| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | SYO3AOP1_1181 |
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| Symbol | |
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| ID | 6332136 |
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| Type | CDS |
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| Is gene spliced | No |
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| Is pseudo gene | No |
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| Organism name | Sulfurihydrogenibium sp. YO3AOP1 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_010730 |
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| Strand | + |
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| Start bp | 1229547 |
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| End bp | 1232768 |
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| Gene Length | 3222 bp |
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| Protein Length | 1073 aa |
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| Translation table | 11 |
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| GC content | 39% |
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| IMG OID | 642657463 |
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| Product | molybdopterin oxidoreductase |
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| Protein accession | YP_001931347 |
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| Protein GI | 188997096 |
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| COG category | [C] Energy production and conversion |
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| COG ID | [COG0243] Anaerobic dehydrogenases, typically selenocysteine-containing |
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| TIGRFAM ID | [TIGR01409] Tat (twin-arginine translocation) pathway signal sequence |
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Plasmid Coverage information |
| Num covering plasmid clones | 40 |
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| Plasmid unclonability p-value | 1 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | normal |
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Fosmid Coverage information |
| Num covering fosmid clones | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | ATGATGAAAT TATCAAGAAG AAATTTTATA AAAGGAACAG CGGCAGCAGT TGGTGGAGTA
GCTTTAACAA AAGGTATCTT TCAAAAAGTA GATGCAGATA ATAAAGTTGC AAACAATGAA
GCACTAACAT TTGAGCCTAT GCATTTAGAT TACTACCCAC CGTTTGAAAA ATGGAACAGC
TGGAAAGAGC CAGCAGGTGA TTACTGGAAA AAAGAAGGCG GTGCGTTAAG AGATGGTGTT
AAGCTTATTG ATTATATGAT AGTTCCTACT GTTTGTAATA ACTGTGAAGC TGCTTGTGGT
TTAACAGCCT GGATAGATAA AGAATCCATG GTAGTAAGAA AATTTATGGG TAATCCATTC
CATTCAGGTT CAAGAGGTAG AAACTGTGCA AAAGGTTATG CTGCATTAGC TCAGATGTAC
GACCCAGACA GAATACCATT CCCGTTAAAA AGAGCTCCTG GTAGTAAAAG AGGAGAAAAC
AAATGGGTAA GAACAACTTG GGAAGAAGCT CTTGAAACAA TCGGCAAAAA GATGAGAGAA
GTCTTACTAA AAGGTGATGA GATTTCTAAA AAGCAGATCA ACTATCAGGT TGGAAGACCT
AACGAAGTGA GTTTTAACGT CAAAAGGGTT GTTTGGTCTT GGGGTGTTGA TGGCAGAAAT
TCCCACACAA ATGTATGCTC TGCTAACGGA AGATTTGGTG GTATTATTTG CGTAGGTGAT
GACAGAACAT CGCCAGATTT TGCTAATTCT AAATTAGTTC TATTAAACTC ATCTCACGCA
GCAGATGCGG GACACTATTA CCAACAGCAT GCCGGATACA TAGCAGATGC AAGAGCTAAA
GGAGCTAAGT TGGTAGTTGT TGACCCAAGG CTTTCTAACT CTGCCGGAAT GGCTGACCTT
TGGATTCCTG CATGGCCTGG TACAGAAGCA GCATTATACT TAGCAATTTT AAACAGACTA
ATCCAGGAAG ATAAATTCGA TAGAAAATTT GTAGAAAGAT GGACAAACTG GAAACAGTTA
ATGAAAGATA AAGAGTATCT AAATTATCTT AAAGAAAATG GATACATTTC CGAACTTCCA
AAAGGCGAAA CCTTCGATGA TTTTATAGAG CTTTTAAAAG ATATGTATAA AGATTACACG
