Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Shewana3_1443 |
Symbol | |
ID | 4479660 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Shewanella sp. ANA-3 |
Kingdom | Bacteria |
Replicon accession | NC_008577 |
Strand | - |
Start bp | 1671430 |
End bp | 1673859 |
Gene Length | 2430 bp |
Protein Length | 809 aa |
Translation table | 11 |
GC content | 51% |
IMG OID | 639726013 |
Product | peptidase S8/S53 subtilisin kexin sedolisin |
Protein accession | YP_869083 |
Protein GI | 117919891 |
COG category | [O] Posttranslational modification, protein turnover, chaperones |
COG ID | [COG4935] Regulatory P domain of the subtilisin-like proprotein convertases and other proteases |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 0 |
Plasmid unclonability p-value | 0.0000125277 |
Plasmid hitchhiking | No |
Plasmid clonability | unclonable |
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Fosmid Coverage information |
Num covering fosmid clones | 2 |
Fosmid unclonability p-value | 0.0000000821824 |
Fosmid Hitchhiker | Yes |
Fosmid clonability | hitchhiker |
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Sequence |
Gene sequence | ATGACAATCA ATCGAACCAC TAAGATAGCC CTGAGTTTAT CTAGCTTAGC TATTGCGATC TCGGCAGGTG TTAATGCTGC CCCAGACGCA CCAGGTTTTG CCGCAGCCAA ACAAGCACAG ACCTCTCCAC TGCCAAAGCG CTATATCGTT AAATTTAAAA ATGCCGATGC GCCAGCCTTG ATGTCTGAAA GCAGCCTGCA GAGCAGCGAT CAGCTTGCCA CCACAATGAA TTATCAGCCT CAAGTAGCTG AAATTAGCGC CCAGCACAGT GTGCTAAACA AGGCGCAAGC CAAAGAAATG AAGCGTATCG GCCGCAGTAA CAGCTACTCA GTTAAGCTGG ATAACAATGG CATTAAGGCA TTAAGAGCCC GCGCCGATGT GGAATATGTG GAAGAAGACA TGCCACGCCA CCTGCTAAGC GAAACAACGC CTTGGGGACA AACCTTTGTG GGTGCAACCC AATTAAGCGA CAGTCAGGCC GGCAACCGTA CCATCTGTAT TATCGACTCT GGTTATGACC GTGGTCATAG CGACTTAAGC GGAAACAATG TCACGGGCAC CAACAACTCA GGTACAGGTA ACTGGTACGA GCCAGGCAAT AACAACGCCC ATGGTACCCA CGTTGCCGGT ACTATCGCGG CGATCGCCAA CAACGATGGC GTGATTGGCG TAATGCCAAA TCAAAATGCC AACATCCATG TGATTAAAGT CTTTAACGAG GCTGGCTGGG GTTACTCCTC ATCACTGGTG TCAGCAGTCG ATACCTGTGT GGCGAATGGT GCAAACGTCG TCACCATGAG CTTAGGCGGC GCAGGTTCAA GCACTACCGA GCGTAACGCG TTAGCGGCTC ACTACAATAA CGGCGTACTG TTGATTGCCG CTGCCGGTAA CGATGGTAAC AATACCCACA GTTACCCTGC TTCGTACGAT GCGGTGATGT CTGTGGCATC GGTCGATAAT CATAAAGACC ACTCAGCTTT CTCTCAGTAC ACCAACCAAG TTGAGATCTC GGGTCCTGGT GAAGCCATTC TCTCTACCGT TACCCGCGGT GAGGGTCGCT TAGCCGATAT TACTATCGGT GGTCAGTCTT ACTTCAACTC AGGCGTTGTG CCGCACAATC GCTTTACGCC ATCGGGCACC AACTACGCGC