Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Cyan7425_2699 |
Symbol | |
ID | 7288633 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Cyanothece sp. PCC 7425 |
Kingdom | Bacteria |
Replicon accession | NC_011884 |
Strand | + |
Start bp | 2647939 |
End bp | 2651238 |
Gene Length | 3300 bp |
Protein Length | 1099 aa |
Translation table | 11 |
GC content | 54% |
IMG OID | 643585688 |
Product | multi-sensor hybrid histidine kinase |
Protein accession | YP_002483407 |
Protein GI | 220908096 |
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 | [TIGR00229] PAS domain S-box |
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Plasmid Coverage information |
Num covering plasmid clones | 9 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 8 |
Fosmid unclonability p-value | 0.00117538 |
Fosmid Hitchhiker | Yes |
Fosmid clonability | hitchhiker |
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Sequence |
Gene sequence | ATGGCCCAGG ATCTAATTTC CAGTAGCTAT CAGTACAGCC AGCAGGCTGA AGAGGCCCTC CGCCTGATTG TGCAGGGAAC CGCCGCCAAG ACGGGGGATG ATTTTTTTCG CTGCTGTGTC CGCTATCTGG CTGAAGTCCT GCAGGTTCGC TGTGCCCTGG TGACGGAATG GGCCAACCTG GAACAAACTC GAGTTCGTAC CCTGGCGTTC TGGATGGACG GGGCCCACCA GGAGGATATT GAGTACGAGC TGCAGGGAAC CCCTTGTGAA CACGTCGCTT CCGGCAAAAA AGTCTTTTTC TATCCCCACA GTATCCGGGC CCTCTGTCCT GATGATCCTT ACCTGGAAGA GTTTGGGGCC GAAAGCTATC TGGGCATTCC CCTTAGCAAT TCGGCGGGTG AGATGCTGGG CTATCTGGCC GTCCTGGATA TCAAACCGAT GCAGCCAGAT CCGGGGCGAG AACTGATTTT GAAAATTTTT GCTGCCCGGG CCGGGGCTGA GCTGGAACGT AAATATGCAG AAATTGCTCT GAAAGAATCG CAAGCGGCTC TACTTAGCAG GGGACAACGA TTGCGCCGCC AACAGGAAGC CCTCCTTTCC CTGGCCCAAC ATCAAGTTCT CTACAACGGC GATCTCAACG CAGCCCTGCA ACTCCTGTCC GAAACCGCAG CTCAGGCCCT GGATGTGGAG CGGGTAAGCA TCTGGTTCTA TAACCCGGAA CGCTCCCAGA TATTTCTGAA GGATTTGTAT CAACTCAGCC GGGGAGAACA TTCCCATAGC GGTGAACTGC AATCCGATCG CTATCCTACT TACTTTGCCG CCCTGGAAGC GGAGGAGGTG ATTGCTGCGG ATCAGGCCCA GTCTGACTGG CGCACCCGCG AGTTTCTTGA CGATTGGCTC CTGCCCCAGG GGATCACCTC CATGATGGAT GTGCCCATTC GCTCCAGTGG TAAAACGGTG GGGGTGATCT GCCATGAACA TGTGGGGCCA CCGCGTCACT GGACGATCGA AGAACAAAAC TTTGCCAATT GTCTGGCCTA CATGATTTCT CTAGCGATTG AAGCCCGCGA TCGGCAACGA TCTGAGCTAG CTCTGCGCCA GAGTGAAGAA CGGTTTCGCG CCATTTTTGA ACAGGCGGCG ATCGGCATTT TCCAGACCGA TGCCACGGGT AAATATATTC AGGTAAATCA GCGATTCTGT CAGTTTTCGG GCTATTCCGC CGATGAACTG TTGCAATTGC GCATGCAGGA CATAACCCAT CCTGTCGATC TGCGGCGCTG TCTGGAACTG CGAAATGCGC TGTTTAGTGG GGAACTGCAA TCCTTTAGTT TAGAAAAGCG ATTGCGGCAG AAATCCGGGC AATGGCGCTG GGCTAATGTA ACGATCTCAG CCGTCCAGCA TCCCGATGGT TTTCCCTGCA CGATTGGGGT GATTGAGGAT ATCAGTGAGC GTAAACAGGC GGAAGCTCAG CGCCAATCGG CCGACTCTTT TCGCCGGGCT TTGATTGACC GGGCAGCAGA GGGAATCTGT ATGTGCCATG GGATTGAAGA GTTTCCCTAT GTCCGCTTTA CCGTCTGGAA TCAGCGGATG GTCAGCCTCA CGGGCTACAC GATGGAGGAA ATCAATCGGC TGGGCTGGTA TCAAACCCTC TATCCTGATT CAGAAATCCG GGAGGCCGCG ATCGAACGGA TGTCCCGGAT GCGGCAAGGG GAAGATCTGA TGGCAGAAGA ATGGACAATT ACGCGGGCGG ATGGTGAACA GCGGGTCGTT TGCATTTCTA CCTCTCTCAT CCCCGGTGTC GAGGGGGACT ACCATGCCCT