| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Shewmr4_0723 |
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| Symbol | |
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| ID | 4251759 |
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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 | Shewanella sp. MR-4 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_008321 |
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| Strand | + |
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| Start bp | 842865 |
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| End bp | 845372 |
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| Gene Length | 2508 bp |
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| Protein Length | 835 aa |
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| Translation table | 11 |
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| GC content | 52% |
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| IMG OID | 638117286 |
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| Product | peptidase S8/S53 subtilisin kexin sedolisin |
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| Protein accession | YP_732860 |
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| Protein GI | 113969067 |
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| COG category | [O] Posttranslational modification, protein turnover, chaperones |
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| COG ID | [COG4935] Regulatory P domain of the subtilisin-like proprotein convertases and other proteases |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 8 |
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| Plasmid unclonability p-value | 0.172546 |
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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 | 34 |
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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 | ATGTCGATAA AACTCTCACC ACTGGCGTTA GCAATTGCAG GAGCGATGAC ACTGTCAGCC
GTGCCCGCTA TGGCAAAAGA TGCCCCTGTC TATGAAAAAG ATGCCATTCT CGTGGTGTAT
AAAGACAATG CGACGAAGGC GGAGCGCTCG GCGGCTCAGC GTTTAATTCG TGGCACCTTA
ACCGATGCCA ATGCGGACGG TGTCGATGAT AAGTTCCAGC ATTTACTCAA TGGCAAATTG
GCACGTTTAG CCCTGCGTAA GGGCGCCAAT ATTGAAGATG CGATTAAGGT GATTAGCCGT
CATCCGGCGG TGAAATATGC CGAACCTAAC TATATTCTTA AGGCGATAGG CACGCCTGAC
GATCCAAGCT TTGCTAGCCT GTGGGGCATG AATAACACGG GACAAAACGG TGGCACCGTC
GATGCGGATA TCGATGCACC AGAAGCGTGG GAAATCACTA CCGGCAGTTC GGATGTGGTG
ATTGGGGTGA TTGACACTGG GGTGGATTAC AATCATCCCG ATCTACAGAC CAACATGTGG
GTGAATGGTG GCGAGATCCC GGGTAACGGT ATCGACGATG ACGGCAACGG CGTGATCGAC
GATGTTCATG GTTACAGCGC GGTCAACAAT AACGGTAACC CAATGGACGG TAACGGCCAC
GGTACACATG TGTCTGGCAC TATTGGCGCT AAAGGCAATA ACGGCGTGGG TGTCGTTGGG
GTGAACTGGG ACGTTAAAAT CGCCGCCTGT CAGTTCCTCG ATGCCGATGG TTATGGTTCT
ACCGCAGGCG CGATTGCCTG TTTGGACTAC TTTACCGATC TTAAGGTTAA TCATGGCGTG
