Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | SYO3AOP1_1663 |
Symbol | |
ID | 6331917 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Sulfurihydrogenibium sp. YO3AOP1 |
Kingdom | Bacteria |
Replicon accession | NC_010730 |
Strand | - |
Start bp | 1719563 |
End bp | 1722997 |
Gene Length | 3435 bp |
Protein Length | 1144 aa |
Translation table | 11 |
GC content | 32% |
IMG OID | 642657938 |
Product | reverse gyrase |
Protein accession | YP_001931815 |
Protein GI | 188997564 |
COG category | [L] Replication, recombination and repair |
COG ID | [COG1110] Reverse gyrase |
TIGRFAM ID | [TIGR01054] reverse gyrase |
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Plasmid Coverage information |
Num covering plasmid clones | 58 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | ATGATAGCAA GCATTTTTAA AAACCTCTGT CCTAACTGTG GCGGAGATAT TACGTCAGAA AGATTATACA AAGGCTTACC TTGTGATAGA TGTTTACCAC AAGAGCCAAA AGAAGAAGTT TGTGATGTTT TAAAAAAAGG AAAGTTTAAA ATATTATGTG ATATTGATGA TGAAGTTAGT AATTGGCAAA ACTTTTTTAG CAAGCATATA GGTTCTCATC CATGGAGCTT ACAGATAACT TGGGCTAAAA GATTTTTTTT AAATTGCTCT TTTGCACTTT TAGCCCCTAC CGGCATAGGT AAAACTTCTT TTGGTCTATC AGTTGCATCG TACTTAACAC AAAAAAATAA AAAATCTTAC ATAATCCTTC CAACAAAGCT GTTAGTCAAT CAAACTGTAA AAAAACTTAC CCAGATATTC AAGCTAAAAG AAGACCAAAT CCTATTCTTT GGCGAAGAAA ACAAAAAAGA AAAAGAAGCC AAATTAGAAA GACTTAAAGA TGGAGATTTT TCTGTACTGA TTACAACTTC TATGTTTCTA TACAAAAATC ATGACAAGAT TCCAAAAGAT TTTTCTCTTG TGTTTGTTGA TGATGTAGAT TCCTTCTTAA AAACCGCAAA AAACATAGAC AAAGCACTTT ATTTACTTGG CTTTGATGAG AAGGATATAA ACCTTGCGTT AGAAGTTATC AAACTAAAAG CAAAGCAGAA TAAGACAGAT GAAGATTGGA ACAAAATAAA CCAGCTTACA GAAAAGCTTA GAAAGATAGA AGCAAAAAGA AAAGGTGTGC TAATAGTTTC ATCGGCAACT TCAAACCCAA AGTCAAATAG AATAAAGCTT TTTAGAGAAC TTCTTGGCTT TGAAGTAGGA ACTCCAACAT TTTACTTGAG AAACATCGTA GATTCTTACG ATGATATAGA AAATCACGAA TTATCAGAAC TTATAAAAAA ACTTGGGAAA GGCGGACTTG TATTCATACC TTCTGACAAA AAGAAAGAAT ATGTTGAAGA AGTTAAAGAA TATCTAACAA AAAAAGGAGT TAAGGCTGCT ACTTATGAAG AGATTGATGA CGAAATCTTA AAGAAATACG AAAATGGAAA GATAGATGTT TTGATTGGCA TCTCTTCTTA CAGAAACCCA TTGGCAAGAG GTATAGACCT TCCTCATGTA ATCAGATATG CAATTTTTTA TGGCGTTCCA AAAATCGTAC TATCATTAAA ATTTGAAGCA AATCTAAGTC ATCTACTTTG GGCACTTAGT TCTATAAGAG CATACATTTT GAAAAAATTT CCACAGTATG CAATCCAAAT TGATAAATGG ATAACTCAAT TAAAAAAATA TCAGTATCTA ACAGAAGAAT TTTTACAAAA CAATCCAAAT CTAAAAGAAA AAGTAGACAA TCTAAGATTG GAAGTAGGAC AGTTTTTAAA CTCAGAAGAG ATAATAAATC TTTTAAAAGA ATCTAACGAA GTTACCCTTA GAAAAGATGA AGATGGATAT AAGCTTGTTG TATCTGATGT AACAGGATAC TTGCAAGCAA GCGGAAGAAC TTCCAGAATG TACAGCGGTG GAATCACGAA AGGATTATCA GTAATTTTGA TAGACGATAA AAAAGCCTTT AATCATCTAC AAAAGAGAGT CAGATGGTTT AGTGATGATA TTGAATTTGT AGATTTTAAG TCAATTGATT TAGCCAAAAT TCTTAAAGAG ATAGACTCAG ACAGAGAAAA GGTAAGAAAG ATACTAAAAG GTGAGATTAA GTTTGAGAAA GTAGAAAGCA TCTTAAAGCC AGTTTTAATA GTAGTAGAAT CTCCAAACAA AGCAAGAACT ATAGCAAACT TCTTTGGAAA AGCTGTAAGA AGAAGAGTAA ACGACCATGA AATCTTAGAG ACATCAATAG ATGATAGATA CTTAATGATT ACTGCCTCCT TAGGTCATAT TCTCGACCTT AATAAAGAGC TTGGATATTA TGGAGTTTTT