GGCGGTGATG CAGGATATTA CTCAGCGCAA ACATACAGAA CTGGCCATGC AACAGGCTAA GGAAGCGGCG GAGGCAGCCA ATCAGGCCAA GAGTGCCTTT CTGGCCCACA TGAGCCATGA ACTGCGCACC CCCCTGAATG CGATTCTCGG CTTTGCCCAA CTGATGGAGC GAGATACCTT GCTGACAACC GCTCAAAAAG AATCGCTGTC GATTATTAAC CGCAGTGGTG AACACCTGTT GGGGCTAATT AACGATGTGC TGGAAATGTC CAAAATTGAG GCGGGCCGCA TTGTTCTGCA TAAAGCCCAA TTTGATCTCC ATCGGCTGCT GCAAACCCTG CAGGAAATGT TTCGGGTGCG GGCCACAGCG AAGGGGTTAG TTTTGACTAT GAACCTATCG CCAAGCCTGC CCCAATTGAT TATCAGTGAT GAAGGTAAAC TACGGCAGGT GTTGATCAAT TTGCTCAGCA ATGCGGTCAA ATTTACGGAT GTCGGTCATA TTACCCTGAC AGCAAACTAT GCGGACGACC CTGACCCACG GTTGTGGTTT CAAGTGGAAG ATACGGGGCG GGGAATCGCG GCCGCAGAAC AACACCATTT ATTTGAACCG TTTGTCCAAA CCACTACGGG AGCCAATGCT CAAGAGGGAA CGGGCTTGGG GCTGACCATT AGCCACCAGT TTGTCCAGCT CTTGGGGGGT GAGCTGCGGG TGGAGAGTGA AGTGAATCGG GGGTCTACCT TTAGCTTTGA TCTGCCGGTG GAATTACCCT ATGGCGCGAT CGCCCACATC CCTGTACCGA CGGGCCGGGT GGTTGGTTTG GTCCGTGGCC AGCCAGACTA TCGCATTCTG GTGGTGGACG ATCGGGCTGA AAACCGCGAA CCCTTAGTCC AACTCCTGAG TAGCGTTGGC TTTTCCACTC GTACCGCTAC GAATGGCTGG GAAGCGATCG CCCAGTGGCA GGACTGGCAA CCGGACCTGA TCTGGATGGA TATGCGAATG CCGGCATTGG ATGGCTATGC GGCCACCGCA CAAATTAAAG CCCAGTCCCA GGGAGCGAAA ACTATCATTA TTGCCCTCAC CGCTGCAGCC TTTGAGGAAC AACAACAACA GATTTTTGCG GCTGGTTGCG ATGATTTTGT CCGTAAGCCC TTTCACGAAG ATGTGATCTT TGCCAAAATG GGCGAGCATT TACAGGTTCG TTATCTCTAT GCTGAGGATC AATCGGACCA TCGTGACCCG GCCCATTCCA AAGCTGCACA GGGACCAAGC CCAGACCTGC TCAGTGTGAT GTCCCCAGAT TGGATTGAGC AATTGCACCA GGCCGCGATC GCCGCTGATG GAGGACAGAT TGAACAGTTA TTAACACTAA TTCCCGCCTC TCATGCAGAA CTGGCCGATC GGCTAACTGG CTGGTTAAGC GAATTTGATT TTGATCCAAT CCTTGAATTG ATTGAATCTC TAAAAGGAGC CAAGTATTAA
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Protein sequence | MAQDLISSSY QYSQQAEEAL RLIVQGTAAK TGDDFFRCCV RYLAEVLQVR CALVTEWANL EQTRVRTLAF WMDGAHQEDI EYELQGTPCE HVASGKKVFF YPHSIRALCP DDPYLEEFGA ESYLGIPLSN SAGEMLGYLA VLDIKPMQPD PGRELILKIF AARAGAELER KYAEIALKES QAALLSRGQR LRRQQEALLS LAQHQVLYNG DLNAALQLLS ETAAQALDVE RVSIWFYNPE RSQIFLKDLY QLSRGEHSHS GELQSDRYPT YFAALEAEEV IAADQAQSDW RTREFLDDWL LPQGITSMMD VPIRSSGKTV GVICHEHVGP PRHWTIEEQN FANCLAYMIS LAIEARDRQR SELALRQSEE RFRAIFEQAA IGIFQTDATG KYIQVNQRFC QFSGYSADEL LQLRMQDITH PVDLRRCLEL RNALFSGELQ SFSLEKRLRQ KSGQWRWANV TISAVQHPDG FPCTIGVIED ISERKQAEAQ RQSADSFRRA LIDRAAEGIC MCHGIEEFPY VRFTVWNQRM VSLTGYTMEE INRLGWYQTL YPDSEIREAA IERMSRMRQG EDLMAEEWTI TRADGEQRVV CISTSLIPGV EGDYHALAVM QDITQRKHTE LAMQQAKEAA EAANQAKSAF LAHMSHELRT PLNAILGFAQ LMERDTLLTT AQKESLSIIN RSGEHLLGLI NDVLEMSKIE AGRIVLHKAQ FDLHRLLQTL QEMFRVRATA KGLVLTMNLS PSLPQLIISD EGKLRQVLIN LLSNAVKFTD VGHITLTANY ADDPDPRLWF QVEDTGRGIA AAEQHHLFEP FVQTTTGANA QEGTGLGLTI SHQFVQLLGG ELRVESEVNR GSTFSFDLPV ELPYGAIAHI PVPTGRVVGL VRGQPDYRIL VVDDRAENRE PLVQLLSSVG FSTRTATNGW EAIAQWQDWQ PDLIWMDMRM PALDGYAATA QIKAQSQGAK TIIIALTAAA FEEQQQQIFA AGCDDFVRKP FHEDVIFAKM GEHLQVRYLY AEDQSDHRDP AHSKAAQGPS PDLLSVMSPD WIEQLHQAAI AADGGQIEQL LTLIPASHAE LADRLTGWLS EFDFDPILEL IESLKGAKY
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