| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | SO_1059 |
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| Symbol | |
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| ID | 1168896 |
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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 oneidensis MR-1 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_004347 |
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| Strand | - |
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| Start bp | 1097332 |
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| End bp | 1099965 |
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| Gene Length | 2634 bp |
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| Protein Length | 877 aa |
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| Translation table | 11 |
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| GC content | 47% |
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| IMG OID | 637343015 |
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| Product | aminopeptidase N |
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| Protein accession | NP_716686 |
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| Protein GI | 24372644 |
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| COG category | [E] Amino acid transport and metabolism |
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| COG ID | [COG0308] Aminopeptidase N |
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| TIGRFAM ID | [TIGR02412] aminopeptidase N, Streptomyces lividans type |
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Plasmid Coverage information |
| Num covering plasmid clones | n/a |
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| Plasmid unclonability p-value | n/a |
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| Plasmid hitchhiking | n/a |
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| Plasmid clonability | n/a |
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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 | GTGAATTTGT TTAAAGCTAG CCTAGTCGCC CTCACCTGCT CAGCATTAAT GTCGTGCGCC
GTCCAAAATC CTTTAAATAC AGGACCAAGG GATACGAGTC CCTATATCAG CCAGTATCAG
GCAAGTTTGC GTTCACAGGT GATATCGAAT GTACATTATG AGTTGGATTT TCAACTGACT
GGCGATACCG AATTCAGTGC GACAACGAAA GTGAACTTCA ATTTAAGCGA AGTGCCCAAG
CAACTGAGCT TAGATCTCAA CAAAGCACAA ATTAAGCGCT TTTTGATCAA CGGCACCGCC
GTTTATCCTA ATTACAATGG CGCCTATATC AGCCTCAACA CTCGCTTACT GACTTCAGGG
GAAAACACAA TTGAAGTGCA ATTCACCCGA GCCCACAGTA CCAATGGTGA AGGTTTGCAC
CGGTTCCAAG ACCCAGTTGA TGGCAAGGTT TACCTTTACT CCCATTTTGA ACCTGCCGCC
GCCCAACAAA TGTTTGCGGT ATTTGATCAA CCCGACTTGA AGGCCAATTA TAAAATCAGC
GTAACTGCAC CTAGGGATTG GCAAGTTATC AGTACGACCC GTGAAACGAC CGTCACCCCA
GCTGGCGCCT TTAATCGTTG GGAGTTTCCT GAAACGCCTA AGTTAAGCCC TTATAACTTC
TCCATGCATG CTGGCCCATA TTATATGTGG CAGGATAATT CTGGCCGTTA TCCAATGCGC
TTATTCGCAC GGCAATCCGT TGCCAGCCAA GTGAATCCAC AGGACTGGTT TACCTACACC
AAACAAGGGT TAACCTTCTT TGACGCCTAC TTTGGTATTC CTTACCCCTT TAAAAAATAT
GATCAGATCC TCGTGCCTGA TTTTCTCTAC GGCGCGATGG AAAACGCAGG AGCAGTGACC
