Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | VIBHAR_02507 |
Symbol | |
ID | 5554659 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Vibrio harveyi ATCC BAA-1116 |
Kingdom | Bacteria |
Replicon accession | NC_009783 |
Strand | - |
Start bp | 2525482 |
End bp | 2527929 |
Gene Length | 2448 bp |
Protein Length | 815 aa |
Translation table | 11 |
GC content | 47% |
IMG OID | 640907993 |
Product | hypothetical protein |
Protein accession | YP_001445696 |
Protein GI | 156974789 |
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 [TIGR02166] anaerobic dimethyl sulfoxide reductase, A subunit, DmsA/YnfE family |
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Plasmid Coverage information |
Num covering plasmid clones | n/a |
Plasmid unclonability p-value | n/a |
Plasmid hitchhiking | n/a |
Plasmid clonability | n/a |
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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 | ATGAGTCAAA ATGGTAAGTT TAATATTACT CGGCGTGATG CTTTAAAGGG TGGTTCTGCA CTTGGCGCTC TAGCTCTAGC AGGAAACGCG CTTTCTCTCC CGTTTGCAAC TAAAGCGGTT GCCAAAGAAA CACCAGTAAA ATCAAACGAA AAAATTGTCT GGTCGGCATG TACTGTAAAC TGTGGTTCTC GTTGTCCACT TCGTATGCAC GTGGTCGACG GCGAAATCAA ATGGGTAGAA ACCGATAACA CGGGTGATGA TGTGTATAAC CACAATCACC AAGTTCGCGC TTGTTTGCGT GGTCGCTCTA TGCGTCGCCG TGTTTACTCG CCAGACCGTT TGAAATACCC ACTTCTTCGC GTTGGTAAGC GTGGTGAGGG TAAGTTCAAA CGCATCACTT GGGATGAAGC CTTTGACCTC ATAGGTGATA ACCTAAAACG TATTATTAAA GACTACGGCA ACGATGCGGT GTACCTAAAT TACGGTACGG GTACGCTTGG GGGTACCGTA ACGAAGAGTT GGGATCCGAG CGCGACATTA GTTGCTCGTA TGATGAACCT TTGTGGTGGT TACCTAAATC ACTACGGTGA CTACTCTGCA GCAAACATCG AATGTATGTC AGAGTACTTC TACGGTTCAT TCGTTGATAA CAACTCTATT GACGATATTC AAAATGCAGA CCTATGTCTG ATGTTTGGTA ACAACCCAGC AGAAACCCGT ATGTCGGGTG GTGGTCAGGT TCACAACTAT GTGGATGCGA AAAACATCAG TCACACTCGC ACGATTTGTA TCGACCCTCG TTACACCGAT ACTGCAGCTG GCCGTGAAGA TCAATGGATT CCTATCAAGC ACGGTACAGA TGCAGCTTTA ATTGCAGCCA TCGCCCATGT ATTGATTACG GAAGACAAAG TCGATCAAGA CTTCCTTGAC CGTTACTGTG TGGGTTACGA CCGTAAAACG CTTCCTGCAT CAGCGCCAGA AAACGGCAGC TACAAAGATT ACATTATGGG TACTGGCCCA GATGGTATCG AGAAAACCCC AGAGTGGGCA CAACCTATTA CGGGCATTCC AGCAGATGTG ATTTTGAAAC TTGCACGTGA AGTTGGCGAT GCAAAACGCA TTTACATTAC CCAAGGTTGG GGTCTACAAC GCTCAGCAAA TGGTGAGCAA GCGTGTAAAG CGGTCATGAT GTTGTCATTG CTACGTGGTC AAGTTGGCTT GCAAGGTGGT GGTACTGGTG CTCGTGAAGG TAACCACTCA