Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | VIBHAR_01857 |
Symbol | |
ID | 5553369 |
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 | 1868121 |
End bp | 1870583 |
Gene Length | 2463 bp |
Protein Length | 820 aa |
Translation table | 11 |
GC content | 48% |
IMG OID | 640907346 |
Product | hypothetical protein |
Protein accession | YP_001445051 |
Protein GI | 156974144 |
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 |
|
|
Plasmid Coverage information |
Num covering plasmid clones | n/a |
Plasmid unclonability p-value | n/a |
Plasmid hitchhiking | n/a |
Plasmid clonability | n/a |
| |
Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
| |
Sequence |
Gene sequence | ATGGCTATTA CACGAAGAAG TTTTCTTAAA GGTGTAGCAA CCACAAGTGC AGCGTCAGTT ATCGGTCCAA GCTTATTGGC TTCAGCATCT GCAAACGCAG CTGAGTCTAC TGGTACTTGG AAAGTAACAG GTTCACACTG GGGCGCGTTC CGCGCCCACA TCTACGCGGG TAAAGTTCAA GAGATCAAAC CGCTAGAACT AGACCAGAAC CCAACAGAAA TGTTGAACGG CATCAAGGGC ATTATCTACA GCCCATCACG TGTTCGTTAC CCAATGGTTC GTCTAGATTG GCTGAAGAAG CACAAATACA GCGCTGAGAC GCGCGGTAAC AACCGTTTCA TCCGTGTAAC TTGGGATGAA GCTCTAGACC TGTTCTACCG TGAGCTAGAA CGTGTTCAGA AAGAATACGG TCCATGGGCT CTACACGCAG GTCAAACTGG TTGGAACCAA ACTGGTGCGT TCAACAACTG TACGGCACAC ATGCAACGTG CTGTAGGTAT GCACGGTAAC TTCATCACTA AAGTAGGCGA CTACTCTACT GGTGCAGGTC AAACCATCAT GCCTTACGTA CTTGGTTCAA CAGAAGTTTA CGCACAAGGT ACGTCTTGGT CTGAAATCCT AGAGAACTCA GACAACATCA TTCTTTGGGC AAACGACCCA GTGAAAAACC TACAAGTAGG TTGGAACTGT GAAACGCACG AATCTTTCAA CTACCTAGCG CAGTTGAAGG AAAAAGTAGC GAAAGGCGAG ATCAATGTTC TTTCTGTAGA CCCAGTTAAG AACAAGACTC AACGTTACCT AGAGAACGAT CACCTATACA TTAACCCGCT AACAGACGTA GCATTCATGC TTGCTGTTGC GCACGTACTG TACAACGAAG ACCTATACGA CAAGAAGTTC ATTGAAACTT ACTGTCTAGG TTTCGAAGAT TTCATCAAGT ACGTTCAAGG TGAAACGAAA GATAAAGTTG TTAAAACACC TGAGTGGGCT GCACCTATCT GTGGCGTGAA AGCGGACAAG ATTCGTGAAT TCGCACGCAT GCTAGTGAAC GGTCGTACAC AGATCCTTAT GGGTTGGTGT ATCCAACGTC AAGAGCACGG TGAGCAACCA TACTGGGCAG CAGCAGTAGT TGCAGCAATG GTTGGGCAAA TCGGTCTACC TGGCGGTGGT ATCTCTTACG GTCACCACTA CTCAAGTATC GGTGTACCTT CAACTGGCTT CGCGGGCCCT GGTGGTTTCC CTCGTAACTT AGATACTGGT ATGAAGCCGA AGTGGGATAA CAACGACTTT AACGGTTACA GCCGTACTAT CCCTGTTGCT CGTTGGATCG ACTGTTTGCT