GTGAAAGACC ATATTGTGCC AGTTTATGAA TCAATTGAAG GAAAGGAAGA AATCATAGAA AGCATCAGGT CTGTAAGCTT TGAGAGTTTA GAAGTATACG TTGCATCAGA CCCGGACACA GAAGGCGAAA AGATAGGATG GGATGTTGAA CTACTTTTAA AACCTTACGT TAAAAATATT CAAAGAATGG AATTTCATGA AGTAACAAAA AAAGCAATCA TTAATGCAAT CAAAAACCCA AGAGATTTTG ATGAAAATTT AGTAAAAGCA CAAATAGTTA GAAGAGTGGC GGACAGATGG GTTGGGTTTG AATACTCTCA GCTACTGCAA AAAGCTTTTG GTAAAAATTG GCTTTCGGCA GGTAGAGTTC AAACACCTGT ACTTGGATGG ATTATAGAAA GAGAAAAAGA AAGAAAGCAA AAAATTTACA GAATAACAAT CACACTTCAG CAAGACAGTA AAAAGCTTGA ATTGGACATA GACTATCAAA ACAAGCAAGA TGCAGAAAAT ATCTTTAATA ATTTAAACAA CATTGAAATT ATTGTAAAGG AAGTTAAAGA AGAAGATAAA AATCCTCTTC CACCATACAG AACAGACACA ATGCTAAAAG ATGCGAGCGA TAGATACAGA TTTTCACTCC CAAAAACAAT GGAATTAGCA CAAGACCTAT TTGAGCTTGG ATATATTACA TACCATAGAA CAGATTCAAC AAGAGTTTCT GATGTTGGTA TAGCTTTAGC AAGAGAGTAT ATAGAAGAAG CATTTGGAAA GGATTATTTC CAGGCGAGAG TTTGGGGAGA AGGTGGAGCT CATGAATGTA TAAGACCAAC AAGAGCAATG GAAACAGAAG AGCTAAAATC CATGATTTTA AGCGGTCAGT ACGAAGGTTT AACCTTTGAC CATATAAAGC TTTACGACCT TATCTTTAAA CGTTTCATAG CTTCTCAAAT GAGAGCTGTT AAATTTAAAG CGAAAGATGT AATCATAAAA GGCTTTGGAT TTGAATTAGA AAAAGTTTTA CATACAGATA TTATTCAAGA TGGATGGAAT AAAATATTAC CGGCCGAACT TCATCCAGAT TTAGAGGGAA TAATTGATAT AAGTAATAAT AAACAATTTA AAATCATGCC AAAGGCATTT CCATTTACCC ATGGGGAACT TGTATTTAGA ATGAAAGAAA GAGGCATCGG AAGACCTTCC ACATATGCAA CAATCATTGC TAAACTTCTT GAAAGAAAAT ATGTAATAGA AAAGAAAGGT TTACTATTTC CAACTTCTAT GGGTATAAAA GTTTATCAGT ATTTAAACAG CTTAAAGCAT GTAAGAGAGT TTTTATCAGA GGAGTTTACA AGAAAATTAG AAGAGCTTAT GGATGAGGTA GAAATTGGCG AAAAAGATTA TCAAGCTATA CTTTTTGAAT TGTTTGAAAA AATTAAAATA AGACGTGATA ACTGA
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Protein sequence | MIASIFKNLC PNCGGDITSE RLYKGLPCDR CLPQEPKEEV CDVLKKGKFK ILCDIDDEVS NWQNFFSKHI GSHPWSLQIT WAKRFFLNCS FALLAPTGIG KTSFGLSVAS YLTQKNKKSY IILPTKLLVN QTVKKLTQIF KLKEDQILFF GEENKKEKEA KLERLKDGDF SVLITTSMFL YKNHDKIPKD FSLVFVDDVD SFLKTAKNID KALYLLGFDE KDINLALEVI KLKAKQNKTD EDWNKINQLT EKLRKIEAKR KGVLIVSSAT SNPKSNRIKL FRELLGFEVG TPTFYLRNIV DSYDDIENHE LSELIKKLGK GGLVFIPSDK KKEYVEEVKE YLTKKGVKAA TYEEIDDEIL KKYENGKIDV LIGISSYRNP LARGIDLPHV IRYAIFYGVP KIVLSLKFEA NLSHLLWALS SIRAYILKKF PQYAIQIDKW ITQLKKYQYL TEEFLQNNPN LKEKVDNLRL EVGQFLNSEE IINLLKESNE VTLRKDEDGY KLVVSDVTGY LQASGRTSRM YSGGITKGLS VILIDDKKAF NHLQKRVRWF SDDIEFVDFK SIDLAKILKE IDSDREKVRK ILKGEIKFEK VESILKPVLI VVESPNKART IANFFGKAVR RRVNDHEILE TSIDDRYLMI TASLGHILDL NKELGYYGVF VKDHIVPVYE SIEGKEEIIE SIRSVSFESL EVYVASDPDT EGEKIGWDVE LLLKPYVKNI QRMEFHEVTK KAIINAIKNP RDFDENLVKA QIVRRVADRW VGFEYSQLLQ KAFGKNWLSA GRVQTPVLGW IIEREKERKQ KIYRITITLQ QDSKKLELDI DYQNKQDAEN IFNNLNNIEI IVKEVKEEDK NPLPPYRTDT MLKDASDRYR FSLPKTMELA QDLFELGYIT YHRTDSTRVS DVGIALAREY IEEAFGKDYF QARVWGEGGA HECIRPTRAM ETEELKSMIL SGQYEGLTFD HIKLYDLIFK RFIASQMRAV KFKAKDVIIK GFGFELEKVL HTDIIQDGWN KILPAELHPD LEGIIDISNN KQFKIMPKAF PFTHGELVFR MKERGIGRPS TYATIIAKLL ERKYVIEKKG LLFPTSMGIK VYQYLNSLKH VREFLSEEFT RKLEELMDEV EIGEKDYQAI LFELFEKIKI RRDN
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