Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Mbar_A3145 |
Symbol | |
ID | 3624381 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Methanosarcina barkeri str. Fusaro |
Kingdom | Archaea |
Replicon accession | NC_007355 |
Strand | - |
Start bp | 4049113 |
End bp | 4052403 |
Gene Length | 3291 bp |
Protein Length | 1096 aa |
Translation table | 11 |
GC content | 39% |
IMG OID | 637701986 |
Product | hypothetical protein |
Protein accession | YP_306611 |
Protein GI | 73670596 |
COG category | [R] General function prediction only |
COG ID | [COG3291] FOG: PKD repeat |
TIGRFAM ID | [TIGR01567] S-layer-related duplication domain |
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Plasmid Coverage information |
Num covering plasmid clones | 8 |
Plasmid unclonability p-value | 0.404826 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 13 |
Fosmid unclonability p-value | 0.106206 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGGGAACTA ATAACAAATT TTATTCAATA GTTTTAGCTT CAACAGCTTG TTTTTTAAGT TTAATTCTCA CTTCATCTAT GACTTCAGCT TCTTTCTCTA CAGACTATAG TGCTGAGATT CGTGGCCCAG TATACAACGC TTCTGATATT GACAATGTTA TCGATATTCT GGGTAACGGT GAAACTGTTA CAATCGACGC CACCCAATTT GCAGGATTTT ACTATGACCA TAATAATAAC GTGGCTACTG AATCTCTTTC CATTAAAGAT GTTGAAGGCA CTCAAGGCAA TGTTATCGGA GAACATGGTT TAGTCTATCA AACAACGATA CAGAATACTA ATTACAAGTT TGAAACTTGG AAAACATATC CTGTTATCGG CTTATTTGGA GAACCATATG TTCCACTTAA GCCTACCGAT GCTAGCAAGA TTGCCAAACT CGTTCTTGAT GACAATGAAA CTTACACACT TAGCATAGGC GATAGTCTTG ATTTAGGTCA AGGCTACACT CTTGAAGTCA AGCAGACTGA CATTGATGGT GAGAATACAT GGCTTGAATT TGATAAAGAC GGGCAATATG TAGATGATGA GATCATTGAA ACCGATGGCG ACGGCACCTG GACTTGCAAA CTTGATGATA TTCAGGGAGA AAATGATGTT ACTGTCCTAA AAGTCCATGT AAAGCAGGTA TTTCAAAATG CATCTAATAG TACTACTATG ATCGATGGTC TTTGGCTCAT TGACTATGCA AACTCTATAA ATATCCCTGA TGAATTAGAT AAACTCAATA ATGCTTCCGT TGATGGAAAA GTGATTTCCG AGAACGATCT GGAATATAAT ACTACCATCA AAACTACTGA CTACAACTAT TCAGATACAG CAGAAGGCTG GGATAAATAT CCCTTTATTT ACTTATTTGG AGAAAAATAT GTCCCGCTCA AGCCTACCGA TGCTAGCAAA CTCGCGAATC TTGTTCTTGA TAGTAATGAA ACGTACACTA TCAACACTGG CGATCTGATT AATTTAGGTC AAGGTTATAC TCTCAAAGTC AAGCGGGTGG ATATTGACGG TGAGAAAGTC TGGTTTGAAT TTGATAAAGA TGGACAATAT GTAGACGACG GGATCGTCTC AATTTATTAC GAAGTGTATA ACACTTGGAC TGTTGAACTC GATGGTATTC AGGGTGAAAA TGACATTGAT GTCCTCAAAG TCCATGTCAA GTATTTTCCC CAGGGTTCAA TAAATGGGGT TGTTAAGATA AATGGTCTTT GGCTTATCGA CTATGCAAAT GCCGTGGATA TCTATAGTTC CAATGAGTTT GGAAAACTCA ATGATGTTTC TATCAATGGC TCCACTCTTA GCATCTCAAA TAAATACGCT TTCACTCTAA CCAGAAATTC TGAACAGGAG ATTGCTAAAG GGATATACTT CAAGGTTGCT GACGTTTCTA TCAATGAATT AAGGTTCTAT ATCTTTAAGC AGCTCATAGA GCCAGGAACC TATGAAATAA GAGGACAGGT TGCCAAAGGT GGTAACGATT TTACGTGGGA TGCAAGAAAC TTTGCAGGCT TTTACTGTGA CCTCGATAAT AATATCATTA CAGAATCCCT TAGTGTCTCT GGAGTTGGCG GAAATTTGAT TCCTGAGGAT AGCCTGGAAT ATAAGACTAC TATCAAAAAA ATTGCATATA AATATGAAAA TGAATACAGT GGTTGGGACA CTTATCCTGT TATCGGCTTA TTTGGTGAAC CATATGTTCC ACTCAATTCT ACCGATGCCA GCAAGCTCTG CAAGCTCATT CTTGACAGCA ATGACGAGTA