TACCCATTCC AACGCTTCCC GAAAGTGCCA AACCCGATCA GCGCTTCTAT CCCAATGTTC CTTTGGACAG ACGCGATTTA CCGCGGTACG GAAATGACAG ACCTGACCGA TGGTATTAAA GGCGTTCAGA AGCTACAAAA CAACATCAAG TTTATCTGGA ACTATGCAGG TAACTGTCTG ATTAACCAAC ACTCAGATAT CAACCGTACA CACGAAATTC TTCAAGATGA AAAAGCGTGT GAAATGATTG TGGTGATCGA CAACCACATG ACGTCTTCTG CGAAGTATGC CGATATCGTA CTGCCAGACT GTACAACGTC AGAGCAATCG GATTTCTGTA TGGATGGTGC AGCTGCATCA ATGCCTTACT TCATCTTTGC AAGCCAAGCG ATCAAGCCTC GTTTCGAATG CAAACCTATC TACGACATTA TGTCTGGTGT GGCGAAACGC ATGGGCGTGT TTGATCAGTT TACTGAAGGT CGCACTCAAG AAGAGTGGCT GCAATGGATG TACGCTCAGA CCGTTAAACA AAACAACGAT CCAAACTTGC CGTCTTACGA TGAGATGAGA AAGCAGGGTA TCTACAAGAA GCAATTCGAC CGTCCACACG TGGCGTACGA AGACTTCCGT CGTGATCCAG AAGCGAACCC ACTACCATCG CCATCGGGCA AGATTGAAAT CTACTCAGAG ACGTTAGCGA AGATCAACAA AGAATGGGAA TTGGACGAAG ATGAGTCCAT CAAGCCATTA CCAGAGTACG TTTCGACGTT TAATGGCTGG GATTCTCCTG ATCGTAAAGA GTACCCGCTT CAGTTAACGG GCTTCCACTA CAAAGCTCGT GCGCACTCTA CGTACGGCAA CGTCGACATC CTAAAAGCAG CGGCACCACA GGAACTTTGG ATTAACCCGA TTGATGCAGC GTCACGCAAC ATTGATAACG GTGACTTGGT TAGCGTGCGC AGCAAGTTCG GTGAAATGAA CGTTCGCGTA AAAGTAACCC CACGCATCAT GCCACACATC GTTGGTTTGG GTGAGGGCGC ATGGTACTCA CCAAATGGTA AAGGTGTTGA CCAAGCGGGT TCAATCAACG TACTGACGAC ACAACGTCCA AGCCCGTTGG CAAAATCAAA CCCGAGCCAT ACCAACCTCG TTGAAGTGAC GCTAATTAAG AAAATGGGGG CTAAATAA
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Protein sequence | MSQNGKFNIT RRDALKGGSA LGALALAGNA LSLPFATKAV AKETPVKSNE KIVWSACTVN CGSRCPLRMH VVDGEIKWVE TDNTGDDVYN HNHQVRACLR GRSMRRRVYS PDRLKYPLLR VGKRGEGKFK RITWDEAFDL IGDNLKRIIK DYGNDAVYLN YGTGTLGGTV TKSWDPSATL VARMMNLCGG YLNHYGDYSA ANIECMSEYF YGSFVDNNSI DDIQNADLCL MFGNNPAETR MSGGGQVHNY VDAKNISHTR TICIDPRYTD TAAGREDQWI PIKHGTDAAL IAAIAHVLIT EDKVDQDFLD RYCVGYDRKT LPASAPENGS YKDYIMGTGP DGIEKTPEWA QPITGIPADV ILKLAREVGD AKRIYITQGW GLQRSANGEQ ACKAVMMLSL LRGQVGLQGG GTGAREGNHS YPFQRFPKVP NPISASIPMF LWTDAIYRGT EMTDLTDGIK GVQKLQNNIK FIWNYAGNCL INQHSDINRT HEILQDEKAC EMIVVIDNHM TSSAKYADIV LPDCTTSEQS DFCMDGAAAS MPYFIFASQA IKPRFECKPI YDIMSGVAKR MGVFDQFTEG RTQEEWLQWM YAQTVKQNND PNLPSYDEMR KQGIYKKQFD RPHVAYEDFR RDPEANPLPS PSGKIEIYSE TLAKINKEWE LDEDESIKPL PEYVSTFNGW DSPDRKEYPL QLTGFHYKAR AHSTYGNVDI LKAAAPQELW INPIDAASRN IDNGDLVSVR SKFGEMNVRV KVTPRIMPHI VGLGEGAWYS PNGKGVDQAG SINVLTTQRP SPLAKSNPSH TNLVEVTLIK KMGAK
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