TTTGAATGGG CTTCACAAGA ATGTAGAATA CCTGTTGAAA TGATTGATAA ACTCTATGAA
ATGGTAGTTT ACGCTGGAAA TGCTATTACA AATTACCAAT GGAGAGGTCC TGCGGCTGGA
AACAGAGGTG GTTGGGTTGT AGGTAGAGCT ATGAATATGC TTTTAACGTT TACCGGTTCT
ATTGGGTCTG TTGGTGGTAC AGGATGGCAC CACTGGCATC TTATAGATGT CGGTGATAAA
GGCGGTGATG CATGCATGGC AGACAAACCA GACCCAGTTA AAGCTTGGAA TGAATTACAC
TGGCCGCCAG AATGGCCGTT GTCTGCTTAT GAGCTTAGCT TTATATATCC ACATCTTTTG
ATGGATGATG AGTGGAGAAA GAAATGGCAA GAAAAAGGAT TAAAGATACC AGATAAGGTA
GAAGTATGGT TTGGAAGAAT CTATAACGCT GTATGGATTA ACCCAGATGG GTTTAGATGG
GTAGAAGCAT TAAAAGATGA AAATAAATTT GGTTTAACAG TTTATATGTC TCCAACCTGG
GCTGAAACAG CATTCTACTG TGATTATATA CTTCCAATGG GATTAGCCGG AGAAAGACAT
GACCAGCATT CCTCAGAAAC AAAACCTGAA AGATGGACAG GATTTAGACA GCCGGTTTTA
AGAGTTGCGC TAATGAAAAT GGGATGGAAG CCAAACGACC CGGCGAAAGC TACATTAGAA
GCACACAAAA AAGTAGGACT TGGTGAAATT TGGGAAGAAA ATGAATTTTT CATCAATCTT
GCCTTTGCAA TAGACCCAGA CGGAAGCCTT GGAATAAGAA AATACTGGGA ATCAAAACAA
AATCCAGGAA AGCCGGTTAC AATTGAAGAG TATTACAATG CAGCGTTCTC AAAACTTCCT
AAGCTTTCTG AAGTTTGCAA ACAGCTTGGC ATAACTCCAT ATGAATATAT GAGAGATAGA
GGAGCTTGGA CGGAAGAGAC AAACATCTAC TATGTGATGG AAAGACCGTT GCCTTATGAC
CAAGAAAAAG GTGTTTACAA ATATGCAGGG AAAGAAATTC CAAAATCTGC TATTAAGATA
GATGAAGAGC TTGGTATTGT TTATGCAGAG GAAGAAGGTA AGAAGCATAC AATCGGCGTA
TACAAGGATG GAAAAATTCT CCAAGGATTC CATACTCCTT CCGGACACAT AGAATTTTAC
TCACCAACGC TAAAAGATTG GAAATGGCCA GAGTATGCAG TTTTATACTA TCCAAAAAAT
AAAGAACAAA GACAAAAGAT GATTCATATC GTTACCCACG TGCACCATGA CTACATTACA
GAAGAGAATG CATTTGTATT AAACCCAATT TACAGACTTC CATACTTAAT CCACACAAGA
AGTATTAACG CAAAGTGGTT GATGGAAATA GGACAAAACC ATAACCCATT ATGGATTTAT
GAAAAAGATG CTAAAAGACT TGGAATCAAC AGAGGAGATG CTGTAAAAGT TTGGGTTGTG
GATACATTAA CAGGCATTAA AACAGGATAC TTTGTAGCAA TGGCAACACT AACTCAAGCA
ACAAGACCTG GTGTTGTTGC ATGTTCTCAC CACAACGGAA GATGGAGACT CGTAAACGAA
GTAAAAATAG ATGGATTTAA ACATCCGCTC GGTGTAATGA GATTAGGTTC TGTGCTTGTT
GATATTAAAA ATGAAGGCTC TAAATATTTT GTAAGAACAA AAGAGGGTGT AAAACCATTT
GAATCATGGC AGTTTCCAGA ATTTAACAAA GATACAGAAT TAATCTGGTG GAAAGGAACA
ACGGGAGTAT TCCAAAACGC TGTATTCCCT GCGAATCCAG ACCCAATAAG CGGTATGCAC
TGCTGGCACA AAAAGGTATT AATAGAAAAA GCAGGTCCAG AGGATAGAAT AGGTGATGTA
TTTGTGGATA TTCAAAAAAC ATTTGAAGTT TACAAAGCTT GGAGAGATCA ATTAACAAGA
CCAGCACCAG GACCGGGCGG ACTTAGAAGA CCAAAATGGA TGCCAAGACC ATGGTTCCCA
ATAGCAGATG AAGCTTGGAA AATGCCAGGG TCTGAATCTT AA
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| Protein sequence | MMKLSRRNFI KGTAAAVGGV ALTKGIFQKV DADNKVANNE ALTFEPMHLD YYPPFEKWNS
WKEPAGDYWK KEGGALRDGV KLIDYMIVPT VCNNCEAACG LTAWIDKESM VVRKFMGNPF
HSGSRGRNCA KGYAALAQMY DPDRIPFPLK RAPGSKRGEN KWVRTTWEEA LETIGKKMRE
VLLKGDEISK KQINYQVGRP NEVSFNVKRV VWSWGVDGRN SHTNVCSANG RFGGIICVGD
DRTSPDFANS KLVLLNSSHA ADAGHYYQQH AGYIADARAK GAKLVVVDPR LSNSAGMADL
WIPAWPGTEA ALYLAILNRL IQEDKFDRKF VERWTNWKQL MKDKEYLNYL KENGYISELP
KGETFDDFIE LLKDMYKDYT FEWASQECRI PVEMIDKLYE MVVYAGNAIT NYQWRGPAAG
NRGGWVVGRA MNMLLTFTGS IGSVGGTGWH HWHLIDVGDK GGDACMADKP DPVKAWNELH
WPPEWPLSAY ELSFIYPHLL MDDEWRKKWQ EKGLKIPDKV EVWFGRIYNA VWINPDGFRW
VEALKDENKF GLTVYMSPTW AETAFYCDYI LPMGLAGERH DQHSSETKPE RWTGFRQPVL
RVALMKMGWK PNDPAKATLE AHKKVGLGEI WEENEFFINL AFAIDPDGSL GIRKYWESKQ
NPGKPVTIEE YYNAAFSKLP KLSEVCKQLG ITPYEYMRDR GAWTEETNIY YVMERPLPYD
QEKGVYKYAG KEIPKSAIKI DEELGIVYAE EEGKKHTIGV YKDGKILQGF HTPSGHIEFY
SPTLKDWKWP EYAVLYYPKN KEQRQKMIHI VTHVHHDYIT EENAFVLNPI YRLPYLIHTR
SINAKWLMEI GQNHNPLWIY EKDAKRLGIN RGDAVKVWVV DTLTGIKTGY FVAMATLTQA
TRPGVVACSH HNGRWRLVNE VKIDGFKHPL GVMRLGSVLV DIKNEGSKYF VRTKEGVKPF
ESWQFPEFNK DTELIWWKGT TGVFQNAVFP ANPDPISGMH CWHKKVLIEK AGPEDRIGDV
FVDIQKTFEV YKAWRDQLTR PAPGPGGLRR PKWMPRPWFP IADEAWKMPG SES
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