTTCGACACAAAAGACCTCAGA TTCTCGGTCTATGAAAGAAGCGTTTGTGCGTGGTGAAACAAAGGCATTTA CGCTGCGTATGGACTCTGATCTGCATTACCGGCTCAAGCTTCGTGCACTA GAGGAAGGCCGCACAATGACCGATATTCTGGATGAATTAGCGCGTGGATA CCTAGACGGAAAGAAGTCTTAA >gid:867149 repA replicase RepA ATGAGTCTACCCAATGACTATGCGGCTGGCACAACCAGACACGCTGAGGT CCCTTCATTTACAGGTGATCTCGATGACACGCCTGCCGGCTACACCGACC GCGATGCACTTTTAAGCCATCTAGGTCGCCAAGTCTTGCATGGCAGTCGT GGCCGTGATTTCGCAAGTGCCTATATCACTACGAAAGATGGCACTCGTGC CCCGCGGATGTACCGGGTGGACTCAGACGCTCTAGAAAAATGCGAGTACG TTCAGCTCACCAATAAGCAATATGCCTCTGTCCTGGTTGTTGATATTGAC CTTCCAGGCACTGCAGGTGGGCATCCGGTTAACCTCAACGATGAGGTGAA AGAAAAATTCTCTCAGCTGATCAGTCGTCACCTTGGACCTGCTTGGGTAG GAATCAATCCTGTTAATGGCAAATGTCAGGCCCTCTGGCTTATTGACCCG ATCTATGCCGATGTCGGTGGTCAATCGCCTCACATGGCTTTATTAGCAGC AGCGACGCATACTCTGGGACAATGGTTAGGTCATGATAGCCATTTCGCTC ATAGATTTAGTCGGTCACCGTTTTATACCGGTGATTCTCCCACTGCATAT CGGTGGTATCGCCAAAATCATGCGGTGCGTCGTGTGGGCGATCTCCTTAA GGACTTGCGGACGATGACTGGCCAAGAGCAGTACTCCAAGCCACGGCAGC AGTTTTCTAGCGGCCGTGAGCTGATTAATGCAGTGAAGTCCCGTCGTGAG GAAGCCCAGCGTTTTAAAGCCCTATCCGAGGGCGTTGAAGCAGAACTCGC TGGCGAGTTGGATCAGTACGATCCTGAGCTCACCCAGGGCGTTCGCGTGT TGTGGATTCGGGCGGGTCGGGCGGCACGCGATGAGACTGCCTTTCGTCAT GCTCTAAAAACGGGTTATCGTCTGCGTCAGTCTGGCCAGCGGCTAACGGA TGCGGCGATCATTGATGCCTACGAGCGTGCTTATGGGGTCGCCCAGGAAG TTGGTGCTGATGGCCGCAAGGCTGAGCTGCCACCGATGAGGGACCGCCAA ACGATGGCTAGGCGTGTTCGCGGGTATGTCACTACTTCTAAAAGTGAGGT GCATGGTGGCTCCTCAGTTTCAGGTCAGGTGACGAGCTCTGAGCGTAAGG CTTTGGCCACGATGGGGCGTCGAGGCGGGAAGAAAGCCGCAGAACGCTGG AAAGACCCAAACAGCGACTACGCCACTGAACTGCGGACGAAACTCCAAGG AGCGAATGAACGCCGAGCACTGACAGGTCGAGTAACCGCCCGACAGATTG CAAACTTCTTTGATGACACATTCATTCAAACAGGAGAATACCCAAGCATT CCACAAGCTATGAATGAATTAGGAGTGTCACGGCCGACTATTAGTAGAGC GCTAAAAACTGCTGGGATTCAGCTTCCTCGTGGGCGGAAGAAAAAATAG >gid:867166 ssb single-strand binding protein homolog Ssb ATGAGCCACATCACCCAAACCGGCAACCTGGCCGCCACCCCCGAACTGCG CCAAGGGGAGCGCGGCGCATACACCTATGCCCGCGTCATCGTCACCGACA GGCTGCGCCAGGAGGACGGCAGTTACGCCGACGGCTCAGCCATCGCCTAC GACGTCGCCGTAAGTGGTGACCAGGCAACGAACCTTGTCGCCGCCGCGCA GGAGTCCGGCAACATCCGCGTGATGTTCTCGGGGCGCTATCGCGTCACCG AATACAAAGGCCAACAGAGAACCCGGATCAAGCACGAAGTGAACGCCGAC GAGGTGGCCGTCAGCTTGCGCGGCCAGACAGTCACCGCAACCCGCAACAG CCGCAGCAGCGACTAG >gid:867147 tnpA transposase TnpA ATGCCGCGTCGTTCGATCTGGTCTGCGGCTGAGCGCGAAAGTCTGCTCGC GCTGCCCGCTGATGAGGATGAGTTGATCCGGCAGTACGCGTTCAGCGAAT CCGATCTGGCAATGATCCGCCAGAGACGCGGTGACACGAACCGTTTGGGC GTTGCTGCGCAGTTGAGTTTGTTGCGTTTCCCCGGCCAAGGTCTATCGGC TGAGGCCGATGTCCCCGCAGTGTTGTTGGATTGGATCGGACGGCAACTCG GCATCGATCCGACCTGCTGGCCGGAGTATGCCGCACGGGAAGAAACCCGC CGTGAGCATCTGCTTGAGCTTCGTACATACCTTGGCTTGGGGCCTTTCGG TCTCACCGATTACAGGAAGGCCTTGCAGTCAGCCACGGAATTGGCCTTAC