| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | VEA_000871 |
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| Symbol | |
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| ID | 8559184 |
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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 | Vibrio sp. Ex25 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_013457 |
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| Strand | - |
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| Start bp | 1001463 |
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| End bp | 1003910 |
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| Gene Length | 2448 bp |
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| Protein Length | 815 aa |
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| Translation table | 11 |
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| GC content | 51% |
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| IMG OID | 646408543 |
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| Product | biotin sulfoxide reductase |
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| Protein accession | YP_003288022 |
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| Protein GI | 262396169 |
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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 | [TIGR00509] molybdopterin guanine dinucleotide-containing S/N-oxide reductases
[TIGR01409] Tat (twin-arginine translocation) pathway signal sequence |
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Plasmid Coverage information |
| Num covering plasmid clones | 26 |
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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 | ATGACTAATT TAACCCGTCG TGGATTTCTA AAAGGCACAG GTCTGGCGGC TGGCGCCATG
GCATTTACTT CTTTTGCGCC TATGTCTGTT GCGTCTTCAA ACCAGCGTGG TAAGGGCATT
TTGACAGCGG GCCGCATGGG CCCAATGTTA TGTGAAGTGA AAGATGGCAA GCTAGTATCG
ACCACTAATG CTCTGCCACA AACTGTACCA AATAGTCTAC AAACTACTGG GCCTGACCAA
GTGCATACCA AGGCGCGAGT GAAGTACCCA ATGGTACGTA AAGGCTACTT GGCAAACCCA
TCGTCGCCAG AAGGTGTGCG CGGTAGTGAT GAGTTTGTGC GTGTGTCTTG GGATGAGGCT
TACAAGCTGA TCCACGAGCA GCACATGCGA ATTCGCAAAG AATATGGCCC AGCTTCTGTG
TTTGCTGGTT CTTACGGCTG GCGTTCAAGT GGCGTGCTGC ACAAAGCACA AACCTTGCTG
CAACGTTACA TGAGCATGGC GGGTGGCTAT TCAGGCCACT TGGGTGACTA CTCAACGGGT
GCTGCGCAGA TCATCATGCC GCACGTTGTG GGCTCTATCG AAGTGTACGA GCAACAAACC
ACGTACCCAG TGGTACTAGA GCACAGCGAC GTGGTTGTAC TTTGGGGCTT AAACCCGATC
AACACCCTAA AAATCGCGTG GAGCTCAACA GACTGTGCTG GTCTTGAGTT CTTCCATCAA
TTAAAAAAAT CAGGCAAGAC GGTTATTGCG ATTGACCCTA TTCGTTCTGA AACCATCGAG
TTCTTTGGCG AGAATGCGGA GTGGATTGCT CCTCACCCAA TGACCGACGT AGCGATGATG
ATGGGTATCG CACATACCTT GGTGAAACAA GGTAAGCACG ATAAAGCCTT CCTCGATAAA
