Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | VEA_003825 |
Symbol | |
ID | 8557560 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Vibrio sp. Ex25 |
Kingdom | Bacteria |
Replicon accession | NC_013456 |
Strand | - |
Start bp | 2456402 |
End bp | 2458864 |
Gene Length | 2463 bp |
Protein Length | 820 aa |
Translation table | 11 |
GC content | 48% |
IMG OID | 646406922 |
Product | trimethylamine-N-oxide reductase |
Protein accession | YP_003286450 |
Protein GI | 262394596 |
COG category | [C] Energy production and conversion |
COG ID | [COG0243] Anaerobic dehydrogenases, typically selenocysteine-containing |
TIGRFAM ID | [TIGR00509] molybdopterin guanine dinucleotide-containing S/N-oxide reductases [TIGR01409] Tat (twin-arginine translocation) pathway signal sequence [TIGR02164] trimethylamine-N-oxide reductase TorA |
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Plasmid Coverage information |
Num covering plasmid clones | 11 |
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 | ATGGCTATTA CACGAAGAAG TTTTCTTAAA GGTGTAGCAA CCACAAGTGC AGCGTCAGTT ATTGGTCCTA GCTTATTGGC GTCAGCCTCT GCCAATGCTG TTGAGACGAC AGGTACTTGG AAAGTAACAG GTTCTCACTG GGGCGCGTTC CGCGCCCACA TCTACGCGGG TAAAGTTCAA GAGATCAAAC CGCTAGAGCT AGACAAAAAC CCAACTGAAA TGCTAAACGG CATCAAGGGC ATTATTTACA GCCCTTCACG TGTGCGTTAC CCAATGGTTC GTCTAGATTG GTTGAAGAAA CATAAATATA GCGCGGATAC TCGCGGTAAC AACCGTTTCA TCCGCGTGAC TTGGGATGAA GCGCTAGATT TGTTCTACCG TGAACTAGAA CGTATTCAAA AAGACTACGG TCCATGGGCG CTACACGCAG GTCAAACGGG TTGGAACCAA ACAGGTTCAT TCAACAACTG TACCGCGCAC ATGCAACGTG CAGTAGGTAT GCACGGCAAC TTCATCACGA AAGTAGGTGA CTACTCGACG GGTGCAGGTC AAACCATCAT GCCTTACGTA CTTGGTTCAA CCGAAGTTTA CGCACAAGGT ACGTCTTGGT CTGAAATCCT AGAGAACTCT GACAACATCG TTCTTTGGGC TAACGACCCA GTGAAAAACC TTCAAGTAGG TTGGAACTGT GAAACACATG AGTCGTTCAA GTACCTAGCA CAACTAAAAG AAAAAGTAGC GAAAGGTGAG ATCAACGTTC TATCTGTAGA TCCAGTGAAG AACAAGACTC AGCGCTACTT AGAGAATGAT CACTTGTACA TTAACCCGCT GACAGACGTA GCGTTCATGC TTGCTGTGGC GCACGTGCTG TACAACGAAG ACTTGTACGA TAAGAAGTTC ATTGATACTT ACTGTCTAGG CTTTGAAGAA TTTATTCAAT ACGTTCAAGG TAAGACAAAA GATAAAGTAG AGAAAACACC AGAGTGGGCT GCGACTATCT GTGGCGTGAA AGCGGACAAG ATTCGCGAAT TCGCGCGTAT GCTAGTCAGT GGCCGTACAC AGATCCTGAT GGGTTGGTGT ATCCAGCGTC AAGAGCACGG TGAGCAACCA TACTGGGCGG CGGCTGTGGT TGCTGCAATG GTTGGTCAAA TCGGTTTACC TGGCGGTGGT ATCTCTTACG GTCACCACTA CTCAAGTATC GGTGTACCTT CAACTGGTTT CGCGGGCCCT GGTGGTTTCC