Gene VIBHAR_05607 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagVIBHAR_05607 
Symbol 
ID5558903 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameVibrio harveyi ATCC BAA-1116 
KingdomBacteria 
Replicon accessionNC_009784 
Strand
Start bp809692 
End bp812580 
Gene Length2889 bp 
Protein Length962 aa 
Translation table11 
GC content47% 
IMG OID640910083 
Producthypothetical protein 
Protein accessionYP_001447737 
Protein GI156976831 
COG category 
COG ID 
TIGRFAM ID 


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
ATGTATCTAA GAAAGGTCAG TGCTAAACAG ACCAATTCCA TTGGTTATCG TACGTTAGGG 
CTAACAATGC TTTGTTCTGG CTTATTGTTG AATCCAATTT CACAAGCCAT GGCCGCAGAG
TTCAGCACCG ATGCGGTAGC TCAGTCAGAA AGTGAATATT GGAGCACCTA TAAGCTAGAT
ATCACAAACA CAGGCTCAGA TAGCGCAGAC ATGCGTGAAG CCGTGATCGA ATTTTTATTG
CCGGTAGCGA TTAACGAAAT CAATTGGGCG TCAAACCATC TTTCTTACCC ATCATGGGAA
ATCTCTCATA CGACGCAAGC AGATGGTGTA TTGAACGCGG TGACATTGAC GTTCCCAGAA
GGCTCTTGGG TTGATAGTGA GCTGGCCTCA GGTGAATCTG CGTCATTGAC TATCTCTTTC
GGTGGCGAAT TGAATAACCT GGACTCGTTT GAGAATTCTG TTGTGGTGAA AGTGGATGGC
GAAGTTGTTC CGCCACCAGA ATTTTCACTC GATATCTTAG CGCCTGCTCA AAACTCAGTG
GTTTACACAG GTACGAATAT TGACATCATC ACGGGTGTCG AAGGTAAAGG TGCAAGCAAA
CTAGAATTCT GGGCAAACAG TACCAAATTA GGCGAGCAAA ACGTTGTAGA AGGCACAACA
GAATACCAGC AAGCTTGGCT TCCAGCAGAA ATTGGTGCAG CGTTGATCGC TGTAATGGCG
TTCTATGACA ATGGTGACAA ACTCACAGAG AAAGCGATTC AAGTGACGGT AGAGTCAGAA
TCGACGGCGC CAAACCCACC TGTAGTTGAG TTTATCTCGC CAGACGCAGG CTCTTCTCAC
CAAAAAGGTG ACAGCATCAC AATTTCAGTG CATGTGACGG ATGCAGATGA TGACTTAGCG
ACCGTTAAGT TCTTCGCTAA CGATGCAGAA GTGTGTTCTC TTGATGCGAA AGCGACGAAA
GATTTCTCTT GTGACTGGAC AACGCAAACG GCAGGCTCTA CTACGCTTCG TGCGGAAGCA
AAAGATGACG AACAACATGT CTCGAGTAAG AACTTAACCA TTACGGTGAC GGATACAAGC
ACAAGCTGTG GTGACATACC TCAGTACGAA GATGGTGTGG CCTATAAAGT CGGTGATGAA
GTCACTAACA TTGGCAATAT CTACTCATGT ACGGTAGCGG GTTGGTGTGG TAACCCAGTA
TGGACACCAG GAACAGGTCA TTCAAGTTAT CCAGATGCGT GGAAAGATGC ATGGAATGAA
GTTGGTGAGT GTGATCCGAA CCCAGTGCCA GTGGTGGACG TCCAATCACC GCAGGATGGA
CAGAAAATCG CGCCGAACCA CGCATTCGAC GTGGTTGTCG ATGCCACGGA TGACACTGAA
GTTGCCCGCG TTGATGTTCA ATTGAATGGT CAAGTGGTTG CGACATCAAA CACGCCTTCA
CAAGGAGATA CTTACACCAT CACGGTGCCT GCCCAAGTCG AAGGCCAATA CACATTGACG
GTTGTTGCCT ACGATGATCA AGGTGCGAGT GCAGAGGCGA CGCCAATTTC TTTAGCGATC
ACCGATAAAG ACTTGGTTGT TTCTCTAGCA TCTCCTGTCG ATGGTTCAAG CTACTTCGAA
GGTCGAGCGA TTTCGATCAA AGCAGACGCG AAGAGCTACG AAGGCGATAT TTCCTCGGTT
