Gene list
Applied filters:
Gene type: CDS
Gene type: CDS
Gene type: CDS
Genomic element: pDL10
Number of genes found: 10
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# Acidianus ambivalens, Lei 10 >gid:1157380 copG copy number control protein ATGAAGAAAAAGAGTCTACAGTCTAAATTAGATAATCCAGGTTATAAAGC TTTTTGTTCAAAAGAAGCCAAAAGTATTACACGTTCTTGTCCATTTAAGA AGAAGCGCTGCTTTACAGACGCTACCGTTTGTGGATTAATAGGGTATTAC GCAGACTGTCCGCTAAAGATAGACGAATTGAAAGCAACTACGAAAGAACA GGTAATCATTATCTGA >gid:1157378 dbpA DNA-binding protein ATGGAGAAACTCCAAAACACTGAAAAAATTTTGATCATTTTATCTCACGG TTGTGCAACCTTGGAAAGACTGGAAGAAAAAACAGGTATCCCAAAGAAGG AACTGCTTGTTTATCTAACCAGGTTATACAATAGAGGGCTTATTTATAGA AAGTGGCAAAAGTATGGCGGAAAGAAGTTCAGAGAATATTGTCTTAAATA CCGGGAAGAACTGATAAGTTAG >gid:1157367 pepG hypothetical PepG protein ATGTCATCTGAACAACACGCTTCCAAATTACCAATTAAGTCACGTTACGA CTGGAATGAGCTCAACCGTGCTAAGGAAGCAGTAACCTTTTTCGAGGCTG TTATACAACCTTCTCTAGAAAGAGACGGAATTTCGCCAACGGTAATAGAT AGTATTAAGGTTTCATACTACCGTGATATCTTGAATATCATAACTCAAAA GTTAGCTCAAACCTATGCTTCTATTAATATAGAAACTGCAGTGAAAATTA TAGACGAAGAACTTCCTAAGTTGCTTAAGGAATCTTCGCCTTCTGTTGAT ATACGAGGAATAATTAACGCGTGGGATTTCGTTAAGAAAGTTTTAACAGG AGGTGATAAAGGTGAGCAAACGGCTAAAGGATCTAATTCCTCCTCCTCAA ACAAATGA >gid:1157368 pepH hypothetical PepH protein GTGAGCAAACGGCTAAAGGATCTAATTCCTCCTCCTCAAACAAATGAAGA AACTAAATATAAGTATAGTTATGAAGATTTCAAGAACGCATTTGGTGACT TTGCAAACTTCGACACACTTTCACATCTTCGCGTGATGCAATATTTGAAA CAGGCACAGACCAGGGAAGAGCAAGATATATTTACATTAATTCAGAGAGT TCTAGCTTTACAGAAGGAACTGAAAACACCTGGTAATGAAGAAAAAGAAT CAGCAGAGGCAATCAAGACACTAAACTTTGTATTGGATGTTATCAAGCAA TTGAACGATCCACGCGTGATAGACCTGGTAAAGAGGATTGTGGACGCTTT AGCTACTCGAGCAGCTGCTGCGGGTGGTGGTAATAAATGA >gid:1157369 pepI hypothetical Pep I protein ATGAACAAACAGAAATTGGAAAAGTTTGCAAATCTGGAATTAGATTTGCT TAGCGTTTTACTATCATTATCCGACGACGACGTTGACAATCTAATAAACG AACTTGAAAACATTCTACAAAAGTATAAGGAAAAAGCGATAGAAACGGAC GTGCTTCAACTGCTGAACAAACTTTCAGATGAAGAGAAAAGAAAGTTAAT TGAAAAGTTATTAAAGTGA >gid:1157372 pepJ hypothetical PepJ protein ATGGTTTGTGAGTTTCTTCCTCCAAAATACAAAGCAAAGTTAGTAGATCT AGCTAAACCCGTGGAACTTGCTGAAGCGGGCTATACGTTACAATCGGCCT ACAAAATAAAACAGAAGAAGGTGATAAGTGACGAGAAGTGTGAGGAACTA GTTAAAATACTAGGAGAAAGACTGCGCCCGTGA >gid:1157373 