Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Mhun_1349 |
Symbol | |
ID | 3923002 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Methanospirillum hungatei JF-1 |
Kingdom | Archaea |
Replicon accession | NC_007796 |
Strand | + |
Start bp | 1537204 |
End bp | 1540539 |
Gene Length | 3336 bp |
Protein Length | 1111 aa |
Translation table | 11 |
GC content | 46% |
IMG OID | 637896986 |
Product | multi-sensor signal transduction histidine kinase |
Protein accession | YP_502808 |
Protein GI | 88602630 |
COG category | [T] Signal transduction mechanisms |
COG ID | [COG0642] Signal transduction histidine kinase [COG2204] Response regulator containing CheY-like receiver, AAA-type ATPase, and DNA-binding domains |
TIGRFAM ID | [TIGR00229] PAS domain S-box |
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Plasmid Coverage information |
Num covering plasmid clones | 11 |
Plasmid unclonability p-value | 0.444762 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 8 |
Fosmid unclonability p-value | 0.501062 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGATCCATA TCCTCTATGT AGATGATGAA GAACTCCTTT TGGACCTTGC AAAACTATTT CTTGAGAGGA GCGGAGAATT TGTCGTTGAC ACCTCAATAA CTGCTGTGGA TCTTGCAGAA TCACCATCAA TCAGATCCTA TGATGCCATC ATATCAGATT ATCTGATGCC TGATATGGAT GGTATCGAAT TTTTAAAAAA AATCAGGGAG AAATATCCGG AAATGCCCTT CATCCTCTTC ACTGGCCGGG GGAGAGAAGA GGTAGTTATT GAAGCCATTA ATAACGGGGC TGATTTTTAT CTGCAGAAGG GAGGAGACCC GAAAGCCCAG TTTGCTGAGC TCAGTCACAA GGTCATACAG GCAGTGAAAC GAAGACAGGC TGAAAAAGAA CTCCTTGAAT CAGAGCAGCA GTTTTCAAAG GCGTTCCATG CAAATCCTGC AATTGCGGGG CTGTCTGATC TTGCAACCGG CAGATATGTT GATGTGAATG ATGCATTTCT CGAGCGGTTA TCATATACAC GGGATGAGGT CATTGGAAAA ACGTCTCTGG AACTCAATGT CCTGACACCA GAGAAACGAA AAGAACTTAT CCATGAACTG GAGACCAAGG GGCATCTTCA CAATTACGAG ACCGAAATCA GGACCCGTAC AGGAGAAATT CTCCATGTCC TCATATCAGG CGATATCATA CTCTCTGGTG AGGATAAACT CCTGCTTGTC CAGGCGGTAG ATATTACCGA TCGGATAACC AGTGAAGAAG CGCTCCGTGA GAGTGAATAC CGGCTTCGTT CCTTTATTGA AAATACAGCA GATGCAGTCA TTCTGATCGA TGAGGAAGGA GAGATTATCG AATGGAATCC TGCTGCTGAA AGAATTTCAG GCATTTTAAA AGATGAAGCA CGGGGGATGA AGGCATGGGA CATTATGCCC CGGATGATGC TCCCAGAAAG AAAAACCAGG CACCATCTGG AAGAGATGGA GGCACGGATA AAAGAATCCC TGAAAACCGG AATACCGGCA TCACAGCAAC CGGTCATTTC GGAGATCATC GGCCCGGACG GTTTAACCAG ATATATTCGA CAGGTCACCT TTCCTATCCC GACCAGTAAG GGGTACAGGT TTGGAATCAT CATAGAGGAT ATAACCAGAC AAAAAATCAC TGAGGAACAG GCCGAAAGAA ATCTCTTAAA TCTGCAGAGA AGCCAGAGCA TAGCCCATGT GGGCACCTGG ACGCTTGATA TTGCCACCCA ACGGTTCTCT GCATCTGAAG AAGCCCTGGC CTTGTTTGGA TATCCACCCG ATTCCACCCC TTCATTAGAT GAAATTGTCC ACATGATCCA TCCCGAAGAC CGGATACGGA TACGGGATGT ATTCGAAAGT GCCCTCTCAA CCGGGAAGTC CTACAATACC GAGATGAGGA TCATTCTCCC GAAAACTGGA GAGCAACGCT ATCTCTACTC ATTTGGAGAG GCTGAAACCG ATGAAGAGGG CAGGCCGGTC AGGGTATTTG GTGTCAATCA GGATATTACC GAACTGAAAA AGACATCATT CGCTCTTAAA GAGCAGGAGA ACCAGTTCAG ACATATTATT GACAACCTTC CCATATCCAT AAGCATAGTC ACTCCTGATG GCACCATCCG GTATGCAAAC CCCCAGGCAA TGACTCTTTT TGAATTTTCC AGCATGGATG AACTGTACAA TACCAAGGCT CCTGATGTCT GGGCTGACCC GGGGCGGCGT CAGCTCTGGC TTGAAACCCT TCAAAAGAAT GGCATTGTCA CAAACTTTGA