AGAACCAGGC AAACAGATCA ACTACAACGG CGGTAAAGTT AAGCTTCCAG ACTTCAAGAT GATGGTGATC TCGGGTTGTA ACCCATGGCA CCACCACCAA GATCGTAACC GTATGAAGCA AGCGTTCCAG AAACTACAAA CAGTAGTAAC GATTGAGTTC GCTTGGACGG CAACGTGTCG TTTCTCTGAT ATCGTGCTTC CAGCATGTAC TCAGTGGGAA CGTAACGATA TCGACGTATA CGGTTCTTAC TCGAACAAAG GTCTGATTGC TATGCATCGT CTAGTGGACC CATTGTTCCA ATCTAAGCCA GACTTCCAAA TCATGAGTGA ACTGACTCAA CGCTTTGGTC GTCGCGACGA GTACACTCGT GGTATGAGCG AGATGGAATG GATCCGCAGC CTGTACAACG ATTGTAAGAA AGCGAACGAC GGTAAGTTCG AAATGCCAGA ATTTGATGAG TTCTGGGAGA AGAGCGTACT AGACTTCGGT CAAGGTAAGC CTTGGGTTCG TCACGCTGAC TTCCGTCAAG ATCCAGAAAT CAACCCACTG GGTACACCTT CTGGCTTCAT CGAGATCACT TCTCGTAAGA TCGGTCGTTA CGGTTACGAA CACTGTCAAG AACACCCAAT GTGGTTCGAG AAATCAGAAC GCTCACACGG TGGTCCTGGC TCTGACAAAC ACCCGTACTG GCTACAATCT TGCCACCCGG ACAAGCGCCT GCACTCTCAG ATGTGTGAAT CTGAAGATTT CCGTGCTACT TACGCTGTTC AAGGTCGTGA GCCTGTATAC ATCAACCCAG TTGATGCAAA AGCAAAAGGC ATTAAAGACG GTGACTTGGT ACGTGTATTT AACGACCGTG GTCAGCTTCT TGCTGGTGCT GTACTTACTG ACAGCTACCC ACGTGGTGTT ATCCGTATCG AAGAAGGTGC GTGGTACGGT CCTCTAAACG AGAAAGTAGG TGCAATTTGT ACTTACGGTG ACCCTAACAC ACTAACTCAA GACATCGGTT CTTCTGAACT AGCACAAGCG ACTTCTGCGA ACACATGTAT CGTAGACTTC GAGAAATTCA CTGGTAAAGT TCCACCAGTG ACTTCATTCG GTGGTCCGAT CGAAGTTGCT TAA
|
Protein sequence | MAITRRSFLK GVATTSAASV IGPSLLASAS ANAAESTGTW KVTGSHWGAF RAHIYAGKVQ EIKPLELDQN PTEMLNGIKG IIYSPSRVRY PMVRLDWLKK HKYSAETRGN NRFIRVTWDE ALDLFYRELE RVQKEYGPWA LHAGQTGWNQ TGAFNNCTAH MQRAVGMHGN FITKVGDYST GAGQTIMPYV LGSTEVYAQG TSWSEILENS DNIILWANDP VKNLQVGWNC ETHESFNYLA QLKEKVAKGE INVLSVDPVK NKTQRYLEND HLYINPLTDV AFMLAVAHVL YNEDLYDKKF IETYCLGFED FIKYVQGETK DKVVKTPEWA APICGVKADK IREFARMLVN GRTQILMGWC IQRQEHGEQP YWAAAVVAAM VGQIGLPGGG ISYGHHYSSI GVPSTGFAGP GGFPRNLDTG MKPKWDNNDF NGYSRTIPVA RWIDCLLEPG KQINYNGGKV KLPDFKMMVI SGCNPWHHHQ DRNRMKQAFQ KLQTVVTIEF AWTATCRFSD IVLPACTQWE RNDIDVYGSY SNKGLIAMHR LVDPLFQSKP DFQIMSELTQ RFGRRDEYTR GMSEMEWIRS LYNDCKKAND GKFEMPEFDE FWEKSVLDFG QGKPWVRHAD FRQDPEINPL GTPSGFIEIT SRKIGRYGYE HCQEHPMWFE KSERSHGGPG SDKHPYWLQS CHPDKRLHSQ MCESEDFRAT YAVQGREPVY INPVDAKAKG IKDGDLVRVF NDRGQLLAGA VLTDSYPRGV IRIEEGAWYG PLNEKVGAIC TYGDPNTLTQ DIGSSELAQA TSANTCIVDF EKFTGKVPPV TSFGGPIEVA
|
| |