pepK PepK protein ATGGACTGTAGCAAAATTAATGAAATTTATAATAAGTTAGATGAGATTCT GCAGCTGCTAAAAAGTAAGAAGAAGACGCCACGTGACCTGGACATTTTAT ACGATAAAATGAAGGACTCACTTGGCTACGTTAGGATAGATAATTTGAGG AAGGAATTAGGAATGAGTTTAGAGGAATTCTTATCAACATTCAGTGACCA TATAGAGAAACACTACGAATTAATACCCGGTGGAGATGAAGGGTTCATAC GAAACGGGATTTTGTACGGAATAATTAGGCGTAAGCATTAG >gid:1157386 pepM PepM protein TTGTCTTGTTTTATAAAGCCTAATGTATCCATTCACCTGATGGCCAGAAA GAGAAAGCATTCTATCCTTATATATGGTCCAGAAGGAGCTGCCAAGAAGA CTGTTGAGGATCTGAAGAAGAAAGTGGAGAGAGCAGAAGTTGAGCCAGCT GTAAAACACGAGTGGGAAGATAGGTATTTTTCTGGTATAGCTAACTATGC AACAAGCCCCGAAAGAACCAAAGCTGCAGAGGAGAAATTAACGGTATGGT ATGAAGTATTAATGAGAAGTTTAGCACCAAAATATGCGGAAGATGCGGCC AAAGCGAAAGCCGAGTATTACCGCGAGTTGGCCCGTAAAATGAAGAAAGA AGAAAACCCTGCAGAAGAAGCCGAAGAAGAGTACGAAAATATCTTCAAGC CAATCTAA >gid:1157366 pepM PepF protein GTGAGTCAAACAGTCTATGCAATAAATCTAACACACGAAGAAACTGCAAA TTTGTTACAATATCATTACCTTCTGTATAGATATGAGCATCTCGTAAATA CCTATTCTCAAACAGTCGAATTAGTAATTCGCGAACATATGAAAAATTTT ATTCCCATGCGTGCTAAACTGTTAATATCACTCTTTAAGATGTTAAAAAA TGGTATTATACCGCCAACTGTGGACGATCTCAAAGATTATGCATATTTTT TACTCATAAAGAATGACAGCGGTTATGTTGTTAACAATAAGAAGTACTCT TTTCTGTATGATTACCTGGAGACCGAACTACCAGGTCTGCACGCTTTTAA CGTCATTCATACTTCGCCAAACAAGAGAATTTCTCTCCATGAAGAAGAGA AAGCATACCTGGACAAGTTTAAAGAAGAGCATTCTTTCGAAACCCAGGAA GACGCAATAATAGATTTGCTATCGACAACTTACGTGTTCTCGATATGGAG AACGGTAGTAAACTTAACGGAGAACAATGTAAACGACGTGGAGCTCCAGG TGTTTGATGAGTTAGGAGAATTTGTACTTCTATTCGGCGTGCTAAAGAAT AATAATAAAGTCAAGATACTAATCGAATTTTTCCCGTTTTTCACTTCAAA TAAATTCACGGAAGTGATAGAAAATGTCATCTGA >gid:1157381 repA primase GTGGATGATTTAAAGCTAAATTACGCCAAGTGGTTCATAAAAAACGGGGC TGCTATTTTTCCAATCGACCCAAACACTAAGAAGCCCGTGGTGAAAGAAT GGCAAAGGTATAGTCACGAGCCGTTGACTGATGAAGAGAAACAGAAATTC CTAGAGATGATTAGTCAAGGCTATAATTACGCCGTGCCTGGCGGACAAAA GAACTTAGTAATTTTAGATTTCGAAGACAAAGAACTCCTGAAAGCGTGGA TAGGAGAAGAAACACTTAACAAAATTTGCAGCAAAACGCTGTGCGTTACC ACGCCTCATGGCGGCTTGCACATATACCTTATAGTTGATGAAGTACCGCC ACACAAGTTTAACCCTGTATTTGTCAAAGACGGTAAAGGAGTAGCTGATT TACAGAGCTTCGACTCTTATGTACTAGGCCCAGGCTCTTGCATTAATCAT AAGTATTGTAGTAGTGAGAAATGTAAATGGAAAGGTAAAGATTATACTAC ATGCTATATTCCAGTAAATAATACTGGAATAGGAAGACCGGACAAGGGGC TCAAAAACTTCCTAAAGTGGTTAGCTGATAAGGGCAAAAAACTAGGCATA