Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Mbar_A3535 |
Symbol | |
ID | 3627557 |
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 | 4533808 |
End bp | 4537179 |
Gene Length | 3372 bp |
Protein Length | 1123 aa |
Translation table | 11 |
GC content | 37% |
IMG OID | 637702361 |
Product | hypothetical protein |
Protein accession | YP_306984 |
Protein GI | 73670969 |
COG category | [R] General function prediction only |
COG ID | [COG0388] Predicted amidohydrolase |
TIGRFAM ID | [TIGR01435] glutamate--cysteine ligase/gamma-glutamylcysteine synthetase, Streptococcus agalactiae type |
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Plasmid Coverage information |
Num covering plasmid clones | 11 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 18 |
Fosmid unclonability p-value | 0.878105 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGTTGGAGA GTTTGAGAGA TTCAGCAGTA AACCACTTAA AAGAAGCTTT AGAGCTAATG CAAAAAAATC AAAATGAGGA AGCCTTAAAA GCACTTGAAA AAGCTGAAGA AGCCGCACGT CATGAGAAAA CAAATGACAT TTTTCTCTAT GTTCAGACTT TAAAAGGACA TCTAATGCAG GCAGTAGGGG CATATGAAGA AGCTCTGAAT ATTCATTCCC TTGCTTTAAA AATTGCTGAA GAACTTATCT CAACAGATCC TGATAACGAG CTTTACCAGT CAATCCTTCA GATGAACCTT GACGAAATTA TTACTCTTGG AAATATTTTG TATAACACGG GACGTTTTCT TCAAGCAAAA AATTGCTATG AGCTACACCT TCAAATCTCT CAATACCTTC TCGCAACTGA CCCCGAAAAC GTATCTTACC AATCAGATGT AGCAATGACA CTCAACAATT TAGGTGCCTT GCTTAAAAAT ATGGGGCGCA TTGAAGAGGC TAAACAAAGG TACGAAAACT CACTCGAAAT TTATGAAAAC CTTCTCGCAA CCGACCCCGA AAACGTATCT TACCAATCTT ACGTAGGAAC TACACTAAAC AATTTAGGTG CCTTGCTTTC TGATATGGGG CGCATTGAAG AGGCGAAACA AAGGTACGAA AACTCACTCG AAATTTATGA AAACCTCCTC GCAACCGACC CCGAAAACGT ATCTTACCAA TCTTACGTAG GAACTACACT AAACAATTTA GGTGCCTTGC TTTCTGATAT GGGGCGCATT GAAGAGGCGA AACAAAGGTA CGAAAACGCA CTTGAAATTT ATGAAAACCT CCTCGCAACT GACCTCGAAA ACGTATCTTA CCAATCTTAC GTAGGAACTA CACTAAACAA TTTAGGTTCT TTACTTTCTG ATATGGGGCG CATTGAAGAG GCGAAACAAA GATACGAAAA CGCACTCGAA ATGAGGCAAA ACCTCCTTGA ACATGACCCC GAAAACGTAT CTTACCAATC TTATGTAGGA ACTACACTCA ACAATTTAGG AAACTTGCTT TGGAATATGG GGCGCATTGG AGAGGCTAAA CAAAGGTACG AAAAAGCACT CGAAATCTAC TCCGAACCTA TGCAATACCT GACGATAGGT AGAAAATCCC ATTCGATAAT GAAGCTTATT GAGTTAAATA CAGAACAGGC AAAATCTGAA ACCAATTCTC ACCGCCAGAT TAAGTATCTG GAAGAAGCTT ACCAACTCTG CAAAAAGAAT CAGGAATTTT TTAGCAAATA TGGGCTGAAG CATGAAAAGA AGTTGGTGAT GGAAGCAGGT CTCAGTGCTT ATGTAGATTA TGTTATAAAG GATATTAGAG AGGAAAAAGA CTCGGAAAAA AGGGCAGAGG GATACGAAAA GGCGATTAAA GCAATTGAAA AGTTGGGGAA AATTGAGGAT GACGAAGAAA TTGAAAAAAC TGCTTATTCT ACTGTTTGTT ATCTTGAAGG AAGAAAACTG GTCAACGAAG CCCTTGGCTC TGAGCAACCG GATCTGGAGT TAATCAAGCA AGCTACAAAT CAGTTCAAGG ACGCGAAGGA AACTTACAAA AAGACAAATG TTTGTTACTG CATTTATATT GGGTTGCTTA AAATCCTTGA AAATGTAGAG CTTTTTGAAG AGGAAAATGG CTCTAAAGCT AAAGAAATAA TTAATCAAGT AATCGAAATC CTTCCCGAAA ATATTGATCC AGGAATAAAA GGTGCATTTG AAGAAATTGC AAAAATATTT GATGAAAAGG ACATAAAGAG CCGCAAAAAG CATCTGGAAG AATTTGACGG AAAAATAAGA GCTATTGAGT ATAAAGCGCT TGAGAATTTG TTTGGGCGTG TTCAAAAGAA GCTCAAAGAT TACATAGAGG AGCCTTTCAG