Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | VIBHAR_02212 |
Symbol | |
ID | 5554934 |
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 | 2208480 |
End bp | 2211644 |
Gene Length | 3165 bp |
Protein Length | 1054 aa |
Translation table | 11 |
GC content | 44% |
IMG OID | 640907698 |
Product | Signal transduction histidine kinase |
Protein accession | YP_001445401 |
Protein GI | 156974495 |
COG category | [K] Transcription [T] Signal transduction mechanisms |
COG ID | [COG0642] Signal transduction histidine kinase [COG0745] Response regulators consisting of a CheY-like receiver domain and a winged-helix DNA-binding domain |
TIGRFAM ID | |
|
|
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 | GTGGTCAGGT CGCTTTCATG GAATAACCTA TCTGTTAAGC ACAAGTTATT TAGCTTAGTT GTTTTACCCA TTGTCCTGCT CCTCTTTCTC GCGGGACAAC AAGTTCATCG ACTCTCTACA CAAGCGCAAG ATCTAGAGAG GGCTCAGTTA TTTTCTGACT ATATGGATAA CGTTTCTTTT CTGTATAACT TGCCAAACAA CGGTGACGTT TCAGACAGGG AATTAGCGAT CAAATCCATC ACCCAGTCAC TTAACAACGA AGCAAAGCGC ATCTTTGCAG ACAAAGGTTT AGAAATGGCC GATCTGCTTT CCAGCATAGA AGAAGCGAGC TTATCTCTGA CGACCACAAC AGACATGAAT GAGCGTCTAG ACATTGCAGA ATGGCGAGCA GACACCTACA AGCAGATCCT ACTCGCATTA GAAAAAGTGC CGTTTAATGA CGCTTCCTAT GAAATCCAAG CGCACCTCTC TGCGCTAATG CAAATCGAGT GGTTGATGTT TTGGTCTAAA GAAGAGAACC GCCTGAGCCA ATATCTGATT TACTCCGTTG AGCACAACCA ATTTTATGAT GCCGACATAA GCAGCGAGAT TGAGTCTCTG GTCAAAAATC AACAATTGTT CCTTGAACGC TTCGTCACTC TCAACGCCAA CCAACAACAA GTTGAACTGT TAATAGACAC ATTCACCAAT GAAGTGTTCG TCCTTAGCCA AGAGTTCAGA AGCTTTCTGT TCAACGAAGA AGCGCTCAGC ACCCTGCCAG AAGCTGAAGT TTCAGCAGGA TTAACCGCCC TAAATGGACG CTTAGCCTTG CTCAAAAACG TCGATAACGA CATATCCAAT CAACTCAAAA CGGATGTTGG TCAAGCGATC ACCATAGCCA ATCAGCAGCG TTTGATGTTC ATTGCCGTTA TGTCTTTCAT TACCATCGCG GTGATTAGCT TAGCGCTACG CCTCGTGCGT AAAGTAACCA ACAACCTTCA ATTGGTTCTC GAATTTCTCC GTCGTGATAG CTACAGCAAA GAATCTCCAC TAAGAGAGTT AATCAAAGGC AAAGATGAGT TAAGTAAATT TGCGCAAGAA GTTGAGCGGT TGAGTTACGA ACGCGAGCAA GCCAAGGTCA AACTCACCCA AGCTAAGGAA GACGCGGAAC AAGCAAAAGA TGATGCGATT AAAGCCAGTA AAGCAAAAAG CAGTTTCCTT GCCAATATGT CGCATGAAAT ACGTACCCCG TTGAATGGTG TTATCGGTAT TTCAGAAGTG CTGTCCGATA CCTCTCTTAC CGCTACGCAA AAAGACTACG TCGACACCAT TGAGACATCA TCACAGCTAC TACTGAGCTT GATTAATGAC ATTTTGGACT TTTCCAAGAT TGAATCTGGC ATGCTACTTA TCAGCCCTCA TTCCACATGC GTGCGCGAAT CCATTTACGA CATCGCATCT ATTGTCTCGC CAAAAGCAAA AGAAAAAGGC ATCAACCTTA AAGTGAGCAT TAGCCGTAAT ACCCCTTATC GATTGATGAT TGATGATCAC CGTCTACGCC AAGTTATCAT GAACTTTATG TCTAATGCGG TGAAGTTCAC CGAAAAAGGC AGCGTGCATC TCTCTGTTAC CACACACGGC GTCTCAGGCG CCAACGCTGT CATGGAGTTT TCCGTTCAGG ATTCAGGTAT TGGGATCGAC GAGCAACAAC AAAAGAACAT CTTCGAACCA TTCGCGCAAG AAGATAACTC TACAACCCGC CAGTTTGGTG GTACTGGTCT TGGCTTAGCA ATAAGTACAC AGCTCGTCGA