| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Nther_2370 |
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| Symbol | |
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| ID | 6316868 |
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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 | Natranaerobius thermophilus JW/NM-WN-LF |
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| Kingdom | Bacteria |
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| Replicon accession | NC_010718 |
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| Strand | - |
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| Start bp | 2525222 |
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| End bp | 2528596 |
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| Gene Length | 3375 bp |
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| Protein Length | 1124 aa |
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| Translation table | 11 |
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| GC content | 43% |
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| IMG OID | 642644758 |
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| Product | peptidase S8/S53 subtilisin kexin sedolisin |
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| Protein accession | YP_001918523 |
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| Protein GI | 188586978 |
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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 | 17 |
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| Plasmid unclonability p-value | 1 |
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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 | 90 |
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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 | GTGGCAGTGG CAGCTATATT AACCTGCAGT ACCTTATTAT CGCCTGTAAC AAGTCCTAGA
CCGATTGAGG CGGCCAGGGA TAAAAATTGG GAATATAATA GTCATGAAGT TGCGGACAAA
ACTTCGCGTG ATATAGAACT AGCTGGTGCA GAAGGAGCAG AAAAAAATAC CCCCTTAACA
AACCTGGTCG ATAGGGAGGG TAAAGGAGCT TCTTCATTAG ACGAACTCTT AGAACTATAT
GAAGTTGAAA CTCTAACAGA TTTAGATGAA GAATTGATTT TGGTTGCCAA GATAAAACAG
GGAGAGGGAA GTGATCATAA AGAAATTATC TTGGAAAAAG GTAATTTGTC CGAAAAGACA
AAATCCCATG GAATAAACCT GAAAGTCAAT CACGTGTATA GTGAAGTTTT CTCAGGCTTT
TCATTCCAAG TAAGCAGAGA TCAATTACAA GATTTATTTG AATTATCATG GATCGAGGAA
ATTCATCCGG TAGGTATGGT AGAAACAAAA GGTCATCGAG TGTATCCCCA GATGGAAGTA
GAACGGGGAT GGCAACTTCG TCCTGGCTCC TCCTTGAAAG GTGCAGGAGT AAATGTAGCA
ATTTTAGATA CAGGTGTAGA TTATACACAT TCTGCTTTAG GAGAGGGTTT TGGTGACGGG
CATAAGGTAG TTGACGGTTA CGATTTTGTA AATCGGCGGC GTTATCCCAT GGATGATGAG
GGACATGGTA CCCACGTGGC AGGTATAATA GCTGCTGACG GAGAATTTCA GGGAATTGCC
CCTAAAGCGA ATATTTTAGC CTATAAAGTA TTAGATGAAC ATGGAGAAGG TTCTACAGAT
GATATTTTGG CTGCCCTAGA TCAGATTGTT CGTGATAGGC GTCGTGGTAG TGCCAATGCT
GCCGATATAA TTAATATGAG TTTTGGTTCC AGGCAAGAAT ATGTGGGTTC ATTAATTGCT
GATGCCCTGG AATCGGCTGT GGATGAAGGA ATTAGTGTAG TCATGGCTGG GGGGAATGAA
GGACCGCGTT CGTCCACTCT TGACTTTCCC AATTACTTTC CCCAACATAA TGATTCCATC
ATTACGGTGG GATCATCAGG TGCAGGTGCC CAGGAAGTCA ATATTTCAGC TTCGGGAATT
AGTGGTTTTA TTTATGGTGA ACTGATGTTG TACTCACCTG CACCCGATAT AGATGGATCT
GCCAGGATTG AGTACATCGA AGGTGGGAAT AATTACAGTG ATTTTACCAA TTGGGCTGGT
GAAAGTTATG TAGAAGATAA GATTGCTCTG GTAGAACGGG GAGAAGGTAC TTATAGAGAG
ATGGCCGAAA ATGCCGCTCG AGCGGGAGCA AAGGCACTGA TTATATATAA TAACGATCCA
GGAATGTTTT ATGGTTCCCT GGTAGAACCA AAAGATTATA TACCTACTAT ATCAATTTCC
AGAGGAGATG GCTTGGAAAT CAGAAACCAG CTGAATGAGG GTAATGTTTG GGTCAGAATG