CTCGTAACCT TGACCAAGGT ATGAAGCCGA AGTGGGACAA CAACGACTTT AACGGTTACA GCCGTACTAT CCCAGTTGCA CGTTGGATCG ACTGTCTGCT TGAGCCAGGC AAAGAGATCA ACTACAACGG CGGTAAAGTG AAACTGCCAG ACTTCAAGAT GATGGTGATC TCGGGTTGTA ACCCATGGCA CCACCATCAA GATCGTAACC GCATGAAGAA AGCGTTCCGC AAACTTCAAA CGGTTGTAAC GATCGAGTTT GCTTGGACTG CAACATGTCG TTTCTCGGAT ATCGTTCTAC CTGCGTGTAC GCAATGGGAA CGTAACGACA TCGACGTATA CGGTTCATAC TCGAACAAAG GTCTGATTGC AATGCATCGT CTCGTCGATC CATTGTTCCA ATCTAAGCCT GACTTCCAAA TCATGAGTGA ACTAACTCAG CGTTTTGGTC GCCGCGAAGA ATACACTCGT GGTATGAGCG AGATGGAATG GATCGAAAGC CTTTACAACG ATTGTAAAAA AGCGAACGAA GGTAAGTTTG AAATGCCAGA ATTCAACGAG TTCTGGGAGA AGAGCGTACT AGACTTCGGT GAAGGTAAAC CTTGGGTTCG TCATGCGGAC TTCCGTAAAG ACCCTGAGCT TAACCCACTA GGTACGCCGT CTGGTTTCAT CGAGATCACG TCTCGTAAGA TCGGCCGTTA CGGCTACGAA CATTGTCAAG AACACCCAAT GTGGTTCGAA AAATCAGAGC GTTCACACGG TGGCCCTGGT TCAGATAAAT ACCCATTCTG GTTGCAGTCT TGTCACCCAG ACAAGCGTCT GCACTCTCAA ATGTGTGAAT CTGAAGAGTT CCGTGCAACT TACGCGGTGC AAGGTCGTGA GCCTGTTTAC ATCAACCCAG CGGATGCGAA AGCGAAAGGC ATCAAAGACG GTGACTTAGT GCGCGTATTC AACGGTCGTG GTCAGCTATT AGCTGGTGCT GTTCTTACTG ACAGCTACCC ACGTGGCGTT ATTCGTATCG AAGAAGGTGC ATGGTACGGT CCTCTAAACG AGAAAGAGGG CGCAATCTGT ACTTACGGTG ACCCTAACAC GCTAACGCAA GACATTGGCT CTTCTGAACT TGCGCAGGCG ACTTCTGCGA ACACATGTAT CGTAGACTTC GAGAAGTTCA CCGGCAAAGT ACCGCCAGTG ACTTCATTCG GTGGTCCAAT CGAAGTTGCT TAA
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Protein sequence | MAITRRSFLK GVATTSAASV IGPSLLASAS ANAVETTGTW KVTGSHWGAF RAHIYAGKVQ EIKPLELDKN PTEMLNGIKG IIYSPSRVRY PMVRLDWLKK HKYSADTRGN NRFIRVTWDE ALDLFYRELE RIQKDYGPWA LHAGQTGWNQ TGSFNNCTAH MQRAVGMHGN FITKVGDYST GAGQTIMPYV LGSTEVYAQG TSWSEILENS DNIVLWANDP VKNLQVGWNC ETHESFKYLA QLKEKVAKGE INVLSVDPVK NKTQRYLEND HLYINPLTDV AFMLAVAHVL YNEDLYDKKF IDTYCLGFEE FIQYVQGKTK DKVEKTPEWA ATICGVKADK IREFARMLVS GRTQILMGWC IQRQEHGEQP YWAAAVVAAM VGQIGLPGGG ISYGHHYSSI GVPSTGFAGP GGFPRNLDQG MKPKWDNNDF NGYSRTIPVA RWIDCLLEPG KEINYNGGKV KLPDFKMMVI SGCNPWHHHQ DRNRMKKAFR KLQTVVTIEF AWTATCRFSD IVLPACTQWE RNDIDVYGSY SNKGLIAMHR LVDPLFQSKP DFQIMSELTQ RFGRREEYTR GMSEMEWIES LYNDCKKANE GKFEMPEFNE FWEKSVLDFG EGKPWVRHAD FRKDPELNPL GTPSGFIEIT SRKIGRYGYE HCQEHPMWFE KSERSHGGPG SDKYPFWLQS CHPDKRLHSQ MCESEEFRAT YAVQGREPVY INPADAKAKG IKDGDLVRVF NGRGQLLAGA VLTDSYPRGV IRIEEGAWYG PLNEKEGAIC TYGDPNTLTQ DIGSSELAQA TSANTCIVDF EKFTGKVPPV TSFGGPIEVA
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