| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Pmob_0231 |
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| Symbol | |
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| ID | 5757303 |
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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 | Petrotoga mobilis SJ95 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_010003 |
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| Strand | - |
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| Start bp | 239898 |
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| End bp | 243023 |
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| Gene Length | 3126 bp |
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| Protein Length | 1041 aa |
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| Translation table | 11 |
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| GC content | 35% |
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| IMG OID | 641301429 |
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| Product | endo-1,4-beta-xylanase |
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| Protein accession | YP_001567298 |
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| Protein GI | 160901717 |
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| COG category | [G] Carbohydrate transport and metabolism |
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| COG ID | [COG3693] Beta-1,4-xylanase |
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| TIGRFAM ID | |
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| 
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Plasmid Coverage information |
| Num covering plasmid clones | 7 |
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| Plasmid unclonability p-value | 0.540515 |
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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 | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | ATGAAGGATT TATTATTTGT AGCATCATTG TTAGGTATTG GTTTACTGGC TGCTATTCTA
TTGGGAGGAT CAAGTGAGAC AAATAGTCTA AATGGATTTA TAAATCCAGG AGATTATGAG
ATGGTTTTGA ACTTCGAAGA ACCGGTTCAA ATTGAAAAAG TTGGAGAAGC AGTTTCGATT
ACAGTAGTAG ATGAATTTTC CTACGAAGCT CAAAAATCCT TAAAGATAGA GAATAGAACC
TCAGGATGGG AAGGAGCAGA AATTGATCTA ACAAAAGATT GGCAAATTTT TAATTCAGCT
AATTTCCAAA TTACTACTCG TATTTATCAA ACTTCTCCTG ATCCTCAATT ATTTAGGATA
GTAGCCTATA TAAAAGATAG TAAAGGGGAG CGCTTTGAAA CAATCGCAGA GAAGGTTGTG
ATGCCAAATT ATTGGAAGGA GATAAATGAA GAGTTCAAAT TTAGTTTTAA TGAACCTGTT
GAAAAATTTT CCCTGAGAAT AGTAACTCCT TTGGAAAGTA ACTTCACATA CTATATAGAC
AACTTTCAGA TTCTGGGAAC TAACAAAGTT GAAAGAGCAG GAGTGATCTC TAAGACAAGT
TTTGAAGACG AACAGCATAG TTGGGAACCA AGAGGAGATG AAGTCTCTAT TTCGCTATCT
AATGAAGTAT CCTATAGTGG GAAATATTCT TTAGCTGTTG AGGGAAGAAA AAGCAATTGG
AATGGCGCAC AAATAAATCT TGCAAAAACC TTAAAACCTG GAACCAGTTA TGATTTTGAA
ATATATGTAT ATCAAGATAC GGGGGAAGAT CAATTAATCA CTCTCACAAT GCAAAGAAAA
TACGCTTCTG ACGCTAATAC TAACTACGAC ACGATCTTAT GGCAAAAAAA GGTTCCTTCG
GATACATGGA CACAATTGAC AGGTTCTTAT ACCGTTAAAT CTGGAGCAGT AGTGGAAGAG
TTGATCTTTT ATATTGAATC ACCGAATCCT ACGCTCTCAT TTTATTTGGA TGATTTTTCA
ATAATAGATA AATCGATTCC TCTCTATGAA CCTGAATGGG AAATTATGGC TTTAAAAGAT
AAATATAAAG ACAATTTTGA TATAGGAGTT GCTATTCCTT ACAAAGTTCT AGTTAATCCT
CTTGAAATGA AGATGGTCGA AAAGCACTTT AACTCTATTA CCGCTGAAAA CGAAATGAAG
CCAGAAAGTA TTTTAATGGA GTTAGGAAGT TATGATTTTT CAGTTGCCGA TGAGTATATT