AGTCCGACAAGGGCATCGTGCTGGCCGGTAGCGTGCTCGAGGCCCTACGC CGACAACGCATCGTGATTCCGTCCTTGGACGTCATCGAACGTATCTGCGC CGAAGCCATCACGCAGGCCAACCGCCGCATCTACGCAGTCTTGACGGATT CCCTGACCACCGAGCACCGACGACGGTTGGACTCTCTGCTCAAACGCCGG GAAGACAGTAAGTCCACCCGGCTTTCCTGGCTGCGCCAGTCGCCGGTCAG ACCGAACTCACGGCACATGCTCGAACACCTCCAGCGTCTGAAAGCCTGGC TGGAGCTGGAGCTGCCTGCCGGCATTGAACGCCAGGTTCACCAGAACCGC CTGCTCAAGATCGCCCGCGAGGGAGGGCAGATGACGCCGTCAGATCTGGC CAAGTTCGAGCCACAACGCCGTTATGCGACGTTGGTGGCTGTGGCCACGG AGAGCACGGCTACCGTCATCGATGAAGTCATCGACCTGCACGACCGCATC ATCGGCAAGATCTTTAATACAGCCAGACACCGGCACCAGCAACAATTTCA GGCCTCCGGAAAGGCGATCAACGACAAGGTCCGCCTCTATGGGCGCATTG GCAAAGCACTGCTGGACGCCAAGGAAAGCGGTATAGACCCCTACACCGCG ATCGAGAAGGTTATTTCTTGGGAGGCCTTTACGGCCAGCGTTGGCGAGGC ACAGACACTCGCCCGCCCTGGGGATTTTGATTTCCTGCACCACATCAGCG AAAGCTACACAACGGTGCGCCGCTACGCTCCGGAATTCTTGGCCGTGCTC AAATTCAGGGCAGCCCCTGCCGCCAAGGATGTGCTCGAGGCCATCGAGGT ACTGCGGACTATGAACAAGGACAATACCCGCAAGGTGCCGGCGGATGCGC CGACCAGATTCATCAAACCTCGTTGGGCAAAACTGGTCGTCACCGATGAA GGAATTGACCGGCGGTACTACGAGCTATGCGCGCTGTCGGAGCTGAAGAA CGCGCTGCGTTCCGGTGATGTCTGGGTACAGGGATCACGCCAATTCAAAG ATTTCGAGGAGTACCTCGTTCCGGCAGGAACGTTCACCGAGCTGAAGGCC ACCGGCGCCTTGCCAGTGGCGATAGACACCGATTGCGATCAGTACCTGCA CAACCGACTTTCACTGCTGGAGCAGCAATTGGCAGTGGTTGACGGTTTGG CTGGGAGCGGCGGTCTACCCGATGCCATCATCACCGCTTCCGGGTTGAAG ATCACCCCGCTCGATGCTGCCACCCCCGATGCGGCGCAGACACTGATCGA ACTGACAGCGGCACAGCTGCCGCGGGTGAAGATCACTGACATGCTCATGG AGGTGGATGAATGGACCGGGTTCACCCGCCACTTCACCCACTTGAAGACC GGTGACACGGCGAAGGATAAGAAACTCCTGCTGACTGCGATCCTGGCTGA TGGAATTAACCTCGGGCTGACCAAGATGGCCGAATCCTGCCCCGGAACCA CCTATGCCAAACTGTCCTGGCTGCAGGCCTGGCACATCCGGGACGAAACT TACTCCACCGCACTGGCCGAACTGGTCAATGCCCAATCCCGCCAATCCCT CGCCGGACATTGGGGCGACGGTACCACCTCGTCCTCAGACGGCCAGCGCT TCAAGGCCGGCGGCAGGGCCCAAAGTACTGGCCATGTAAATCCCAAATAC GGCACGGAACCGGGGCGGATGTTCTACACCCACATCTCGGATCAGTACTC GCCCTTCAGCGCCAAGGTCGTCAACGTCGGCGTCCGCGACTCGACCTATG TCCTTGACGGTCTGCTCTACCATGAGGCAGATCTGCGCATCGAGGAACAC TACACGGACACGAACGGGTTCACCGACCACGTGTTTGGCCTGATGCATCT GCTTGGCTTCCGCTTCGCTCCACGCATCCGCGACCTAGGCGAGACCAGGC TATATATCCCCGCATCGAATACCGCCTACGGTGCACTGAACCCCCTGATC GGTGGCACCCTCAATACCAAGGCGATCCGAACCCATTGGGATGAGATTCT GCGGTTGTCCACGTCCATCAAACAAGGCACGGTGACCGCCTCTCTGATGC TGCGCAAGCTTGGCAGCTACCCACGCCAAAACGGCCTTGCGGTCGCCCTG CGCGAACTGGGACGGATCGAACGAACTCTATTCATCTTGGACTGGCTCCA AAGCGTCGAACTCCGCCGCCGCGTCAACGCCGGACTAAACAAAGGAGAAG CACGCAACGCCCTCGCCAGGGCTGTGTTCTTTAACCGCCTCGGCGAAATC CGGGACCGTGGATTCGAGCAACAGCGCTACCGCGCCAGTGGACTGAACCT CCTCACAGCCGCCATTGTGCTCTGGAACACCGTCTACCTCGAACGAGCCA CAAACGCAGTCGCCAGCCACGATCCGGAATTCGACGACGCGCTCCTGCAA TATCTCTCACCACTGGGTTGGGAACACATCAACCTCACCGGTGACTACAC CTGGCGCAACAACGCCAAACTGGGAACAGGCAAATTCAGGCGCTTGCGCC CCGCCAAGCGTCCTTAG