AGCTTCATCG CGAATGGCAA CGAGCTGTTT AAGGACACTG AAGCACCTTA TGAATATGAA
TGGCTAGGTG CTCAGAAGGG TACATACGCT ATCACAGCAA AAGCGGTGAA TACGGCTAAC
CAAGAACAAA CCTCTGCAAC GTCTAACATA ACGGTGAAAG AAAGCACAGG TGGTGGCGGC
TTAGTCGATA ACCCTGACCG CTCTATCAGT TACCTAACGT CTTGGGGTTT GAATGACTAC
GAAGAGTTAT TCAACTCAGA AGGTGATGGT TACCTATTGT CATTCGGTAA GTGGGACGCA
AGCGGTAACA TCACGATCTC TGATGGCATG CTAACACCAC CGGATTACAA CCCGGACTGG
ATGCCAACAC AGTATATAGC GTGGTCAACA CTCAAGCACG ACAATGAAAA TGTTACCATG
ATGGTCGCTT TTGGTGGTCA AACTTACGAA AGCATTTGGT CGGCTATCAG TACGCCTGAA
AGCCGTGAAG CAGTAGCGAA CGGATTAGTT GATTTGGTGC ATACGCCATT TCCTGTGTAC
AAAAAGAACC TAAAACCTGA AGAGGTGGAA GGCGAGTGTC TTGCAACAAA TTCAGACGGT
AGCTGTGACT ACAGCAAGTA CCAATTAGCG GGTTACGTGC ACATTGATGG TTTAGACTTC
GATTTCGAGA AAGCGGCACG AATCACGGAC AAAGAGAATC AGGACTTGAC GGCCTTGATC
AAACTGATCC GCGAGAAAGT GGGCAATACG AAGGTTCTGT CTCTGACGAC TTACCACGTA
GGTGCGGATC CAGTTGAATG TATGGACGCG AGCGTGTTTG AAAACTGTTC TTACATTGAA
GAGTCTGGCC GCTCATCTCA CCACGGTGAA GTGATTGATT TGTTGAAAGC GACCAAGAAC
GACTTTGATT TCTTCAACGT GATGACATAC GACGCGGGTC GAAACTTCCT ATACGAAGTG
GCGATGGCAA ACTATGCTGA ATACATTGGA GACAAGTCGA AGATTGTTTT AGGTAATACG
ATCAACAGTC AGTGGGCACC AGGTGGTAAC TTTGTTGAAA CACGCCAGAA CAACCTAGAC
CGTGCTAAAT GGCAGAAAGA TAACGGTTAT GGTGGCTTCT TTATGTGGAC GTTGGGTTCA
AACAACCAAG GTTTGAGCAT GGCAGAGCAA GTGGACTACT TTAACGACAT GATCGGCGTA
AGCAAGTAG
 
Protein sequence
MYLRKVSAKQ TNSIGYRTLG LTMLCSGLLL NPISQAMAAE FSTDAVAQSE SEYWSTYKLD 
ITNTGSDSAD MREAVIEFLL PVAINEINWA SNHLSYPSWE ISHTTQADGV LNAVTLTFPE
GSWVDSELAS GESASLTISF GGELNNLDSF ENSVVVKVDG EVVPPPEFSL DILAPAQNSV
VYTGTNIDII TGVEGKGASK LEFWANSTKL GEQNVVEGTT EYQQAWLPAE IGAALIAVMA
FYDNGDKLTE KAIQVTVESE STAPNPPVVE FISPDAGSSH QKGDSITISV HVTDADDDLA
TVKFFANDAE VCSLDAKATK DFSCDWTTQT AGSTTLRAEA KDDEQHVSSK NLTITVTDTS
TSCGDIPQYE DGVAYKVGDE VTNIGNIYSC TVAGWCGNPV WTPGTGHSSY PDAWKDAWNE
VGECDPNPVP VVDVQSPQDG QKIAPNHAFD VVVDATDDTE VARVDVQLNG QVVATSNTPS
QGDTYTITVP AQVEGQYTLT VVAYDDQGAS AEATPISLAI TDKDLVVSLA SPVDGSSYFE
GRAISIKADA KSYEGDISSV SFIANGNELF KDTEAPYEYE WLGAQKGTYA ITAKAVNTAN
QEQTSATSNI TVKESTGGGG LVDNPDRSIS YLTSWGLNDY EELFNSEGDG YLLSFGKWDA
SGNITISDGM LTPPDYNPDW MPTQYIAWST LKHDNENVTM MVAFGGQTYE SIWSAISTPE
SREAVANGLV DLVHTPFPVY KKNLKPEEVE GECLATNSDG SCDYSKYQLA GYVHIDGLDF
DFEKAARITD KENQDLTALI KLIREKVGNT KVLSLTTYHV GADPVECMDA SVFENCSYIE
ESGRSSHHGE VIDLLKATKN DFDFFNVMTY DAGRNFLYEV AMANYAEYIG DKSKIVLGNT
INSQWAPGGN FVETRQNNLD RAKWQKDNGY GGFFMWTLGS NNQGLSMAEQ VDYFNDMIGV
SK