GAATTAAGTGGTTCAGCACGGGCATGGGTGGAAGGAAAGCAAGAGAAGTC TGATTCCCATACGGAAAAAGACCTGGAAAAGCTCAAAGAAGAAATGGCGA AATATAACCGCTTTAAGGGGAAAACTGTAGACGCAATAAGATCTGAAGTT TGTCAGAGTATTAAGAAAAGCCTGGACAATGCCAAGTCTGATAAGGCAAA AGCCATGCTTAACACAGCTTTCCAGGTTGTTTGTCAAGGCAAGAAGTACA GTGACTTAGGAATCGATAGAAGTAGGGGGGATTGGCATGTGCTAAAAACA CTGTTGAGCCATGGAGTCACAGACATAGATATGTTACAACAATTGATACC TAATGATTCCAAAGTTTTCGCCCCCAAATGGGACAAGTATTTTGTGCATA CGTTAATGAAAGCCTGGAATGAAGTAAAGCCATTCCTAACCGTGTTGAAG AATGCAAAGAAGAAGAAGGCCAAAGAGCTCAAAGAAGAGTTTGCTGAAGC ACTTTCGCAATACATTATAAGGAAATACCACATCATCACGTTCATTCAAA AACACGGAAATGGCGAATCGATTGTAGGAATATTTCGATGGAGTAAGAAA AAGGGAATCTATGAGCCAGTTGATAAAACGCTTAAGAAGATTATTAGACA TGAGATCATGCGTATCAAGGAGTTATTCCCTAAGTCAGAAGAAGAAGGCA AAGTAACGTTCTATGAGATTAAGAGCGGTCTAGTTAAACTGGTATATGAT GAAATTATGGACTTAACGCTGACAGAGTATGATGATGATAATATCCCACT AAGGATAGCGTTTGAGAATTATACATTGGAGTGGTCAACAGACAAGAAAG AGAATATCTTCAAACTAATTCCCGCAAATGAACGCACAGAGGAACATTAT TCATTCCATTACATTCCGCATAAGATCCGTGATGAAGTATTTAATAACAC GCCGTTGCCATTCCAGGTCAGTGAGTTAGAAGACTTAGCCCGTAAACTAT GCCCCAGGTCACTAGATACTTTCAAACAATGGGCGGGTGACAAGTGGATC ACATTGTTTGAGATAATAGGATATACGTTATACCCCGCTACAAAGATTAA GTTAGCGTTTATGTTACTAGGGCCCCGAGACAGTGGAAAGTCAACATTCT TACAGTTATTGAAGAAGATATTGGGCAAACATAACACGGTTAGCATTCGT GTTAAAGAGCTGTTCGACTCAAACAATAGGTTTGTGATGGGGTACCTATT CCACAAGTTAGCAAATCTCACGGCTGAAACTAAGGAGTACACTATAAATG ATATTGACAGATTCAAGACATTAACAGGTGGGGATCAAGTTACGAGTGAT GTCAAGTTTAATGGGCCAATCACGTTCACTCCTTACGCAAAGATCATCAT TGCAAGTAACAAGTTACCAAACGTTTCGGATAAGAATGACATGGCCTTTT GGAGAAGATGGTTGATTATAGAATTCCCGAATACTTTTCCTAATGATGAT AACTGGTTCAGGCAAACTTTCACAGAAGAGGAAATAGAAGGTATCCTAAC AGTATCGATTTTGGCGTTTGCCCGCGTAATCATTAACGGAAAGTTTGACT ACCAACAGACTCCAGAAGAGGTAAGAGGCTTATGGCTCAACAACATTGAC AGCGTATGGAGTTTCATCAAAACTTATGTGGAGAAGGGCATCATCACGCT GGATCCACGAAATGCCGACTTATGGGTACCTAGAAAGGAGCTATATAATT TATATAAGGAATATTGCCTCGATAATGGGTTCCCTGGAGTATCGCTGAGA ACGTTTGCCAATAAGCTCAACAAATACTTTGGAATCACGAGTATGAAGAA GAATTTCGGAAAGAAGCCTGATGGTACAGATGATAGAAAAAGATGCTTTG TAGGTATTACAATAAACAGAGAGGCTAAGCAGGCGATTGAAGCTGATATG ATAAATGAAGTCGAAGAGTTCATTGAGTATGTGAAGAAGAACAACCACGC AAAAAAGGAAGTTTTGGGAAATTGCCAAGATTTTGGGGATGAGAAGAAAG CTAACAGGTTTGTGTCATGGTGTATGAAGAAGAACATGTGTTACCAAAGA GGAGTTGACACATGGGAAATCTCTTTGTAA