Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Shew185_3479 |
Symbol | |
ID | 5371945 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Shewanella baltica OS185 |
Kingdom | Bacteria |
Replicon accession | NC_009665 |
Strand | + |
Start bp | 4130389 |
End bp | 4133022 |
Gene Length | 2634 bp |
Protein Length | 877 aa |
Translation table | 11 |
GC content | 48% |
IMG OID | 640831739 |
Product | aminopeptidase N |
Protein accession | YP_001367669 |
Protein GI | 153001988 |
COG category | [E] Amino acid transport and metabolism |
COG ID | [COG0308] Aminopeptidase N |
TIGRFAM ID | [TIGR02412] aminopeptidase N, Streptomyces lividans type |
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Plasmid Coverage information |
Num covering plasmid clones | 20 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | GTGAACTTGT TTAAAGCCAG TTTTGTTGCC CTTGCCTGCG GCGCATTGAT GTCGTGTGCC ACCCAAAGCA CTCTTAATAC GGGTCCACGT GACGCCAGTG CTTACATTAG CCAGTATCAG GCCGCGCTGC GCTCGCAGAT CATTTCTGAT GTTCGCTATG AACTGGATTT TCAGCTCACA GGGGAAGCCG AGTTTTCCGC CACCTCTAAA GTGACCTTTC AATTAAGTGA AATACCAAAA CAACTGAGCT TAGATTTAAA CAAAGCACAG ATAAAACGCT TTATCATCAA CGGTACCGCA GTATATCCAA ACTATAATGG CGCTTACATT AGCTTAAATA CGCGTCTGCT GACCTCGGGT GAAAACACGG TTGAAGTGCA GTTTACTCGC CCTCACAGCA CTAATGGTGA AGGCCTGCAT CGTTTTAAAG ATCCGGTCGA TGGTAAGGTC TACCTCTATT CGCATTTTGA ACCCGCTGCC GCGCAACAGA TGTTTGCGGT GTTTGACCAA CCGGATATCA AAGCCAACTA TCAGATTACG GTAACAGCGC CCAAAGATTG GCAAGTGATT AGCACTATGC GTGAAAGCCA AATCACTCCA GCGGGCGCTT ACAATCGTTG GACCTTCCCT GATACGCCAA AACTCAGTCC GTATAACTTT TCTATGCATG CGGGCCCTTA TCACATGTGG CAGGACAACT CGGGCCGCTA TCCGATGCGC CTGTTCGCCC GTGAATCTGT GGCTAATCAA GTCACACCGC AGGATTGGTT TAACTATACC AAACAAGGGT TAACCTTCTT CGATAACTAC TTTGGCATTC CGTATCCCTT TAAGAAATAT GATCAAATTC TGGTGCCTGA TTTCCTCTAT GGCGCCATGG AAAACGCGGG GGCTGTGACC TTTGCCGAGG ATCATTTCCT TTATAAAGCA GCCATGACGG CAGATCAAAA ACAAAGCCTA GCCGGCGTGA TCATGCATGA AATGGCGCAT CAATGGTTTG GCGATCTCGT GACCATGAAA TGGTGGAATG GCCTGTGGCT CAATGAAAGC TTTGCCTCCT TTATGGGCAC GCTTGCGACT CAGGAGGCGA CCGAATTCAC CAATGCTTGG CGCACTTTTT ACGCCAAAGG CAAACAAAGA GCTTATGAGC AGGACAGCTT AGTCACTACG CATCCAATTG AAGTGCCAGT GGCAACAACC CAAAACGCCT TCGACAATAT CGATGCGATC ACTTATCAAA AAGGCGCATC GACACTGAAA CAACTGCGCC ACTTGCTGGG CGACATGGTG TTTCGCCGTG GAGTCAGCAA TTATTTAAAA CAATATAGTT ATCAAAATGC CGAGTTAGAT GATTTTATCA ATAGCCTAGG CAAAGCCGCT GGTCGTGATT TAAGCGCATG GACTCAAGAA TGGCTCTACA GCGCGGGCGT TAACACCATC