CCAATCCATA CAATGGCACG GCAACCGCAA CCTTAGCCGA ATGTACGGTT AGCGGCTCAA CCTTCAACTG CGGCAACATG GCTAACAAGG TGTGTTTAGT TGAGCGTGTG GGTAACCAAG GCACTTCATA CCCAGAAATC AACGCAGTAA AAGCCTGTAA GAATGCAGGT GCCAGCGCCG TTATCGTGTA CAGTAACAGC GCCTTACCTG GGTTACAAAA CCCCTTCTTG GTCGATGCGA ACAGCGAAAT CAACATGGTG TCAGTGTCTG TTGACCGTGC AACCGGTTTA GCACTGCGTA ACCAGTTAGG TGCAACAGTG ACCGTAAGCA ACCAAGGCAA TAAGGACTAC GAGTACTACA ACGGTACGTC GATGGCGACC CCGCACGTTT CTGGTGTGGC AACCTTAGTG TGGAGCTACC ACCCAGAATG TAGCGCAGCT CAAGTACGTA ACGCGCTCAA ACAAACCGCT GAAGACTTAG GCACTGCAGG CCGTGATGAC TACTATGGCT ATGGTCTGGT CAATGCCGTT GCAGCGAAAA CCTTCTTAGA TGCTTCCTGT AATGGTCCAA CGGATCCGGT TGACCCTACT CCAACTGACA GCGTGTTGGT GAACGGTGTG CCAAAAACCG GTCTAAGCGG CGCCGCCAGT GAAGAACTGC ATTTCTCGTT TGAAGTGCCA CAGGGTGCAA CTAACTTAGG CTTTGTGATG AACGGTGGCA CGGGTGATGC GGATCTGTAC GTACAGTACG GCGCAGCGCC AACGACCTCA AACTACGATT GCCGTCCATA TAAAGGTGGT AACAGTGAAT CTTGCCCAAT CAGCAACGTT CAATCTGGTA CTTACTACGC GATGGTGAAA GGCTATTCAG CCTTTAGCGG TGTATCGTTA ACCGCAAGCT ACACAGCCCA AAGCGGTGGT GGTACTCCTA CCACGCCAGC AAGTTACACC AATGCTGATA ACTACAATAT TCCTGATAAC AAAACCGCAG GTATCACTAG CCCTATCACA GTCACTCGCA CGGGTAACTC AGGCACTGTG ACTGCCGTGG TGAATATTGT TCACCCTTAC ATTGGTGATT TAAAAGTGCA GCTCATCAGC CCTACAGGCC AAACAGCAAC ACTGCATAAC AACACTGGCG CAGGCGCAGA CAACATCAAC AAGAGCTACA CAGTTGATAT GACTGGCGTG GAGTCAAGCG GTGTGTGGAA ACTCAAAGCG GTTGATAGCG GCCGTGGCGA CGTAGGCTAT ATCGATAGCT GGGAACTCAA ATTCCAATAA
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Protein sequence | MTINRTTKIA LSLSSLAIAI SAGVNAAPDA PGFAAAKQAQ TSPLPKRYIV KFKNADAPAL MSESSLQSSD QLATTMNYQP QVAEISAQHS VLNKAQAKEM KRIGRSNSYS VKLDNNGIKA LRARADVEYV EEDMPRHLLS ETTPWGQTFV GATQLSDSQA GNRTICIIDS GYDRGHSDLS GNNVTGTNNS GTGNWYEPGN NNAHGTHVAG TIAAIANNDG VIGVMPNQNA NIHVIKVFNE AGWGYSSSLV SAVDTCVANG ANVVTMSLGG AGSSTTERNA LAAHYNNGVL LIAAAGNDGN NTHSYPASYD AVMSVASVDN HKDHSAFSQY TNQVEISGPG EAILSTVTRG EGRLADITIG GQSYFNSGVV PHNRFTPSGT NYAPNPYNGT ATATLAECTV SGSTFNCGNM ANKVCLVERV GNQGTSYPEI NAVKACKNAG ASAVIVYSNS ALPGLQNPFL VDANSEINMV SVSVDRATGL ALRNQLGATV TVSNQGNKDY EYYNGTSMAT PHVSGVATLV WSYHPECSAA QVRNALKQTA EDLGTAGRDD YYGYGLVNAV AAKTFLDASC NGPTDPVDPT PTDSVLVNGV PKTGLSGAAS EELHFSFEVP QGATNLGFVM NGGTGDADLY VQYGAAPTTS NYDCRPYKGG NSESCPISNV QSGTYYAMVK GYSAFSGVSL TASYTAQSGG GTPTTPASYT NADNYNIPDN KTAGITSPIT VTRTGNSGTV TAVVNIVHPY IGDLKVQLIS PTGQTATLHN NTGAGADNIN KSYTVDMTGV ESSGVWKLKA VDSGRGDVGY IDSWELKFQ
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