| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Mhun_3130 |
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| Symbol | |
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| ID | 3923958 |
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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 | Methanospirillum hungatei JF-1 |
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| Kingdom | Archaea |
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| Replicon accession | NC_007796 |
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| Strand | - |
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| Start bp | 3410780 |
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| End bp | 3414037 |
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| Gene Length | 3258 bp |
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| Protein Length | 1085 aa |
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| Translation table | 11 |
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| GC content | 50% |
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| IMG OID | 637898739 |
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| Product | peptidase S8/S53 subtilisin kexin sedolisin |
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| Protein accession | YP_504535 |
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| Protein GI | 88604357 |
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| COG category | [O] Posttranslational modification, protein turnover, chaperones |
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| COG ID | [COG1404] Subtilisin-like serine proteases |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 11 |
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| Plasmid unclonability p-value | 0.446766 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | normal |
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Fosmid Coverage information |
| Num covering fosmid clones | 1 |
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| Fosmid unclonability p-value | 0.000357529 |
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| Fosmid Hitchhiker | Yes |
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| Fosmid clonability | hitchhiker |
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Sequence |
| Gene sequence | ATGATGAAAC AACTAACATT CATTTTCATT TCTCTCTTGA TTATCAGTAT GGGTTTACAT
ACGGTTGCGG CGACTTCAGA TCCATTTACT CCCGTTCTAT CGACGGTGGT CAAACCTCCA
GATGTGGGAG TTCCAACATA TCATTCCCCG CCATCGATAG TCGGTCCGGT ACCGCAAGTG
GCTGGCCCAC CGGTTAGTAG ACCAGTTATG AGCATTGTCC AGTCCCCAGT GATGAGCAGT
ACAATGTCAG GTCTGACGCC AACAGAGCAG AGTGGATTGT CCATGAATAA TACTCTTAAT
AATTCGTTGG AGAGCCCTGA ATATGCACCT GACCGGGTTA TTGTTAAGTT TAAATCTGCT
TTAGGCTCTG AAAAGTCATC CTTAAGCCAG GTACAGGCAG AAGCACATGC AGCCATGGGT
GCCACGGTGA TAGCTGATTC AAAAACTCTT GGCGTGGAGG GTATGCAGGT CGTCAGTGTT
CCAAACTCTA CCGGGACCAT GAAAGCAATC GAGCTGTACC GGATGAACCC GATGGTTGAG
TATGCACAGC CGGATTATGT GTATCAGGCA TATCCGGTTG AAAAGATCCA CATCCCCGTG
AATGTAAATC AGAATGCCGT TTCATACCGT GATTCTATTG TTCAGGGTAA GGTGAGTACC
CCCTCTGGAG GGCCATCTCC CGCACCCTCT GATCAGAATG ACCATCCCTC GGCACCTCCA
TCCAGTGTAT CTGCTGGTGC CATTTCTACG ATGAATGAGA CGGAAGGATT TGGATACATG
CGGTTGTCTC TTGAAGATAT TGCACAGATC CAGAGCGATT ACAATGCCGC TGTTAAGGTG
GAAAATGCGC CTCTCTCTAC CACGTTGGGG AGTAAAAGCC TTCTTTCCAA TATCCAGTAC
ACCCCATCGG AGCGGAACCA GGGGAACTGT GGGAACTGCT GGGTATGGGC TTCAACCGGG
GTTATCGAGA ATGCCCTGAC CGTTCAGAAT GGGATAAAGG ATCGACTGTC AATACAATAT
TTTGATTCGA ATTATAATGG CGGAAGTGCA ATAACCGGTG CATGCAATGG CGGATGGGCC
AGCACGTTTG CAAATTTCCA CAGCACCTCC GGATTTAAAC AGGTTATCCC CTGGTCAAAT
ACCAATGCCT ATTACAATGA CCGGTATGCC TGCTCATATG GATGCGGGGC ACAGACCCCT