GAATATGCTA AAGAAAAAGG GATAAAAGTT CGCGGACATA CTTTAGTCTG GCACAATCAA
ACACCTGAGT GGTTCTTTAA AGACGAAGAT GGAAATTTAA TTTCAAAGGA CGAGCTTCTT
TCAAGAATGG AAACTTATAT ACACGACGTT GTCGGACATT TCAAGGGAGA AGTATACGCG
TGGGATGTTG TCAATGAAGC CATTGATCCC AATCAACCAG ATGGTTATAG AAGGTCTCTT
TGGTATGAAA TCATGGGCCC AGAGTATATT GAGTATGCAT TCAAATTCGC TCATGAAGCC
GATCCAAACG CTAAGCTTTT CTATAACGAT TACAATACTT ACGAGCCAGA AAAGAGAGAT
TATATATACA ACATGGTAAA GGAATTAAAA GCAAAAGGAG TTCCAATTGA TGGGATTGGA
ATGCAAATGC ATATTGGAAT TGGAACGGAT CTCAGACAGG TTGAAGAGGC TATTAAGTTA
TTTAGTTCTA TTCCTGGTAT AGAAATTCAA ATAACTGAAA TTGATATGAG TATTTATACA
GATCAAGGAT CCAATTACAT GTCTCCACCA TACGAAGCCT TAGTTGAGCA AGGGTACAAA
TACCAAGAAC TTTTTGATAT CCTCAAAAAA TACGATGATG TTATAACCAG TGTAACTTTC
TGGGGTCTTA AAGACGACTA TTCTTGGAAA AATCAAACCA GAAATGATTG GCCGCTTTTG
TTTGATAAAG ATTATCAATC GAAATATGCA TATTGGGGAA TTGTAGAACC AGCTGTTTTG
CCAATTGTTC CAAAATCCAA TGCAATCTCT CAAGGTACCG CTATTCCATA TGGTATGTTA
GATGACGATT ATTTGTTTTC AAAACCAATA TTTATAAATG ATGAAAATGG AAAAGAAAAA
CTTAATGCCA GAATAATATG GGATGAAAAC AAATTGTTTA TTTATGGTGA AGTCTTTAAT
GAAACAAGTG ATGAAGAAGA TGGAGTGGCG ATATTCATTG ATCCTAGTAA TGCCAAGACA
CCTTACCTAC AAGAAGATGA TAGATGGGTA ATCATTCATC CAGATTGGAC TGTTGAGAAA
AATAAAGAAG ATGTGGAAGT TGAATATTTC GTTAGTCCAG GCTATAAAAA GTATTCTTTT
GAATGTTCCA TAAATCTTCC GAAAAAATTA GAAAAAGAGC AGAAAATTGG ATTTGACATA
GCAGTAATAG ACGGAGAGAA CATATATAGT TGGAGTGATA ATACAAATCA ACAGAAATCG
CAAACAATAA ATTATGGAGT ATTAACCTTG GAAGGTGCAT CCGTAGGAAC AGCAAAATAC
GGTACACCGG TTATAGATGC AGAAATAGAT GAGGTTTGGT CTCAAAACGA AGAATATATC
ACCGAAACTA TTGTATCGAG TAGCTCAAAT AACGCAAAAG CCAGCTTTCG AGTACTTTGG
GATGAAAATG CTTTGTATGT ATTGGCTATT GTTGAAGATC CGGTTCTTAA TAAAGAAAAT
ACAAACGCTT GGGAGCAGGA TTCATTAGAA ATATTCATAG ATGAAAATAA TAATAAAACA
GGTTTTTACG AAAATGATGA TGCACAGTAC AGAGTCAATT ACGTAAATAC CCCTTCATTT
GGTACGGGAG GCTCTGCAGC CAATTTTAAA ACTGCTACAA AGATTGTAGA AAATGGTTAT
ATAGTAGAAG CAGCAATTTC TTGGAAATTT ATTTCCCCAA GTGGAGGAGA AGTCGTTGGA
TTTGATGTTC AAGTCAATGA TGCAGGTGCA ACTGGAAGTA GAGTAGGTAT AACCACTTGG
AATGACCCAA CTGGGAATAA TTATCAGAGC ACTGTAAACT TTGGGAATAT TATTTTAGAA
AAATAA
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| Protein sequence | MKDLLFVASL LGIGLLAAIL LGGSSETNSL NGFINPGDYE MVLNFEEPVQ IEKVGEAVSI
TVVDEFSYEA QKSLKIENRT SGWEGAEIDL TKDWQIFNSA NFQITTRIYQ TSPDPQLFRI
VAYIKDSKGE RFETIAEKVV MPNYWKEINE EFKFSFNEPV EKFSLRIVTP LESNFTYYID
NFQILGTNKV ERAGVISKTS FEDEQHSWEP RGDEVSISLS NEVSYSGKYS LAVEGRKSNW
NGAQINLAKT LKPGTSYDFE IYVYQDTGED QLITLTMQRK YASDANTNYD TILWQKKVPS
DTWTQLTGSY TVKSGAVVEE LIFYIESPNP TLSFYLDDFS IIDKSIPLYE PEWEIMALKD
KYKDNFDIGV AIPYKVLVNP LEMKMVEKHF NSITAENEMK PESILMELGS YDFSVADEYI
EYAKEKGIKV RGHTLVWHNQ TPEWFFKDED GNLISKDELL SRMETYIHDV VGHFKGEVYA
WDVVNEAIDP NQPDGYRRSL WYEIMGPEYI EYAFKFAHEA DPNAKLFYND YNTYEPEKRD
YIYNMVKELK AKGVPIDGIG MQMHIGIGTD LRQVEEAIKL FSSIPGIEIQ ITEIDMSIYT
DQGSNYMSPP YEALVEQGYK YQELFDILKK YDDVITSVTF WGLKDDYSWK NQTRNDWPLL
FDKDYQSKYA YWGIVEPAVL PIVPKSNAIS QGTAIPYGML DDDYLFSKPI FINDENGKEK
LNARIIWDEN KLFIYGEVFN ETSDEEDGVA IFIDPSNAKT PYLQEDDRWV IIHPDWTVEK
NKEDVEVEYF VSPGYKKYSF ECSINLPKKL EKEQKIGFDI AVIDGENIYS WSDNTNQQKS
QTINYGVLTL EGASVGTAKY GTPVIDAEID EVWSQNEEYI TETIVSSSSN NAKASFRVLW
DENALYVLAI VEDPVLNKEN TNAWEQDSLE IFIDENNNKT GFYENDDAQY RVNYVNTPSF
GTGGSAANFK TATKIVENGY IVEAAISWKF ISPSGGEVVG FDVQVNDAGA TGSRVGITTW
NDPTGNNYQS TVNFGNIILE K
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