GATATCAAAG CTACCAACAA CTCTTGGGGC GGCGGCAGCT TTAGCCAAGC ATTAAAAGAT
GCGATTGAAG CGGGTGGTGA AGCAGGCATT TTATTTGTTG CAGCAGCAGG TAACGATGCG
GTCGATAACG ATGCCAGCCC ACATTATCCC TCAAGCTACG ATTCGGATGT GGTGTTGTCT
ATTGCCAGTA CCGACCGTAA TGACCGTATG TCAGATTTCT CCCAGTGGGG CTTAACCAGT
GTTGATATGG GCGCGCCTGG CACGGCGATT CTGTCAACCA TCCCAGGCGG TGGCTATGCC
ACTTACTCTG GTACCTCAAT GGCGACGCCC CACGTGACAG GTGCGGCGGC ACTCGTGTGG
TCATTAAATC CAGATCTCTC GCCAGTAGAA ATGAAATCCT TACTGATGGC GTCGGGTGAT
GCGAATGCGG ACCTCACTGC TAAAACCGTG GCAGGTACGC GCCTCAATGT GGCAAATGCC
TTAGAGCAGG CAAACCCATC TCCTAGCTAT AAGTTTACAG TATCGCCAGC ATCGCAATCG
GTGGAAGCGG GTAACACGGC AAGTTATAAC TTTAGTGTCG GTAGTGTGGC AGGGTGGGAA
GGTGATGTGG CTCTTAGCGT AGCCGTGTCT CCAGCGCTTG AAGGCGTATC CTTATCAGCC
TCAACTGTTT CTGCGGGTGG TTCATTTACC TTAGATGTTG CGACAACGGC GCAAACTGCT
TGGGGTGATT ACAGCATCAC AGTAACAGGT ACCGATGGCA CCATTGAAAA GTCTAAAGTC
GTTTCACTGA ATGTGTTCCC TCAGGGATTA AATGACTTTA GCTATGGCAA TGAAAACGCT
GTTGCTATCC CTGATAACAA CGCTAATGGC GTGGTGAGCA CTATCGACGT GACCGACGAT
GTGCAGATTT TTGGTGTGAC CGCCGATGTG AATATCAGCC ACACTTGGAT TGGTGACTTA
CGTGTCGTGT TAACCTCTCC AGCGGGTACC GAAGTGGTTC TGCATAACCG TGAGGGCGGC
AGCGCCGACA ACATCGTTAA GAGCTGGGAC TTAAGCGCGT TTGACGGTGA AAATGCCCAG
GGTACTTGGT CATTATCTGT TGACGACAAT GCGGGCGCGG ACACGGGGAC CCTGAATAAC
TGGGGCTTAG TGATCAGCGG TTTAGGTGAA GCCTCTCCTG CGGCACCTGT TGCAGGTTTC
GAGTATGCGG TTGAAGGCTT AAGCGTTGCC TTTACTAACA CTAGTACCGA TGCAAACGAT
GATATCGTGA GCTATAGCTG GGATTTTGGT GATGACACAA ACTCTAGTGA AATGAACCCA
AGCCATGTGT TTGCTGCCGC TGGTACCTAC AGAGTGTCGC TTACCGTGAC TGACGCCATG
GAGCATAGCA ACACTGTGAC CATGGAAGTG CAAGTGTATG AGCATAGCAT CAGTGCTGCT
GTGACTCGTG CGTTAGTCTC TCGCCGTGGC AGTGCTATGG TTGACCTCAC ATGGGATAGC
GCTTTAGGTG AAAGCGTCGC CCTGTACCGT GATGGCGAGT TAGTGGCCAC GACTGAAAAC
GATGGTAACT ACCGCGATCG CTTCACAACG ACGGCATCGA GTGTGACGTA CCAAGTGTGT
GAAACCACAG GCTCACTCTG TTCTGCGGCG GTTGTCGCGC AGTTCTAA
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| Protein sequence | MSIKLSPLAL AIAGAMTLSA VPAMAKDAPV YEKDAILVVY KDNATKAERS AAQRLIRGTL
TDANADGVDD KFQHLLNGKL ARLALRKGAN IEDAIKVISR HPAVKYAEPN YILKAIGTPD
DPSFASLWGM NNTGQNGGTV DADIDAPEAW EITTGSSDVV IGVIDTGVDY NHPDLQTNMW
VNGGEIPGNG IDDDGNGVID DVHGYSAVNN NGNPMDGNGH GTHVSGTIGA KGNNGVGVVG
VNWDVKIAAC QFLDADGYGS TAGAIACLDY FTDLKVNHGV DIKATNNSWG GGSFSQALKD
AIEAGGEAGI LFVAAAGNDA VDNDASPHYP SSYDSDVVLS IASTDRNDRM SDFSQWGLTS
VDMGAPGTAI LSTIPGGGYA TYSGTSMATP HVTGAAALVW SLNPDLSPVE MKSLLMASGD
ANADLTAKTV AGTRLNVANA LEQANPSPSY KFTVSPASQS VEAGNTASYN FSVGSVAGWE
GDVALSVAVS PALEGVSLSA STVSAGGSFT LDVATTAQTA WGDYSITVTG TDGTIEKSKV
VSLNVFPQGL NDFSYGNENA VAIPDNNANG VVSTIDVTDD VQIFGVTADV NISHTWIGDL
RVVLTSPAGT EVVLHNREGG SADNIVKSWD LSAFDGENAQ GTWSLSVDDN AGADTGTLNN
WGLVISGLGE ASPAAPVAGF EYAVEGLSVA FTNTSTDAND DIVSYSWDFG DDTNSSEMNP
SHVFAAAGTY RVSLTVTDAM EHSNTVTMEV QVYEHSISAA VTRALVSRRG SAMVDLTWDS
ALGESVALYR DGELVATTEN DGNYRDRFTT TASSVTYQVC ETTGSLCSAA VVAQF
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