AAGGCGGAAT ATCGCTGTGA AGGTAACCGT ATCAGCGACT TTAGCCTGAT ACAGCTCCCT GCAAGCGCTG AGCTGCCAAC ATTACGTGAA CAAAAAGTCC AAGTGGCCCT CTTTACCCAA GGCCGCTTCG ATTTGCGCCA TGACGTCACA GTGCCTGTCA CTTACAAGGG TGAGCGTACC GAAGTCAAAC AACTGATTGG TGAGCGCTGT CCAGACTTAG TCTATCCAAA CTTTGATGAT TGGGGCTTTG TGAAAGTCGA GCTAGATGAC AAATCCTTTA ACACCGCAAA ACAGCAGTTG AGTAATGTGT CAGATCCACT GCTGCGCTCT ATGCTGTGGC AAAGTCTGTG GGACAGCGTT CGTGAAGGTA AATTGAGCTT AGATCAATAC CTAAGCACAG TGTTTGTTAA CGCACCTGCT GAGACGGACT ACACGATTGT CGGTCAGATC ATCGATAGCA TGTTGCGCTC GAAGCAGTAT CTCGCACAAA TCGCACCTAT TCAGCAAAAC TACGCTGAGA ATGCAATCAA AGGCTTAAGC CAGATGAGCC TTAGAAAAGC GATGGAAAGC AAAGGCGATA ATGACTTCCA ACGTATTTGG TTCGATGCGT ATGTCAGTTT AGCCAGCGAC AGGGATTCAT TGCGCCATTT AGCGCAACTC GTTGACGGTG AAACAAAAAT TAAGGGGTTA ACCTTAGATC AAGATTTACG CTGGGCGATC ATCACCCAGC TCAATCGCTA TGATTTCCCT AACGCGCAGC AACGTTTAAC CAAAGAAGCG GCCAAGGATA ATTCGGACTC AGGCGAAAAA GCTGCGCTTG CGGCGCAAGT GATCCGCCCA GAAGCGGCGG CCAAACGTCG CTGGTTAAGC AAGGTTCATC AAGACAGCCT GCCTTTCTCC AAGCAACGGA TCATTATGGA AAATCTTTAT CCTGCGGAGC AGAAACTATT GAGCGCGGCT ACGGCGGAAG AACGTCTGGC GAGCTTGAGG GATATGGATA AAAAAGGCCC TGTGTTTATG CGTAACTACG CTCACAACTT GATTCCTACT GATTGTAACT ACACTAGCAT AGCGGCATTG GATAAAGTGC TTGATAGCCA AACTGGATTA TCGAATCTCA CCCGCCGTAA TCTATTAGAA ACCCGTCAAA TTGAACAGCG CTGCGTGCTG ATCAAAAATA AAATGACCCA ATGA
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Protein sequence | MNLFKASFVA LACGALMSCA TQSTLNTGPR DASAYISQYQ AALRSQIISD VRYELDFQLT GEAEFSATSK VTFQLSEIPK QLSLDLNKAQ IKRFIINGTA VYPNYNGAYI SLNTRLLTSG ENTVEVQFTR PHSTNGEGLH RFKDPVDGKV YLYSHFEPAA AQQMFAVFDQ PDIKANYQIT VTAPKDWQVI STMRESQITP AGAYNRWTFP DTPKLSPYNF SMHAGPYHMW QDNSGRYPMR LFARESVANQ VTPQDWFNYT KQGLTFFDNY FGIPYPFKKY DQILVPDFLY GAMENAGAVT FAEDHFLYKA AMTADQKQSL AGVIMHEMAH QWFGDLVTMK WWNGLWLNES FASFMGTLAT QEATEFTNAW RTFYAKGKQR AYEQDSLVTT HPIEVPVATT QNAFDNIDAI TYQKGASTLK QLRHLLGDMV FRRGVSNYLK QYSYQNAELD DFINSLGKAA GRDLSAWTQE WLYSAGVNTI KAEYRCEGNR ISDFSLIQLP ASAELPTLRE QKVQVALFTQ GRFDLRHDVT VPVTYKGERT EVKQLIGERC PDLVYPNFDD WGFVKVELDD KSFNTAKQQL SNVSDPLLRS MLWQSLWDSV REGKLSLDQY LSTVFVNAPA ETDYTIVGQI IDSMLRSKQY LAQIAPIQQN YAENAIKGLS QMSLRKAMES KGDNDFQRIW FDAYVSLASD RDSLRHLAQL VDGETKIKGL TLDQDLRWAI ITQLNRYDFP NAQQRLTKEA AKDNSDSGEK AALAAQVIRP EAAAKRRWLS KVHQDSLPFS KQRIIMENLY PAEQKLLSAA TAEERLASLR DMDKKGPVFM RNYAHNLIPT DCNYTSIAAL DKVLDSQTGL SNLTRRNLLE TRQIEQRCVL IKNKMTQ
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