Gene VIBHAR_01134 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagVIBHAR_01134 
SymboldnaK 
ID5553559 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameVibrio harveyi ATCC BAA-1116 
KingdomBacteria 
Replicon accessionNC_009783 
Strand
Start bp1150240 
End bp1152156 
Gene Length1917 bp 
Protein Length638 aa 
Translation table11 
GC content46% 
IMG OID640906626 
Productmolecular chaperone DnaK 
Protein accessionYP_001444351 
Protein GI156973444 
COG category[O] Posttranslational modification, protein turnover, chaperones 
COG ID[COG0443] Molecular chaperone 
TIGRFAM ID[TIGR02350] chaperone protein DnaK 


Plasmid Coverage information

Num covering plasmid clonesn/a 
Plasmid unclonability p-valuen/a 
Plasmid hitchhikingn/a 
Plasmid clonabilityn/a 
 

Fosmid Coverage information

Num covering fosmid clonesn/a 
Fosmid unclonability p-valuen/a 
Fosmid Hitchhikern/a 
Fosmid clonabilityn/a 
 

Sequence

Gene sequence
ATGGGTAAAA TCATTGGTAT TGACTTAGGT ACTACTAACT CTTGTGTTGC TGTTCTAGAC 
GGTGACAAGC CACGCGTAAT TGAAAACGCA GAAGGCGAGC GTACAACCGC ATCTGTTGTT
GCATACACAG ACGGCGAAAC GCTAGTAGGC CAACCTGCTA AACGTCAAGC AGTAACAAAC
CCAACTAACA CGCTATTTGC AATTAAGCGT CTAATTGGTC GTCGCTTTGA AGATGAAGAA
GTTCAGCGTG ATATCGAAAT CATGCCTTAC AAAATCGTTA AGGCTGACAA CGGTGATGCT
TGGGTAGAAG CGCAAGGCCA AAAAATGGCG GCTCCTCAAG TTTCAGCTGA AATCCTGAAG
AAAATGAAGA AAACTGCTGA AGACTTCCTA GGTGAGGAAG TAACTGGCGC AGTTATCACA
GTTCCTGCTT ACTTTAACGA TGCTCAACGT CAAGCTACAA AAGACGCTGG CCGTATCGCA
GGTCTAGAAG TTAAACGTAT CATCAACGAA CCAACAGCGG CTGCACTAGC ATACGGTCTA
GACAAGTCAG GCGGCGACCG CACTATCGCG GTATACGACC TTGGTGGTGG TACATTCGAT
ATCTCTATCA TCGAAATCGA TGAAGTTGAA GGCGAAAAAA CGTTCGAAGT TCTAGCAACT
AACGGTGACA CTCACCTTGG TGGTGAAGAC TTTGATACGC GTCTAATCAA CTACCTAGTA
GACGAGTTCA ACAAAGAGCA AGGTATCAAT CTAAAGAACG ACCCACTAGC GATGCAACGT
GTTAAAGAAG CAGCAGAAAA AGCGAAGATC GAGCTTTCTT CTACTTCTCA AACTGACGTA
AACCTACCTT ACGTGACTGC AGACGCGACT GGTCCTAAGC ACATGAACGT GAAAGTGACT
CGTGCGAAAC TAGAATCTCT AGTTGAAGAC CTTGTACAAC GTTCTCTTGA GCCACTAAAA
GTTGCTCTAG CTGACGCTGA CCTATCTGTA AACGACATCA CTGACGTAAT CCTAGTTGGT
GGTCAGACTC GTATGCCTAT GGTTCAAGCG AAAGTTGCTG AGTTCTTCGG TAAAGAAGCT
CGCCGCGATG TAAACCCTGA TGAAGCAGTA GCAATGGGTG CTGCAGTTCA AGGTGGTGTA
CTTGCGGGTG ACGTTAAAGA CGTACTTCTA CTAGACGTTA CTCCACTGTC TCTAGGTATC
GAGACAATGG GCGGTGTAAT GACTAAGTTA GTTGAGAAAA ACACAACTAT CCCAACTAAA
GCGAACCAAG TTTTCTCTAC AGCAGAAGAT AACCAGAGCG CGGTAACTAT CCACGTTCTT
CAAGGTGAGC GTAAGCAAGC GTCTTTCAAC AAATCTCTAG GTCAATTCAA CCTAGAAGGT
ATCCAAGCTG CACCACGTGG TATGCCACAA ATCGAAGTTA CTTTCGACCT AGATGCGGAT
GGTATCCTAC ACGTTTCAGC GAAAGACAAG CAGACTGGTA AAGAGCAGAA GATCACTATC
CAAGCTTCTG GCGGTCTAAG CGACGAAGAC ATCGAGAAAA TGGTTCAAGA AGCAGAAGCT
AACAAAGAAG CGGACAAAAA GTTCGAAGAG CTAGCGGCTG CACGTAACCA AGCTGACCAA
ATGATTCACG GTACTCGTAA GCAAGTAGAA GAAGCTGGTG AAGCACTACC TGCAGAAGAG
AAAGAGAAGA TTGAAGCAGC TATCTCTGAG CTAGAAACTG CACGTAAAGG CGATGACAAA
GAGGCGATCG ACGCTAAAGT TCAAGCGCTA ATGACGGCAG CTCAAAAGCT AATGGAAATC
GCTCAACAAC AAGCTCAAGC GCAACAAGCA CAAGGTGCTG ACGCTGATGC TCAACAGTCT
AAAGAAGACG ACGTAGTTGA TGCTGAGTTC GAAGAAGTTA AAGACGACAA GAAATAA
 
Protein sequence
MGKIIGIDLG TTNSCVAVLD GDKPRVIENA EGERTTASVV AYTDGETLVG QPAKRQAVTN 
PTNTLFAIKR LIGRRFEDEE VQRDIEIMPY KIVKADNGDA WVEAQGQKMA APQVSAEILK
KMKKTAEDFL GEEVTGAVIT VPAYFNDAQR QATKDAGRIA GLEVKRIINE PTAAALAYGL
DKSGGDRTIA VYDLGGGTFD ISIIEIDEVE GEKTFEVLAT NGDTHLGGED FDTRLINYLV
DEFNKEQGIN LKNDPLAMQR VKEAAEKAKI ELSSTSQTDV NLPYVTADAT GPKHMNVKVT
RAKLESLVED LVQRSLEPLK VALADADLSV NDITDVILVG GQTRMPMVQA KVAEFFGKEA
RRDVNPDEAV AMGAAVQGGV LAGDVKDVLL LDVTPLSLGI ETMGGVMTKL VEKNTTIPTK
ANQVFSTAED NQSAVTIHVL QGERKQASFN KSLGQFNLEG IQAAPRGMPQ IEVTFDLDAD
GILHVSAKDK QTGKEQKITI QASGGLSDED IEKMVQEAEA NKEADKKFEE LAAARNQADQ
MIHGTRKQVE EAGEALPAEE KEKIEAAISE LETARKGDDK EAIDAKVQAL MTAAQKLMEI
AQQQAQAQQA QGADADAQQS KEDDVVDAEF EEVKDDKK