| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Mbar_A3036 |
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| Symbol | |
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| ID | 3624833 |
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| Type | CDS |
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| Is gene spliced | No |
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| Is pseudo gene | No |
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| Organism name | Methanosarcina barkeri str. Fusaro |
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| Kingdom | Archaea |
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| Replicon accession | NC_007355 |
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| Strand | - |
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| Start bp | 3908084 |
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| End bp | 3911227 |
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| Gene Length | 3144 bp |
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| Protein Length | 1047 aa |
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| Translation table | 11 |
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| GC content | 41% |
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| IMG OID | 637701878 |
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| Product | sensory transduction histidine kinase |
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| Protein accession | YP_306508 |
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| Protein GI | 73670493 |
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| COG category | [T] Signal transduction mechanisms |
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| COG ID | [COG2202] FOG: PAS/PAC domain
[COG3920] Signal transduction histidine kinase |
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| TIGRFAM ID | [TIGR00229] PAS domain S-box |
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Plasmid Coverage information |
| Num covering plasmid clones | 3 |
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| Plasmid unclonability p-value | 0.00386665 |
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| Plasmid hitchhiking | Yes |
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| Plasmid clonability | hitchhiker |
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Fosmid Coverage information |
| Num covering fosmid clones | 20 |
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| Fosmid unclonability p-value | 1 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGAAAGCTA GCATGAAACA CTTTCCTGTG AAAAACCCCA ATCCTGTACT TAGTGTTGAA
AAGGATGGTA CTGTTCTTTA CTCAAATGAG GCAGCTAAGA CCTTATTAAT CCGGTGGGAT
GTGAAAATCG GAGAAAAACT GCCTTCTTAT ATTGGAGATA TTGCGCAAAG GGTACTTTGC
CAGAATAGAC CCGAAAAAAT GGAAATTAAA GTGGAAAAAA AAGTATACTT GGTCATGTTT
CAGCCTTTAC CAGAAGAAGA GTATGTAAAC ATTTATGGAT TCGATATAAG TGACCAGAAA
ATGCTTGAAG AAAAACTTCG GGAGAGCGAG GAAAAATATC GCATTGTAGC AGATAATACC
TTTGACTGGG AATTTTGGCT GGGCCCTGAT GACCATTTAC TGTACATGTC GCCTTCTTGC
AAGCAGGTCA CAGGATACGC TGTCCGGGAA TTCATGGACA ACCCTGACCT GCTCCAAGAA
ATAATATATC CGGACGATCA AAAGGCATTT TTCCAGTACG AGCATGATAC GTCACCGGGT
CGTCATGGTG ATATCGAGTT TCGCATTATA ACTAAAGATG GCAAAATAAG ATGGATTCAC
CACCGGTACC AGCCCTTCTA TGACAGTAAG GGATGCTACG CTGGAAGAAG GGGCAGCAAT
CGCGACATCA CCGAGCGCGA TCAAGGAGAG CACCGGATTC GCAGATACAA CCGTGTTCTA
GAGGGAATCA ACTGGATCTT CAGCAATGTG GTGCAGGCAA AAACAGAAGA AGAATTGGGG
GAAGCATGTC TATCTGTAGC CCTGGAAGTG ACCGGCAGCG AGTTTGGTTT TATTATTGAA
ATGGGTTCTG ACGGGCTACT GCATGATGTT GCAAAAAGTG AGCTGGCATG GGAGCAGTGT
CGTATGTACA ATAAGACAGG GCATCTTACT CTTCCTAGAG ATTATGTTGT ACATGGCCTG