GATGGATCTG AAGACCCCGT CAGGAAAGAA ATTCTGGGCG ATTGGATTTG GGATTTTTAT CACCTATGAA GGTGAGATGT GCATATTGTC AGCTCACCAC GATATCACTG ACCGGAAACG TGCAGAGGAT GAACTCAAAA AGCGTGAAGA ACAGTATCGA TTTATAACCG AGAATTCCAT CGATGTCATC TGGACCATGG ACCTTTCAGG CCGGTTCACC TATATCAGCC CCTCTGTCTG GCATCTCCGG GGATATACAC CACAGGAAGT GATGGAAAGT ACTCTGGAAG AGACCATAAG CCCATCATCC ATTGACATGG TAAAGAAAAT ACTAGAGGAT GCACAGATGC TGATAAAACA GGGAATGGCT GTACCCCAAC AAACCTTTGA GGTTGAACAG CCCTGTAAAG ACGGATCCAG CGTGTGGACC GAGGTAATTG CAAGACCACT CTATGACAAA TGGGGCGATC CCATCGGGTT TATCGGAGTC AGCAGGGATA TCACGAAACG AAGAGAGGCA GAAGAGACGT TACGGGACAA TGAGATAAAG TTCATCTCAA TATTTAACCA GACTCCTGAC CCCATCCTTA TCATAGACAG TTCCGGGAAA ATTCTTGAAG TAAATCATGG ATTTCATGAC ATGTTCGGCC TTTCTGATGC CGATGTTCTG GGAAAACAGG TGGACGCGAT ACCGGCGGTA TCTGCAGTGG CGGGAAGCGA TATTCTTAAA GAACGGACCG GGAGAGGCGA TGAGGTATAC CGAAAGGAGA TGATACTCAC AAACCGGATG AATACACAGA TCATTGCCGA GGTTGCATGG TCACAATTAC TTATTCATGG TCAACCCTGT CTGCTTATTC AGATTCATGA CATCAGTGAG ATCAGAAAAG CCCATGATGC TGCCCAGAAG GCAAATAATA AACTCAACAT CTTATCGAGC ATCACCCGTC ATGATATCCT CAACCGGGTC ATGATTGCAT CGCTTTATAG TGATGAGATC AAAGAATCAG TATCAGATCC CACCATTCTG AAGTATCTGA ACGCCATCTC TCAGGCGTCA GCGGATATTG AACACCTGAT CAGGTTTACC AAAGAATACC AGGACCTGGG AACGGCAGCT CCTGCATGGC AACAGATCCA GTCGGTATTC AGTCAGCCGG GAATCATCAA TCTCACAAAA GGCATCAGAA TTGACTCATA TCTCGGAAAG CTAGAGATAT ATGCAGATCT CATGCTCGAG AGAGTGCTTT ATAATCTGGT TGAGAACTCA GTCAGGCATG GACAGAATCT CACTCATATC ACAGTAGCAT ACGAAGTTCG GGACACCGAC TGCATCCTCA CCTATGAAGA TGATGGCGGT GGTGTTCCGG TAGAAGAGAA GGAAAAAATA TTTGAAAGGG GGTTTGGGAA AAACACAGGA ATGGGATTGT TTTTAATCAG GGAGATTCTC TCAATCACCG GGATAGAGAT CCATGAGACC GGCATCTATG GTTCAGGTGT ACGATTTGAG ATCCGGGTTC CATCTGGAAA ATGGCGCCAG GAATAG
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Protein sequence | MIHILYVDDE ELLLDLAKLF LERSGEFVVD TSITAVDLAE SPSIRSYDAI ISDYLMPDMD GIEFLKKIRE KYPEMPFILF TGRGREEVVI EAINNGADFY LQKGGDPKAQ FAELSHKVIQ AVKRRQAEKE LLESEQQFSK AFHANPAIAG LSDLATGRYV DVNDAFLERL SYTRDEVIGK TSLELNVLTP EKRKELIHEL ETKGHLHNYE TEIRTRTGEI LHVLISGDII LSGEDKLLLV QAVDITDRIT SEEALRESEY RLRSFIENTA DAVILIDEEG EIIEWNPAAE RISGILKDEA RGMKAWDIMP RMMLPERKTR HHLEEMEARI KESLKTGIPA SQQPVISEII GPDGLTRYIR QVTFPIPTSK GYRFGIIIED ITRQKITEEQ AERNLLNLQR SQSIAHVGTW TLDIATQRFS ASEEALALFG YPPDSTPSLD EIVHMIHPED RIRIRDVFES ALSTGKSYNT EMRIILPKTG EQRYLYSFGE AETDEEGRPV RVFGVNQDIT ELKKTSFALK EQENQFRHII DNLPISISIV TPDGTIRYAN PQAMTLFEFS SMDELYNTKA PDVWADPGRR QLWLETLQKN GIVTNFEMDL KTPSGKKFWA IGFGIFITYE GEMCILSAHH DITDRKRAED ELKKREEQYR FITENSIDVI WTMDLSGRFT YISPSVWHLR GYTPQEVMES TLEETISPSS IDMVKKILED AQMLIKQGMA VPQQTFEVEQ PCKDGSSVWT EVIARPLYDK WGDPIGFIGV SRDITKRREA EETLRDNEIK FISIFNQTPD PILIIDSSGK ILEVNHGFHD MFGLSDADVL GKQVDAIPAV SAVAGSDILK ERTGRGDEVY RKEMILTNRM NTQIIAEVAW SQLLIHGQPC LLIQIHDISE IRKAHDAAQK ANNKLNILSS ITRHDILNRV MIASLYSDEI KESVSDPTIL KYLNAISQAS ADIEHLIRFT KEYQDLGTAA PAWQQIQSVF SQPGIINLTK GIRIDSYLGK LEIYADLMLE RVLYNLVENS VRHGQNLTHI TVAYEVRDTD CILTYEDDGG GVPVEEKEKI FERGFGKNTG MGLFLIREIL SITGIEIHET GIYGSGVRFE IRVPSGKWRQ E
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