TACACCGCAG GTTACGACAA GTTTGAAGCG TACCTGATGG GAGAAGAAGA TGGCGTAGAA
AAGTCAGCAG AATGGGCATC ACAAATCTGT GGCGTACCTG CGAAGCAACT TGAGCTATTG
GCTGACATCT TCAGTAAAAA CCGCACCATG CTGATGGCGG GTTGGGGCAT GCAGCGCCAA
CAATACGGTG AACAGCGTCA CTGGATGCTG GTTACACTGG CAACGATGTT GGGTCAAATC
GGCTTACCGG GCGGTGGTTT TGGTTTCTCT TACCACTACT CAAACGGTGG TAACCCTGCT
CGTGACGCTG GCGTGCTTCC TGCGATTTCA GCATCACTGG GTGGCGGCTC TTCTGCGGGT
AACGACTGGG CGGTATCTGG CGCGGTGCAA AGCTTCCCTG TGGCGCGTAT TGTCGAGGCG
TTGGAAAACC CAGGTCAATC CTACCATCAC AACGGTCATG AACTGACGTT CCCAGATATC
AAGATGATTT GGTGGGCAGG TGGTGCGAAC TTTACTCACC ACCAAGACAC CAACCGCTTG
ATTAAAGCGT GGCAAAAGCC TGAGCTGATC GTGATTTCAG AACCTTATTG GACAGCAGCG
GCGAAGCATG CGGATGTCGT TCTGCCAATC ACCACATCGT TCGAGCGTAA TGACTTAACG
ATGACAGGCG ACTACAGTAA CCAACACTTG GTGCCAATGA AACAAGTAGT TGAGCCGCAA
GGTGAAGCGC GTAATGACTT CGACGTATTC GCGGACATGG CGGAGATGCT AGCACCGGGT
GGCCGTGATG TGTACACCGA AGGCAAAACC GAAATGGAAT GGCTGTACGG CTTCTACAAG
GCGGCGCAAC AAGGTGGCCG TGGCTCTCGC GTAGCAATGC CGAACTTCAG CAAGTTCTGG
GAAGATAACC AACTGATCGA GATGAAGTGG AACGAGAAGA ACGCCCAGTT TGTTCGTTAC
GCGGATTTCC GTGAAGACCC GGTCATGAAC CCGCTAGGTA CGCCAAGTGG TAAGATTGAA
ATCTTCTCGA AAACGATTGA AGGTTACCAG TTGGAAGACT GTCCTCCACA CCCTACGTGG
ATGGCACCAA CCGAGTACAC CGGCAATGCA AAAGATGGCG AGTTGCAGCT AATGACCGCG
CACGCAGCAC ATCGTCTACA CAGCCAGTTT AACTACGCGA AGATTCGCGA AGAGTACGCA
ATTGCAAACC GTGAACCTAT TTGGATTCAC CCTGAAGATG CGAAAGCGCG TGGTATTAAA
ACGGGCGATC TAGTTCGTGC GTTTAACAAC CGTGGCCAAG TATTGGTTGG TGCAGAAGTG
ACTGACCGAA TCAAGCAAGG TTCAGTATGT ATTCATGAAG GTGGTTGGCC GGACTTGGAT
CCGAAAACCG GCATTTGTAA GAACGGCGGT TGTAACGTGT TAACGTTGGA TATTCCGACC
TCTCGACTTG CAAACGGCTG TGCGGCGAAC TCGGCACTGG TTCGTATTGA AAAATACACT
GGCCCAGAAT TAGAACTAAC GGCGTTTGAA CCACCAAAAA ATGGCTAG
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| Protein sequence | MTNLTRRGFL KGTGLAAGAM AFTSFAPMSV ASSNQRGKGI LTAGRMGPML CEVKDGKLVS
TTNALPQTVP NSLQTTGPDQ VHTKARVKYP MVRKGYLANP SSPEGVRGSD EFVRVSWDEA
YKLIHEQHMR IRKEYGPASV FAGSYGWRSS GVLHKAQTLL QRYMSMAGGY SGHLGDYSTG
AAQIIMPHVV GSIEVYEQQT TYPVVLEHSD VVVLWGLNPI NTLKIAWSST DCAGLEFFHQ
LKKSGKTVIA IDPIRSETIE FFGENAEWIA PHPMTDVAMM MGIAHTLVKQ GKHDKAFLDK
YTAGYDKFEA YLMGEEDGVE KSAEWASQIC GVPAKQLELL ADIFSKNRTM LMAGWGMQRQ
QYGEQRHWML VTLATMLGQI GLPGGGFGFS YHYSNGGNPA RDAGVLPAIS ASLGGGSSAG
NDWAVSGAVQ SFPVARIVEA LENPGQSYHH NGHELTFPDI KMIWWAGGAN FTHHQDTNRL
IKAWQKPELI VISEPYWTAA AKHADVVLPI TTSFERNDLT MTGDYSNQHL VPMKQVVEPQ
GEARNDFDVF ADMAEMLAPG GRDVYTEGKT EMEWLYGFYK AAQQGGRGSR VAMPNFSKFW
EDNQLIEMKW NEKNAQFVRY ADFREDPVMN PLGTPSGKIE IFSKTIEGYQ LEDCPPHPTW
MAPTEYTGNA KDGELQLMTA HAAHRLHSQF NYAKIREEYA IANREPIWIH PEDAKARGIK
TGDLVRAFNN RGQVLVGAEV TDRIKQGSVC IHEGGWPDLD PKTGICKNGG CNVLTLDIPT
SRLANGCAAN SALVRIEKYT GPELELTAFE PPKNG
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