GTTAATGGGA GGCAAGATCC AACTAGAATC TGAGAAAGAG CACGGCAGTC GATTTTTCTT CCAAATATCC CCTGCAATCG TTCATTTGGG CTTTGATCCC AAGCATGCTG CCAGCCAAAG CCAAGTTTGG TTAGTTTGTG AAGATGCTGG CATGGAACGG ATACTGCGCG ATGAACTGAG CTTCTACCAG ATTGCGGTTC ATCAATCGGT AACACACTTA GGCGCCCTTC CTGTTTGGAT TAGCGATAAG GAACGCGTCA TCGTGATTTA CAACGAGACA CGACCAAATT CAGCGATGAA AAACGAAGCA TCATTCCAAC GACTAGAAGC TCAAAATGTG CATATTTGTC TCGTTAAACA CCTTCATAGC GACCAGTTTG ACTTTGGTGA AAATGTCAGT GCGATTATTA CTCAGCCACT TCTGGGTCAA CGCCTAGTCA AGGCGATTGA AAGCTGTCAG GCAAGATTCA GTCAAACCTC TCTAGAGGCA GCTTCAAGCA AAACATCTAA TGCGAACAAT AAAATCTTGG TGGTCGATGA CAACACGGTA AACCAAAAAA TCGCAGGGTT ACATGTGACA AAGGCTGGCT ATGAATTTGA CATAGCGGCC AATGGCCAAG AAGCGGTCGA GATGTTCGCT AAAAATCAAT ACGCATTGAT TCTGATGGAT TGCATGATGC CCGTGATGGA TGGGTTTGAA GCAACCAAAA GAATTCGCCA ATTAGAAAAA GAGAGCAATA GAGGCTATCA AATCCCAATC ATTGCCTTAA CAGCAAGCGT AGTGGATGAC GACATACAAA AATGTTTCGA TGTCGGTATG GATGACTACG TGCCTAAACC ATTCAAAGCA CCGATATTAA AAGATAAATT GTCAAAAGCC GTTGAGGCTA GCAAATCGAA CGTAGCAATA ACTCCCGCGG TACCTTCAAC TATAAGCAGC CGAATCAACA CTCAACCAAA AGAAAGGCCG GAAGAACCGA TGACAACGCC ATTACCCAGC CGATCTGAGC GTATTCTTTT GGTTGAAGAC AATACGGTCA ACCAAAAAGT CGCCTCTCTA CTTCTGAGTA AGGCGGGATA TCAATTTGAA ATCGCTGAAA ATGGTCAGAT CGCCTTGGAC ATGTTCCAAC AAGATAATAG CTTCGACATC ATCTTAATGG ATTGCATGAT GCCGGTGATG GATGGCTTCG AAGCAACTAA AGAGATTCGT GCATACGAAA AAGTTTCTGG TCTGCCTAAG ACCCCTATCA TCGCACTCAC AGCGAGTGTC GTAGACGATG ATATTCAGCG CTGTTATGAC TCTGGCATGG ATGCCTATGT ACCAAAACCA GTGAGAAAAG AAAAACTTCT TCATCAAATT GAAAGTGTGA TTTAA
|
Protein sequence | MVRSLSWNNL SVKHKLFSLV VLPIVLLLFL AGQQVHRLST QAQDLERAQL FSDYMDNVSF LYNLPNNGDV SDRELAIKSI TQSLNNEAKR IFADKGLEMA DLLSSIEEAS LSLTTTTDMN ERLDIAEWRA DTYKQILLAL EKVPFNDASY EIQAHLSALM QIEWLMFWSK EENRLSQYLI YSVEHNQFYD ADISSEIESL VKNQQLFLER FVTLNANQQQ VELLIDTFTN EVFVLSQEFR SFLFNEEALS TLPEAEVSAG LTALNGRLAL LKNVDNDISN QLKTDVGQAI TIANQQRLMF IAVMSFITIA VISLALRLVR KVTNNLQLVL EFLRRDSYSK ESPLRELIKG KDELSKFAQE VERLSYEREQ AKVKLTQAKE DAEQAKDDAI KASKAKSSFL ANMSHEIRTP LNGVIGISEV LSDTSLTATQ KDYVDTIETS SQLLLSLIND ILDFSKIESG MLLISPHSTC VRESIYDIAS IVSPKAKEKG INLKVSISRN TPYRLMIDDH RLRQVIMNFM SNAVKFTEKG SVHLSVTTHG VSGANAVMEF SVQDSGIGID EQQQKNIFEP FAQEDNSTTR QFGGTGLGLA ISTQLVELMG GKIQLESEKE HGSRFFFQIS PAIVHLGFDP KHAASQSQVW LVCEDAGMER ILRDELSFYQ IAVHQSVTHL GALPVWISDK ERVIVIYNET RPNSAMKNEA SFQRLEAQNV HICLVKHLHS DQFDFGENVS AIITQPLLGQ RLVKAIESCQ ARFSQTSLEA ASSKTSNANN KILVVDDNTV NQKIAGLHVT KAGYEFDIAA NGQEAVEMFA KNQYALILMD CMMPVMDGFE ATKRIRQLEK ESNRGYQIPI IALTASVVDD DIQKCFDVGM DDYVPKPFKA PILKDKLSKA VEASKSNVAI TPAVPSTISS RINTQPKERP EEPMTTPLPS RSERILLVED NTVNQKVASL LLSKAGYQFE IAENGQIALD MFQQDNSFDI ILMDCMMPVM DGFEATKEIR AYEKVSGLPK TPIIALTASV VDDDIQRCYD SGMDAYVPKP VRKEKLLHQI ESVI
|
| |