CATCCTTAGT AATGGAGATA TGCTTAGTCT AGGTCAAGGC TACTCCCTCA AAGTAAAGCA AATCGATGTT GACGGTGAGA AAATGTGGCT TGAATTTAAT AAAGACGGGC AATACATAGA TGATAGAGTA GTCTCAGTTG ATGGCGGTGG ATACAAAACC TGGACCTGCA AACTTGATAA CATTCAGGGT GAAAATAATG TTACTGTCCT CAAAGTCCAT ATAAAGCGGG TCTTCCAAGG TGATGTCAAC AGTACTACTA CTATTGATGG TCTCTGGCTT ATTGACTATG CAAACCCCAT GAGTATCCAG AGTTCAGATG AATTCGGCAG GCTCAACGAT ATTTTTATTA ATGGTACTAC TCTTAGCATT TCCAATAGGG ATGCCTTCAC TCTGACCAGG GGTTCTGATC AGGAAATTGG TCAGGGAATA TACTTCAAGG TTGCTAACAC ATCAGTCGCT GAACTCAGGT ACTACCCATT TGTTAAGAGG ATTATCGAAA AAAGTAACAG TAAGACGCTT CCTGTACCTG ACTTCAGCAC CAATGTAACA AGTGGTTATG CTCCTCTTGC TGTTCAGTTT ACAGACCTTT CTCAAAACTC AATAGGAAGG CTCTGGGACT TCAATGACGA CTGGCAGGGA GATTCGGCTG AGGCAGCTCC TATTTATGTG TTTACAAACA CTGGATCCTA TAATGTTAAC TTGATTGCAA TTAATGAAAA TGGAACTGCT GCAAAAACTG CTACAATTAC TGTACTGAAG AAAAGCTCCA GTGGAGGTAG TAGCAGTTCA AGTGGTGGTG GAGGCAGCGG CTCTGGAGGT TCCCCTGAGT CTGCAAGTAA TGTCCAAGTA AAGGAACTTT CACAGGCTTA TGTTACAAAT GGAAAATCTG TAAAATTTGA TTTCGTAAAT AATGCAACCT GCGTCGTGTA TGTGAGCTTT GATGCAAATA AAACTCTTGG CAAGACCACA ACAGTTGCTG AACAGCTTAA AGGAAAATCT GCTCTGGATT ATGGACTACC TTCAGGAGAA GTTTACAAAT TCTTTAATGT CTGGGTTGGG AATGGAGGTG TTGCAACCTC AAAGAACATA GAAAACCCAG TTGTTTGTTT CAAGGTTGAA AAATCCTGGA TAAATGACAA AAAGATCGAT AAATCTTCTA TTACTCTGAA CAGATACAAC GATGAAAAAT GGGAGCAATT CCCAGTAAAT CTTTCAGGAA AAGATGATAA ATTTCTGTAT TTCACAGCCA AAACTTCAGG TTTTTCTTCA TTTGCAATAA CTGGCATAGT GAAACCATCT GAAGAAACTG TAACGAAAAT AGAGGTTGAT TACCCTGAAA CAATTAATGA AAACAATACA GAGAATAAAG GACCACAAAA TAAACAAAAA GAAGTTTCGA GTATACCATG CTTTGGGATA TTTTACGGAA TAGCCAGTCT GTTTGCAGTA CTCCTGTATA AAAGAAAGTA A
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Protein sequence | MGTNNKFYSI VLASTACFLS LILTSSMTSA SFSTDYSAEI RGPVYNASDI DNVIDILGNG ETVTIDATQF AGFYYDHNNN VATESLSIKD VEGTQGNVIG EHGLVYQTTI QNTNYKFETW KTYPVIGLFG EPYVPLKPTD ASKIAKLVLD DNETYTLSIG DSLDLGQGYT LEVKQTDIDG ENTWLEFDKD GQYVDDEIIE TDGDGTWTCK LDDIQGENDV TVLKVHVKQV FQNASNSTTM IDGLWLIDYA NSINIPDELD KLNNASVDGK VISENDLEYN TTIKTTDYNY SDTAEGWDKY PFIYLFGEKY VPLKPTDASK LANLVLDSNE TYTINTGDLI NLGQGYTLKV KRVDIDGEKV WFEFDKDGQY VDDGIVSIYY EVYNTWTVEL DGIQGENDID VLKVHVKYFP QGSINGVVKI NGLWLIDYAN AVDIYSSNEF GKLNDVSING STLSISNKYA FTLTRNSEQE IAKGIYFKVA DVSINELRFY IFKQLIEPGT YEIRGQVAKG GNDFTWDARN FAGFYCDLDN NIITESLSVS GVGGNLIPED SLEYKTTIKK IAYKYENEYS GWDTYPVIGL FGEPYVPLNS TDASKLCKLI LDSNDEYILS NGDMLSLGQG YSLKVKQIDV DGEKMWLEFN KDGQYIDDRV VSVDGGGYKT WTCKLDNIQG ENNVTVLKVH IKRVFQGDVN STTTIDGLWL IDYANPMSIQ SSDEFGRLND IFINGTTLSI SNRDAFTLTR GSDQEIGQGI YFKVANTSVA ELRYYPFVKR IIEKSNSKTL PVPDFSTNVT SGYAPLAVQF TDLSQNSIGR LWDFNDDWQG DSAEAAPIYV FTNTGSYNVN LIAINENGTA AKTATITVLK KSSSGGSSSS SGGGGSGSGG SPESASNVQV KELSQAYVTN GKSVKFDFVN NATCVVYVSF DANKTLGKTT TVAEQLKGKS ALDYGLPSGE VYKFFNVWVG NGGVATSKNI ENPVVCFKVE KSWINDKKID KSSITLNRYN DEKWEQFPVN LSGKDDKFLY FTAKTSGFSS FAITGIVKPS EETVTKIEVD YPETINENNT ENKGPQNKQK EVSSIPCFGI FYGIASLFAV LLYKRK
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