TTCGCCGAAG ATCACTTCCT CCACAAAGCG GAAATGACCG CCGAGCAAAA ACAAAACTTA
GCGGGCGTAA TTATGCACGA AATGGCCCAC CAATGGTTTG GCGATCTGGT GACCATGAAG
TGGTGGAACA GCCTCTGGTT AAACGAAAGT TTTGCTTCTT TTATGGGTAC ACTTGCAACC
CAAGAAGCCA CTGAATTTAC CAATGCATGG CGCAGTTTTT ATGCTCAAGG TAAACAACGT
GCCTATGAGC AAGACAGCTT AGTGACCACT CATCCCATTG AAGTACCCGT GGCAACAACC
CAAAATGCCT TCGATAATAT CGATGCCATT ACCTATCAAA AAGGCGCCTC AACCCTCAAA
CAACTACGCC ATTTACTCGG TGATGTGGTG TTTCGCCGCG GCGTGAGCAA CTACCTCAAA
CAATATAGTT ATCAAAATGC CGAGCTAGAT GACTTCATCA ATAGCCTCGC CAAAGCCTCG
AATCGTGACT TAAGCGCATG GACGCAGGAA TGGCTTTACA GCGCAGGGGT AAACACGATC
AAGGCAGAGT ACCGCTGCGA CGGTAACCGC ATCAGCGAAT TTAGCCTACT GCAATATCCT
GCCAGCAGCG AACTGCCAAC ACTTAGGGAG CAAAAAGTCC AAATCGCGCT CTTCACAAAA
GGACGTTTCG ATTTACGACA TGAGACCACA GTGCCAGTCA CCTACAAAGG TGAGCGCACG
GAAGTGAAGC AATTAGTCGG TGAGCGTTGT CCAGATCTGG TTTACCCTAA CTACGATGAC
TGGGGCTATG TAAAGGTACA ACTCGATGAC AAATCCTTTG ATACCGCCAA GCAACAGCTA
AGCAAGGTGA CAGACCCGCT TCTGCGTTCA ATGTTATGGC AAAGCCTGTG GGACAGTGTG
CGTGAGGGCA ACCTGAGTTT GGACCAATAC CTGAGCACAG TGTTTATTAA TGCACCAGCA
GAAAATGACT ACACAGTCGT CGGCCAAATT ATTTCAAGCC TGCTACGCAG TAAAGCGTAC
CTTGCGCAAA TCGCACCAAT CCAGCAAAAC TATGCTGAAA ATGCAGTAAA AGGCTTAGCA
CAAATGAGCC TTCGAAAAAC CATGGAGAGT AGAGGCAACA ATGACTTCCA GCGCCGCTGG
TTTAATGCCT ATATTCAATT AGCGGGCGAT CGCGACAGTT TACGCCACTT AGCACAATTA
CTAGATGGCA CAACCAAAAT CAAAGGGTTA ACCTTAGATC AAGATCTGCG CTGGGCTATC
ATAACTCAGC TCAATCGCTA CGACTTCCCC AATGCGCAGC AACGTATTAC ACGGGAAAGC
GCACGCGATA ACTCAGATTC AGGGGAAAAG TCTGCATTAG CTGCACAGGT TATCCGCCCA
GAAGCCGCGG CGAAGCGTCG TTGGTTAAGT AAGGTGCATA CCGATGCACT GCCCTTTGCA
AAACAGCGCA TTATCATGGA AAACCTTTAT CCTGCTGAGC AAAAGCTCTT AAGTGCGGCC
ACCGCCGAAG AGCGCCTCGC AAACTTAGCA GACATGGATA AAAAAGGCCC GGTGTTTATG
CGTAGCTACA GCCGCACTCT TATTCCAACC GATTGTAACT ACAACAGTAT TGCGGCCTTA
GATAAAGTAT TAGACAGCCA AACAGGCTTA TCTAATCTTA GCCGTCGAAC CTTATTAGAA
ACGCGCCAAG CCGAGCAGCG CTGCGTACTA ATTAAAAATA AAATGACCCA TTGA
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| Protein sequence | MNLFKASLVA LTCSALMSCA VQNPLNTGPR DTSPYISQYQ ASLRSQVISN VHYELDFQLT
GDTEFSATTK VNFNLSEVPK QLSLDLNKAQ IKRFLINGTA VYPNYNGAYI SLNTRLLTSG
ENTIEVQFTR AHSTNGEGLH RFQDPVDGKV YLYSHFEPAA AQQMFAVFDQ PDLKANYKIS
VTAPRDWQVI STTRETTVTP AGAFNRWEFP ETPKLSPYNF SMHAGPYYMW QDNSGRYPMR
LFARQSVASQ VNPQDWFTYT KQGLTFFDAY FGIPYPFKKY DQILVPDFLY GAMENAGAVT
FAEDHFLHKA EMTAEQKQNL AGVIMHEMAH QWFGDLVTMK WWNSLWLNES FASFMGTLAT
QEATEFTNAW RSFYAQGKQR AYEQDSLVTT HPIEVPVATT QNAFDNIDAI TYQKGASTLK
QLRHLLGDVV FRRGVSNYLK QYSYQNAELD DFINSLAKAS NRDLSAWTQE WLYSAGVNTI
KAEYRCDGNR ISEFSLLQYP ASSELPTLRE QKVQIALFTK GRFDLRHETT VPVTYKGERT
EVKQLVGERC PDLVYPNYDD WGYVKVQLDD KSFDTAKQQL SKVTDPLLRS MLWQSLWDSV
REGNLSLDQY LSTVFINAPA ENDYTVVGQI ISSLLRSKAY LAQIAPIQQN YAENAVKGLA
QMSLRKTMES RGNNDFQRRW FNAYIQLAGD RDSLRHLAQL LDGTTKIKGL TLDQDLRWAI
ITQLNRYDFP NAQQRITRES ARDNSDSGEK SALAAQVIRP EAAAKRRWLS KVHTDALPFA
KQRIIMENLY PAEQKLLSAA TAEERLANLA DMDKKGPVFM RSYSRTLIPT DCNYNSIAAL
DKVLDSQTGL SNLSRRTLLE TRQAEQRCVL IKNKMTH
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