CCCTAACCTT TTTTATAACA ACTGGAAGCT CAGAATTACA TTTGATGCCG AAAAGATAAA AGATAAATTG ACCGTAAAAA CAGCAAATAC GATTATTTTC AACCGTGCAC TGAGCAAGGA AGAAATTAAA GACAATGAAA TTGAAATTGA TTTTCTGGAA AGAAGGTATA TTCCCAGTGG TGAAGATAGA ATTATCTTTG AAACTCCAAC CCAGAAACCA GTGATAAGAG ATATTGATTA CTCAGAAACA ATAAGTAAAA ATAAAAAAGC TCGAATCTTT TTGCATGATT GCTTCAACGG TGTCTGTACC GCAGGGGATT TGAAAGTTGC AGTTGTACAG TTAAGATACG ATGTTTATGG TGAAGACTAC GCAGTAAAAG TTCTGGAAAG TGAAGCCTAT AAAAGAAAAG TAATGGCAAT ACTTGAGGCT GTCAAAGAAG AAGCTGATAT TATTGTATTC CCTGAATTTT CGATACCTTT TGACTACCTC GAAGACATAC AGAACTATGC TAATGAAACC GGGATAATTG TTTTCGCAGG TACACACTAC GTTACGGAAG AAAATCTTGA AAAATATGAG AAATTGTTTG CTTCTGACTT TGGAGAAGAA GATTTCCGGA AGAATATCTG TCCTGTTGTA ATACCTAACT CTAATATAAT ACACAGCGAA AAGATGTTTG GAGCAAAGGA AGAACGTGAC CTATTTTTTC ACAAAGGCAT GAAACAGGGA AAATTGAACC ATATTTTCAA GTTGCGGGAT AATCTTAATC TTGGAGTTCT TATCTGCTTC GAATACCTCA ATGACGAACT GAGACACCGC CTGATTTCTG CCTGTGATAT AATTCTTGTA CCTCAGACAA ATCCCAAACC TTCAAGATTC TATGGTGTTG CAAAGAATGA TCTAAACAGC CCCCTTTGTG CCGGAAATAA GGCGTTTTTA ATGGCTAATG GTGTTTTTAG GATAGGAAAA ACGAAAAAGG ACGTTGAGAA ATGGCTATCC GGTCTGGAAA ATGAAATTGA GGGAGGATCA TCCGGTGTTC TGCTAACTCT CGATAAAGAC TCATATAAAA TGCAGGATGA GGGAATAATC TCCCACGTTA AATACCAGAA AGAGCAGTTT ATTCTACTGG CTACCATAAA TACTCAATTT TCCGCTTCAA GAGACGTGCA AGCCGGACAT GAGCCAATAA AAACATCGTT TATACATATT TTTGAAGAGA AAGAAATACG CCTCATCAAA AGCGAAAATA TCACCAGAGA GAATACAGAA GAATTTTTGG CTCTGATAGG GGATATTAAT TTTTGTAAAG ACCGAAAAGA AATTAAAACT CTGATAGAAA AAAACAGCTC TCTAATTGAA AAATACTCAC CGCTTATGCA TGAAAATATT AAGAACCTGA ATAATCTGGA TTTTGAGGAT ATAAAGGAAA AATGCCGATG CATTCTTATT CCAGCTAGCT AA
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Protein sequence | MLESLRDSAV NHLKEALELM QKNQNEEALK ALEKAEEAAR HEKTNDIFLY VQTLKGHLMQ AVGAYEEALN IHSLALKIAE ELISTDPDNE LYQSILQMNL DEIITLGNIL YNTGRFLQAK NCYELHLQIS QYLLATDPEN VSYQSDVAMT LNNLGALLKN MGRIEEAKQR YENSLEIYEN LLATDPENVS YQSYVGTTLN NLGALLSDMG RIEEAKQRYE NSLEIYENLL ATDPENVSYQ SYVGTTLNNL GALLSDMGRI EEAKQRYENA LEIYENLLAT DLENVSYQSY VGTTLNNLGS LLSDMGRIEE AKQRYENALE MRQNLLEHDP ENVSYQSYVG TTLNNLGNLL WNMGRIGEAK QRYEKALEIY SEPMQYLTIG RKSHSIMKLI ELNTEQAKSE TNSHRQIKYL EEAYQLCKKN QEFFSKYGLK HEKKLVMEAG LSAYVDYVIK DIREEKDSEK RAEGYEKAIK AIEKLGKIED DEEIEKTAYS TVCYLEGRKL VNEALGSEQP DLELIKQATN QFKDAKETYK KTNVCYCIYI GLLKILENVE LFEEENGSKA KEIINQVIEI LPENIDPGIK GAFEEIAKIF DEKDIKSRKK HLEEFDGKIR AIEYKALENL FGRVQKKLKD YIEEPFSPNL FYNNWKLRIT FDAEKIKDKL TVKTANTIIF NRALSKEEIK DNEIEIDFLE RRYIPSGEDR IIFETPTQKP VIRDIDYSET ISKNKKARIF LHDCFNGVCT AGDLKVAVVQ LRYDVYGEDY AVKVLESEAY KRKVMAILEA VKEEADIIVF PEFSIPFDYL EDIQNYANET GIIVFAGTHY VTEENLEKYE KLFASDFGEE DFRKNICPVV IPNSNIIHSE KMFGAKEERD LFFHKGMKQG KLNHIFKLRD NLNLGVLICF EYLNDELRHR LISACDIILV PQTNPKPSRF YGVAKNDLNS PLCAGNKAFL MANGVFRIGK TKKDVEKWLS GLENEIEGGS SGVLLTLDKD SYKMQDEGII SHVKYQKEQF ILLATINTQF SASRDVQAGH EPIKTSFIHI FEEKEIRLIK SENITRENTE EFLALIGDIN FCKDRKEIKT LIEKNSSLIE KYSPLMHENI KNLNNLDFED IKEKCRCILI PAS
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