GCCTCAAGTA TTGCAACCTC TCCGAACTAC CCGATAACCA GCATTTCCAC CAGCTGGATA
TCGACAAACG GAGTCTCACA AGCACAGGCT ATTGCCAATA TCAAGGCACA GATCGATGCA
AACAAAGCGG TCTGGTGGGC GTTTTTCCTT CCGGACAGTT CATCGTGGTC TGCATTTAAT
TCATTTTGGG CATATCAGAC CGAATCGACT CTCTGGAATC CGGATCCGTA TAACAATATC
GCTTATGGAT CATCCGGAGG TGGTCATGCG GTTGTCATAG TCGGTTATGA TGATACCAGC
AGTGATCCAA ACCAGCGGTA CTGGTTAGTC CTGAACAGCT GGGGCAGCAA TTCTAAGCGC
CCGAATGGTC TTTTCAGACT TAAGATGAAC ATGGACTACA GCGGAAAGTC GTCCCAGGGG
TACCAGAATC ATTACTTTTC AATCTTCAAC ATCAACTACG GGATAACTGC CCAGACTGGA
TCAATAAGTG TATCCTCCAG TCCGTCCGGG GCCCAGATCT GGCTTGACGG GGCCAATACG
GGGAAGGTAA CTCCGAATAC CCTCACATCC GTGACTGCAA CATCCCATAC CGTCACGGTG
AAACTGACCG GGTATACAGA TTATTCTACC TCGGTTACAG TTCCATCCGG TGGGACTGCG
ACAGTATCGG CCACTCTTAC TGCAGTTCCA AAAGGATCGA TATCAATAAG TTCAAATCCG
ACTGGTGCGG CCGTGTATCT GGATAGTGAG GCAAAGGGAG TTACCACTCC TACCACTTTG
AGTGATGTTC CGGCAGGAAC TCATACGATC AGGCTGACCA AAACCGGGTA TCAGGACTGG
TCACAGAGTG TGTCGGTCAC TTCAGGTCAA ACGACACCCG TCAGTGCAAC GATGACTGCT
GTTTCACCAG GGGGCCAGGT CATTCCAAAT GATCCTTCGT TCTCTTCCCT GTATGGTCTC
CATAATACCG GACAGACGGG GGGAACTGCT GATGCAGATA TTGATGCCCC TGAAGCCTGG
TCCTATGTGA CCGGGTCATC TGATGTCATT GTTGCTGTGG TGGATACCGG GGTTGACTAT
AATCATCCGG ATTTAGCAGC AAATATGATT GCCGGGTATG ATACCCGGAA TAATGATAGT
AATCCGATGG ATGATCACGG TCATGGGACC CATTGTGCGG GTACAATAGG AGCGGTCGGG
AACAATGGTA TTGGGGTCGC TGGTGTGAAC TGGAATGTGA AGATCATGCC ACTCAAGTTC
CTTGATTCAT CCGGGTCAGG ATATACCAGT GATGCGATTG AGGCCTTTGC CTGGGGATAC
TCCCGAGGAG TGAGAATCTT CTCAAATTCA TGGGGTGGAA GCGGAATTGA TACCGCTCTT
CAGGATTCTA TCAGCAGTAT GCCGGATGCT CTGTTTATCT GTGCAGCGGG GAACAGTGCA
CTCAATACTG ATACAAATCC ACACTCACCC GGTTCACTGC CAAATGCGAA TATCCTCACC
GTTGCAGCAA CCGACTCACG CGATGTACTC GCTTCGTTCT CAAATTATGG AGCAAGCACG
GTTGATGTTG CAGCTCCTGG TGTGAGTATT TACAGCACCT ATCCGGGGAA TCGATATACT
ACCATGTCCG GGACCTCGAT GGCAACTCCC CATGTTGCTG GTGTTGCGGC ATTACTTAAG
GCAGCAAATC CTGCGCTGAC AATGGATCAG ATAAAGACAG CAATCATGAA TGGTGTGGAT
GTAAAGAGCG GTTTATCCGG GAAATGTGTG ACCGGGGGCC GGGTCAATGC ATATACCAGC
GTTCGTGCGG TGTCCCAGGT TCTCGCGAAA TTCTATGGGG TGCCGGAAAC GGTGGTTTAT
CCTCTGACTA TCAGGTTTTA TGATGTATCA GAGGGATCAG TGGCATCCCG GACCTGGAAC
TTTGGTGATG GGAACACCTC CACGGTTCAG AACCCGGTTC ATACGTTTTA TAATCCGCAG
ACCTACACCG TCACATTGCA GGTCAGTAAT GGAGTTCAAG GAGTAAGCTC AGTTTCGAAC
GAGGTCGGGG GGCTCTAA
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| Protein sequence | MMKQLTFIFI SLLIISMGLH TVAATSDPFT PVLSTVVKPP DVGVPTYHSP PSIVGPVPQV
AGPPVSRPVM SIVQSPVMSS TMSGLTPTEQ SGLSMNNTLN NSLESPEYAP DRVIVKFKSA
LGSEKSSLSQ VQAEAHAAMG ATVIADSKTL GVEGMQVVSV PNSTGTMKAI ELYRMNPMVE
YAQPDYVYQA YPVEKIHIPV NVNQNAVSYR DSIVQGKVST PSGGPSPAPS DQNDHPSAPP
SSVSAGAIST MNETEGFGYM RLSLEDIAQI QSDYNAAVKV ENAPLSTTLG SKSLLSNIQY
TPSERNQGNC GNCWVWASTG VIENALTVQN GIKDRLSIQY FDSNYNGGSA ITGACNGGWA
STFANFHSTS GFKQVIPWSN TNAYYNDRYA CSYGCGAQTP ASSIATSPNY PITSISTSWI
STNGVSQAQA IANIKAQIDA NKAVWWAFFL PDSSSWSAFN SFWAYQTEST LWNPDPYNNI
AYGSSGGGHA VVIVGYDDTS SDPNQRYWLV LNSWGSNSKR PNGLFRLKMN MDYSGKSSQG
YQNHYFSIFN INYGITAQTG SISVSSSPSG AQIWLDGANT GKVTPNTLTS VTATSHTVTV
KLTGYTDYST SVTVPSGGTA TVSATLTAVP KGSISISSNP TGAAVYLDSE AKGVTTPTTL
SDVPAGTHTI RLTKTGYQDW SQSVSVTSGQ TTPVSATMTA VSPGGQVIPN DPSFSSLYGL
HNTGQTGGTA DADIDAPEAW SYVTGSSDVI VAVVDTGVDY NHPDLAANMI AGYDTRNNDS
NPMDDHGHGT HCAGTIGAVG NNGIGVAGVN WNVKIMPLKF LDSSGSGYTS DAIEAFAWGY
SRGVRIFSNS WGGSGIDTAL QDSISSMPDA LFICAAGNSA LNTDTNPHSP GSLPNANILT
VAATDSRDVL ASFSNYGAST VDVAAPGVSI YSTYPGNRYT TMSGTSMATP HVAGVAALLK
AANPALTMDQ IKTAIMNGVD VKSGLSGKCV TGGRVNAYTS VRAVSQVLAK FYGVPETVVY
PLTIRFYDVS EGSVASRTWN FGDGNTSTVQ NPVHTFYNPQ TYTVTLQVSN GVQGVSSVSN
EVGGL
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