TACGGCAGTG TCATAATAAA CGAGAAAAGC TTCTTTACCA ATGATCCACA GTCGCATCCA
GACAGTAGAG GCTTGCCTGA AGGGCATCCG CCAATCACAT CGTTTCTTGG TGTTCCTCTT
GTCCAGGACG GAGAAACGAT AGGTTCAATT GCTGTAGCAA ACCGTGAAAG TGGCTATAGC
TACGAGCAAC AGGAGGACCT CGAAGCTATC GCGCCGGCTG TGACACAAGT TCTGCAGAGG
AGAAAGGTTG AACAGGAGCG TAAACTGGCT GAGCAAGAAT TAAAGGAGAG CGAGTTGCGG
TTTAAGGCAC TGGTGCAGGA TCTAGAATCC GGTGTTTTTC TCATTGATGG CGAAGGTAAA
TTTGCAATAT ATAACCCTGC ATTTCTGCAA ATTTTCAATG TCTCTGAACA AGAGCTTGAG
CATAAAGAGA TTCAAGATCT TAGTTGGGAT ATGTGGGATG TTGTTGATAA GGATGGTAAT
GCTCTGAGAT TTGAGTCTCA CCCAGTACAG TACGCCAGGA TTAATCGCAA GCCTGTAAAG
AATCAGGTCA TTGGCATACG TCGTTATTCG CACGATGATT GGGTATGGAC GCTTGCTAGT
GCCGAACCTC TGCTAAACCC TGATGGTAGC ATTAACATTA TAATTTGTAC TTTTACAGAC
ATTACACAAC TTAAGAATAC AGAAAATGCC CTTAAAATAG CAAATGAAAC ATTGGAAGAA
AAAGTTCAAG AACGTACCGT AGAGCTTGAA AAAGCTTACA GTACATTGAA AGAAAAAGAA
GAACTTCTTT CTGATGCTCA AGAAATGGCT CATATTGGAA ATTGGGAGCG GAACTTTGTA
ACTGGTAAAT TACATTGGTC TGATGAAATG TATCGGATTT TTGGACTTAA GCCTCAAGAG
TTTGAAGTAA ATTATGGCTT ATTTTTAAGT CACTTACATT CAGATGACCA AGATTATGTC
GATAATGCCG TTAAAGGAGC TTTAAGCGGA AAGCCCTTTA GTACTGATCA TAGAATAATT
TTAGCCAATG GAAAAGAGCG TATAGCCCAT TCCAAAGGTG AAACTGTTTT CGATAAGGAA
AATAATCCTG TCCGGATTAG AGGGACAACG CAAGATATAA CAGACCTTAG AATCGTTGAA
GAGAGGATTA AGACCCTGGC GAATATTGTG GAATCATCAC TGGACGCTGT AGGAACTTTA
TCACTTGATG GCATTATTAC CAGCTGGAAT AAAGGAGCAG AACGGGTTTA TGGTTATTCC
GCGGAAGAAA TTCTCGGAAA GCATGTATCC ATTTTAGCTC CACCTCATTT AGATAAAGAA
ACTCTGAAAT TAATAGAATT AATTAAACAG GGAGAAAAGA TTCACCAATA TGAGACTTTA
AGGTTAAGAA AGGACGCAAA GAAAATATAT GTCTCAATAA CTCTTTCTCC GGTTTTTGAT
ACTAATGAAA AGCTGACAGC TTTCTCGTTC ATTTCAAGAG ATATAACCGA ACGCAAAAAA
GCTGAAGAAG CTCTCAGAAA TTTCGAAATT GCCCGTAAGA AGGAATTACA TCACAGAATC
AAGAACAATC TTCAGGTTAT CTCATCTCTT CTGGATCTTC AGGCTGATTT GTTTAAAGGC
AGAAAGACTA TCACAGATTC GGAAGTATCG AAAGCTTTCA AAGAAAGCAT TGACAGAGTT
CTTTCTATTG CTCTTATACA TGAGGAATTG TACAAAGGTA AAAATATTGA TTTACTTGAC
TTTTCGCAAT ACATAAAGGA ATTAGCTAAT AATCTACTCC TAACATACAG TCTCAAGACC
GATGTTAGTT TAAATTTCGA TCTGGAAGAG AACATTTTCT TAGATATGGA TACTGCTATT
CCATTAGGGA TAGTTATCAA CGAAATTGTT TCAAACTCCT TTAAATATGC ATTTTCCGGC
AGGGATAAAG GAGAAATAAG AATTAAACTC CACAAAGAGG GAAACGGAGA ACGAAAGAAC
GAGGAATTTG CAAGTACGGC TTATGTCCTA TCCGTCGCAG ACAACGGCAT CGGTATACCC
GAAGACCTTA ACATTGAAGA CCTTGATAGC CTGGGACTCC AGCTTGTAAC TTCTCTTGTC
GACCAGTTAG ATGGAGAACT TGAACTGAAA GGGAATAATG GAACGGAATT TACTATAAAA
TTCACAGTGC CAGAGAATAA GTAA
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| Protein sequence | MKASMKHFPV KNPNPVLSVE KDGTVLYSNE AAKTLLIRWD VKIGEKLPSY IGDIAQRVLC
QNRPEKMEIK VEKKVYLVMF QPLPEEEYVN IYGFDISDQK MLEEKLRESE EKYRIVADNT
FDWEFWLGPD DHLLYMSPSC KQVTGYAVRE FMDNPDLLQE IIYPDDQKAF FQYEHDTSPG
RHGDIEFRII TKDGKIRWIH HRYQPFYDSK GCYAGRRGSN RDITERDQGE HRIRRYNRVL
EGINWIFSNV VQAKTEEELG EACLSVALEV TGSEFGFIIE MGSDGLLHDV AKSELAWEQC
RMYNKTGHLT LPRDYVVHGL YGSVIINEKS FFTNDPQSHP DSRGLPEGHP PITSFLGVPL
VQDGETIGSI AVANRESGYS YEQQEDLEAI APAVTQVLQR RKVEQERKLA EQELKESELR
FKALVQDLES GVFLIDGEGK FAIYNPAFLQ IFNVSEQELE HKEIQDLSWD MWDVVDKDGN
ALRFESHPVQ YARINRKPVK NQVIGIRRYS HDDWVWTLAS AEPLLNPDGS INIIICTFTD
ITQLKNTENA LKIANETLEE KVQERTVELE KAYSTLKEKE ELLSDAQEMA HIGNWERNFV
TGKLHWSDEM YRIFGLKPQE FEVNYGLFLS HLHSDDQDYV DNAVKGALSG KPFSTDHRII
LANGKERIAH SKGETVFDKE NNPVRIRGTT QDITDLRIVE ERIKTLANIV ESSLDAVGTL
SLDGIITSWN KGAERVYGYS AEEILGKHVS ILAPPHLDKE TLKLIELIKQ GEKIHQYETL
RLRKDAKKIY VSITLSPVFD TNEKLTAFSF ISRDITERKK AEEALRNFEI ARKKELHHRI
KNNLQVISSL LDLQADLFKG RKTITDSEVS KAFKESIDRV LSIALIHEEL YKGKNIDLLD
FSQYIKELAN NLLLTYSLKT DVSLNFDLEE NIFLDMDTAI PLGIVINEIV SNSFKYAFSG
RDKGEIRIKL HKEGNGERKN EEFASTAYVL SVADNGIGIP EDLNIEDLDS LGLQLVTSLV
DQLDGELELK GNNGTEFTIK FTVPENK
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