AGTAATAATT CGCGAATCGC CAACTTTAGC TCTCGGGGAC CTTCCAGTGA GTCAACTGTG
AAGCCTGATC TTGTAGCTCC TGGTAAAAAT GTTATGAGTA CCTGGACTCA AGACGATTAC
TCTTGGTCTG AAGGTACTAG CGTGTCAGCA GCCTTTGTAT CCGGGACCGT GGCCTTAATG
CGCCAGCACA ATCCCGGCTG GTCTCCAGAT TGGGTGAAAT CAGCATTGAT GAACTCTGCC
GAACCGTTAT CTGATTCTGC AGGTAGAAAC TATGATCCTA CAACTCAGGG AGCTGGTGAA
TTGAGGGTGC ACAGTGCCTT GAGCTCGCAA ACGGTGGTAC ATCCAGGGAG TTTGAGTTTT
GATAAAATTG ATTATCCGGG CTATCGATAT TACGATAGTG AACAATTGAC AATCTATAAT
AATAGTGGAA GTACAAGGCG ATATCGAACC AGGGTTAATT TCCTAAACGG CCATGAGGAT
TTGGATATTG ACCCAAAATC AAATACTTTT TTTGTATCAG GGGGTAGCAA GCGTGAGCTG
GATTTGGAAC TATCTGCTGC TACAGACAGT CTTCCTGCTG GGGAGTACCA AGGTTATGTG
GAAATAGATG ACTTGACTTC TGCCAGAACA TTTAGCATTC CCTTCCTGGT AGTTATGAAA
GAAGGTCAAG ACCATAATGT AGGCCTAGAA ATTTCACCCT ATGCTGTTAG CCAGGAACAG
CATGCTAATA TCAATGTCAG AATATCTGAC GCCCTTGATC GCCTTGATAT TGAACTCTAT
GATGAAGACC AGAATTATAT CGAGAGATTA CATAGCAGAA CGAGTACACT AGGACCGGGA
CGTCATATAT TGAGTTGGCG AGGTCAATTG AGTAGTGGTG AACCTTTGGA TGATGGATTT
TATTATCTCC AGGCTAATGC TCTTCCCCAG GGAAAAGATC CAACCCATGA GGACAATTGG
CTTAAAATAT CTCGAAAGAC CGCTGTAGAT AGAACAGCAC CTGAAATTGA ATTAGATGAA
CAAGTTGAAG ACCTGTACGG AGAACAAGGG GAGGAGACTA TTTTGGTTGA TACCTCTCCT
TATTCTTTAA CAGGGCGGGT TGAGGATCTA TCACTGGAAA TCAGTCCCCA AGAACTAGAA
TTGAAAATAG ATGGCGAGAA AGTCGATTTA GATAGAGATG GTAAGTTTCA GCATCAGGTT
AAACTTGATG AAGGATCTAA TATGATTGAT TTGAGAGCCG AGGATTGGGC CAAAAACTCG
ACTGAATTGG AGCTTGAAAT TATCTACGAT CCCCATGATA TTGCGGTAAA GCTTCATGAT
CAAGAGCTGT CTCTGCCTGT ACCACCTATC TTGGATGATG GTAGAATACT TTTACCAGCT
ACATCTATAG TTCAGGCATT GATGGGTGCA GACATGTTAT CCAGCTTGGA TGCCGAACAG
GACCCGGGCG ACGACGAATT TGTTGAAATT TCCCGCCAGG GCCAAATTTT GAAATTGATC
AGTGGTGAAG ATACTATGTA CCTTGCAGAC AGTTCAGTGG AAATGGAAAG AACGCCTCGG
GTGGTTGACG GACATTTCTT TGTCCCATTG AAAGAAATTG CCATACCTCT GGGGATCCAG
CTAGCTTGGG ATGAAGACGA GCGGGCAGTC TTAATAGAAG ATACTACTAC CGAGATTAGA
TACAGACACC ACATGGGAAA AGGCAGTTAT TCCGTGTCTG ATATAAACGT ACCTTGGACT
GTAGTTATGA GCAGGGGATA TCTTCTAGGC AGGTTTTTAC AAGATGCCTA TAACCTTAGC
AGCAATCCGG CTTTAGAAAG TAAATTTAGA AGTCCCTTTG TTGATCAATA TTTAGAAAAT
ATAATTATAG AATAA
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| Protein sequence | MAVAAILTCS TLLSPVTSPR PIEAARDKNW EYNSHEVADK TSRDIELAGA EGAEKNTPLT
NLVDREGKGA SSLDELLELY EVETLTDLDE ELILVAKIKQ GEGSDHKEII LEKGNLSEKT
KSHGINLKVN HVYSEVFSGF SFQVSRDQLQ DLFELSWIEE IHPVGMVETK GHRVYPQMEV
ERGWQLRPGS SLKGAGVNVA ILDTGVDYTH SALGEGFGDG HKVVDGYDFV NRRRYPMDDE
GHGTHVAGII AADGEFQGIA PKANILAYKV LDEHGEGSTD DILAALDQIV RDRRRGSANA
ADIINMSFGS RQEYVGSLIA DALESAVDEG ISVVMAGGNE GPRSSTLDFP NYFPQHNDSI
ITVGSSGAGA QEVNISASGI SGFIYGELML YSPAPDIDGS ARIEYIEGGN NYSDFTNWAG
ESYVEDKIAL VERGEGTYRE MAENAARAGA KALIIYNNDP GMFYGSLVEP KDYIPTISIS
RGDGLEIRNQ LNEGNVWVRM SNNSRIANFS SRGPSSESTV KPDLVAPGKN VMSTWTQDDY
SWSEGTSVSA AFVSGTVALM RQHNPGWSPD WVKSALMNSA EPLSDSAGRN YDPTTQGAGE
LRVHSALSSQ TVVHPGSLSF DKIDYPGYRY YDSEQLTIYN NSGSTRRYRT RVNFLNGHED
LDIDPKSNTF FVSGGSKREL DLELSAATDS LPAGEYQGYV EIDDLTSART FSIPFLVVMK
EGQDHNVGLE ISPYAVSQEQ HANINVRISD ALDRLDIELY DEDQNYIERL HSRTSTLGPG
RHILSWRGQL SSGEPLDDGF YYLQANALPQ GKDPTHEDNW LKISRKTAVD RTAPEIELDE
QVEDLYGEQG EETILVDTSP YSLTGRVEDL SLEISPQELE LKIDGEKVDL DRDGKFQHQV
KLDEGSNMID LRAEDWAKNS TELELEIIYD PHDIAVKLHD QELSLPVPPI LDDGRILLPA
TSIVQALMGA DMLSSLDAEQ DPGDDEFVEI SRQGQILKLI SGEDTMYLAD SSVEMERTPR
VVDGHFFVPL KEIAIPLGIQ LAWDEDERAV LIEDTTTEIR YRHHMGKGSY SVSDINVPWT
VVMSRGYLLG RFLQDAYNLS SNPALESKFR SPFVDQYLEN IIIE
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