| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | YpAngola_A2716 |
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| Symbol | |
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| ID | 5801188 |
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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 | Yersinia pestis Angola |
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| Kingdom | Bacteria |
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| Replicon accession | NC_010159 |
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| Strand | + |
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| Start bp | 2844243 |
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| End bp | 2846669 |
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| Gene Length | 2427 bp |
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| Protein Length | 808 aa |
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| Translation table | 11 |
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| GC content | 47% |
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| IMG OID | 641340578 |
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| Product | putative anaerobic dimethyl sulfoxide reductase subunit A |
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| Protein accession | YP_001607116 |
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| Protein GI | 162421445 |
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| COG category | [C] Energy production and conversion |
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| COG ID | [COG0243] Anaerobic dehydrogenases, typically selenocysteine-containing |
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| TIGRFAM ID | [TIGR00509] molybdopterin guanine dinucleotide-containing S/N-oxide reductases
[TIGR01409] Tat (twin-arginine translocation) pathway signal sequence
[TIGR02166] anaerobic dimethyl sulfoxide reductase, A subunit, DmsA/YnfE family |
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Plasmid Coverage information |
| Num covering plasmid clones | 18 |
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| Plasmid unclonability p-value | 0.818341 |
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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 | 41 |
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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 | ATGAATAACA ATAAAACACC GCTCACCGGC TCACTGAGTC GTCGTGAATT TATTCAAACA
TCCGCCGTAG TGACCGGGGC TGCGGCAATT GCCGGTTCAA TCGCCCTCCC ATTCTCCGTC
CATGCTGCGG CTTCAGAACA TGCCCCCACG GCGGCTGAAG AGAGCATTAA ATACAGTGCT
TGCCTGGTTA ACTGTGGCAG CCGCTGCCCG CTAAAAGTTC ATGTTAAAAA CGGTGAAATA
ATTAAAATTG CTAATGAAGC CATTTATGAT GATTCCACCT TTGGCTTACA CCAAATTCGC
CCCTGCTTAC GTGGCCGTTC AGTACGATGG AAAACCTATA ATCCGGATCG GGTTAAATAT
CCAATGTTAC GAGTGGGTAA ACGCGGTGAA GGTAAATTCA AGCGTATCAG TTGGGATGAA
GCCACAACTA TCGTTGCGGA TAATCTGAAA AAAACGATTG TTCAATACGG CAACGAAGCA
ATTTATTATC AATATGGCAC TGGTTCAACA GGGGCTAATT TACAAGGCCG CAATGCCTGT
AAACGTATGT TGAGTTTGAT CGGCGGTTAT CTTGATCAGC ACGGTACTTA TTCTACCGCC
CAAATCAATA CTGTCATGCC TTATGTCTAC GGCAACTTAG ATGAAACGCT GCTGGACGAA
ATTAAAAATT CTGATCTGGT GGTGATGTTT GGTCACAATC TGGCAGAAAC ACGGATGTCA
GGCGGTGGGC AATATATTGA AACGGTTCAG GCGTTGGGTC AAAGCCGAGC CAAAGTCATT
ATTATTGACC CACGCATGAC CGACAGTGTG ACCACCCTTA ACGCCGAATG GATCCCGATA
TTCCCAGGGA CCGATGCGGC ACTGGTCGCC GCGCTGGGGC ATGTTTTAAT TAAAGAGAAT
CTGACTGACG AACGTTTCCT GCAACAATAT TGTGTCGGTT GGGATGCCAC CACATTGCCC
TCATCGGCCC CAGCTAACGG ATCGTATAAA GATTATATTT TAGGTCTGGG TGCTGACGAA
ACCGAAAAAA CACCAGAATG GGCCAGTGAG ATCACCGGTA TTTCACCAAC ACGTATTATT
CAATTAGCCA GAGAACTGGG TAATGCCCGC GCAGCCTGGA TTTCACAGGG TTGGGGAATT
CAACGCACAG CGAACGGGGA GCAAGCGTCC CGCTCGATTA TGATGCTCCC ATTAATGACC
GGTAACATTG GCCGCGCCGG AACCAATACC GGTGCCTGGG GTGGCAACGT AAAATACCCG
GTTCCTGGGT TCAGCATTCC CAATCCAGTC AAAACGGCCA TTCCTTGCTT TATGTGGACC
GATGCTATTT TCCGCGGCAC TGAAATGACC GCTAAAAATG CCCATGTGAA AAATAAAGAA
AAACTGGATA CCAATATTAA GTTTCTCTGG AACTACGCCA GTAACGTTAT AGCAAATCAG
CACTCTGATC TGAATAAAAC CAATACTATT TTGCAAGATG AGTCATTGTG CGAATTTATT
TTGGTCTGGG AAAACCATAT GACCAATTCG GCGAAGTACG CAGATTTATT ATTACCAGAC
GTCACGTCGG TTGAATCAAA TGACCTGATT GATAACTCCT ATGCCAGTGG TGCTTATCAC
TATGTCACCC GGATGCAAAA TACCATTGAG CCGCTGTGGG AATGCCGCCC CTCATACGAT
GTATTAGCCG AGATCGCCAC TAAATTAGGC GTGGGGGATG CCTTTACTGA AGGACATACC
CAGCAAGAAT GGATTGAAAT CAGCTATAAC AAAATGCGTG ATAATAATCC GGCGCTGCCG
CCTTTCAGTG ATACCCATAA CAAAGGCATT ATTGACCGTA TTTTTGCTGA CAGTAGCCAA
TATATCGCGT TAAAAGATTT CCGCGATGAC CCATTAAATA ACCCGTTAAA AACCCCATCA
GGCAAGATTG AGATCTATTC AGAAGCACTG GCAACACTCG CACACGAGTG GCAGTTGACA
CCGGGTGACC GCATTACCGC GGTAGCTGAA TATTGTCCGA CCCCTGAGGG TGTCAGTGAT
CAAGAAACCC TAAAGAGCTA CCCTCTACAA ATGACCGGTT TCCATGTTAA AGGCCATACC
CACTCAACCT ATTACAATGT CGCGATGCTG CGCGAAGCGG TACCTCATCA ATTCTGGATG
AACCCGATTG ATGCACAGGC GCGTGGCATA CAGCAAGGCG AGCGGGTCGA AATATTTAAT
AGCCGTGGCC GTATCCATAT TGCGGTCAAA ATTACTGAGC GGGTATTACC GGGGGTTATT
GCTGTGCCAC AAGGGGCATG GCGTAATCTC AACAAGGACG GTATCGACGT GGGTGGCTGT
ATCAATACGT TGACGACACA ACGCCCTTCG CCATTAGCGA AAGGTAATCC TCAACACACC
AACCTCGTTG AAGTAAAACG TGCATAA
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| Protein sequence | MNNNKTPLTG SLSRREFIQT SAVVTGAAAI AGSIALPFSV HAAASEHAPT AAEESIKYSA
CLVNCGSRCP LKVHVKNGEI IKIANEAIYD DSTFGLHQIR PCLRGRSVRW KTYNPDRVKY
PMLRVGKRGE GKFKRISWDE ATTIVADNLK KTIVQYGNEA IYYQYGTGST GANLQGRNAC
KRMLSLIGGY LDQHGTYSTA QINTVMPYVY GNLDETLLDE IKNSDLVVMF GHNLAETRMS
GGGQYIETVQ ALGQSRAKVI IIDPRMTDSV TTLNAEWIPI FPGTDAALVA ALGHVLIKEN
LTDERFLQQY CVGWDATTLP SSAPANGSYK DYILGLGADE TEKTPEWASE ITGISPTRII
QLARELGNAR AAWISQGWGI QRTANGEQAS RSIMMLPLMT GNIGRAGTNT GAWGGNVKYP
VPGFSIPNPV KTAIPCFMWT DAIFRGTEMT AKNAHVKNKE KLDTNIKFLW NYASNVIANQ
HSDLNKTNTI LQDESLCEFI LVWENHMTNS AKYADLLLPD VTSVESNDLI DNSYASGAYH
YVTRMQNTIE PLWECRPSYD VLAEIATKLG VGDAFTEGHT QQEWIEISYN KMRDNNPALP
PFSDTHNKGI IDRIFADSSQ YIALKDFRDD PLNNPLKTPS GKIEIYSEAL ATLAHEWQLT
PGDRITAVAE YCPTPEGVSD QETLKSYPLQ MTGFHVKGHT HSTYYNVAML REAVPHQFWM
NPIDAQARGI QQGERVEIFN SRGRIHIAVK ITERVLPGVI AVPQGAWRNL NKDGIDVGGC
INTLTTQRPS PLAKGNPQHT NLVEVKRA
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