Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | YpsIP31758_3068 |
Symbol | acrB |
ID | 5386330 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Yersinia pseudotuberculosis IP 31758 |
Kingdom | Bacteria |
Replicon accession | NC_009708 |
Strand | + |
Start bp | 3454386 |
End bp | 3457538 |
Gene Length | 3153 bp |
Protein Length | 1050 aa |
Translation table | 11 |
GC content | 49% |
IMG OID | 640866074 |
Product | acriflavine resistance protein B |
Protein accession | YP_001402028 |
Protein GI | 153950197 |
COG category | [V] Defense mechanisms |
COG ID | [COG0841] Cation/multidrug efflux pump |
TIGRFAM ID | [TIGR00915] The (Largely Gram-negative Bacterial) Hydrophobe/Amphiphile Efflux-1 (HAE1) Family |
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Plasmid Coverage information |
Num covering plasmid clones | 1 |
Plasmid unclonability p-value | 0.0000000000324086 |
Plasmid hitchhiking | Yes |
Plasmid clonability | hitchhiker |
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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 | ATGGCTAAGT TCTTTATAGA TCGCCCTATT TTCGCTTGGG TCATCGCCAT CATCATCATG TTGGCTGGTG CCCTTGCGAT CATGAAATTA CCAGTAGCGC AATATCCGAC CATTGCGCCA CCGGCAATTA CAATTGCCGC CAACTATCCT GGCGCCGATG CGACAACTGT GCAGAATACA GTGACGCAGG TTATCGAACA GAACATGAAC GGCATCGATA ACCTGCTCTA TATGTCTTCC AGCAGTGACT CCTCCGGTAA CGTTCAGTTG ACGTTGACCT TTAACTCTGG CACTGACCCG GATATTGCTC AGGTTCAGGT CCAGAATAAA CTGCAATTAG CCATGCCACT GCTGCCACAA GAAGTGCAGC AACAGGGCGT GAGTGTTGAA AAGTCCAGTA GTAGCTTCCT GATGGTTGCC GGTTTTATTT CTGAAGACGG TACGATGCAG CAGGAAGATA TCGCCGACTA TGTGGGCTCT AACATTAAAG ACCCCATCAG CCGTACACCA GGGGTAGGTG ATGTTCAGTT GTTCGGTTCC CAATATGCCA TGCGCATCTG GATGGACCCG CATAAGCTGA ATAACTACAA GCTGACACCG GTCGATGTGA TTAACGCGAT AAAAATACAG AACAACCAGG TCGCTGCGGG TCAATTGGGG GGGACACCAC CAGTACCAGG TCAGGAATTG AACTCATCAA TCATTGCACA AACCCGTTTG ACCAATGCAG AAGAGTTCAG CCAGATATTA CTGAAAGTGA ATACCGACGG GTCGCAAGTT CGCTTGAAAG ATGTGGCTAT CGTTAAACTG GGTGCTGAAA GCTATAACAT CATTGCCCGT TATAACGGTA AACCGGCCGC AGGTATTGGT ATTAAGCTGG CCACCGGGGC GAACGCCTTG AACACCTCTG CGGCAGTGAA AGCCGAGTTG GCCAAATTAC AGCCATTCTT CCCATCGGGG TTGACCGTAG TTTATCCGTA TGACACCACA CCATTTGTTA AAATTTCGAT TAACGAAGTG GTTAAGACAC TGATCGAAGC CATTATCTTG GTGTTCTTGG TAATGTACCT GTTCCTACAG AACTTCCGCG CAACCTTGAT CCCAACGATT GCGGTGCCGG TAGTGCTATT GGGTACCTTT GCTATTTTGT CCGCCTTTGG CTATTCGATA AACACCTTAA CGATGTTCGG GATGGTGCTG GCGATAGGGC TATTGGTCGA TGACGCCATT GTGGTGGTGG AAAACGTCGA ACGCGTGATG CAAGAGGAGG GCTTACCACC GAAAGAAGCA ACCAAAAAAT CCATGGAGCA GATCCAGGGG GCATTGGTTG GGATCGCGTT GGTATTGTCT GCGGTATTTG TTCCGATGGC TTTCTTCGGT GGCGCAACTG GGGCTATTTA CCGTCAGTTC TCCATTACTA TCGTTTCGGC CATGGTGCTT TCGGTTCTGG TGGCATTAAT TCTGACACCA GCACTGTGTG CGACCATGCT AAAACCGATC AAGAAAGGCG ATCATGGTCC AAAAACTGGC TTCTTTGGCT GGTTTAACAA CATGTTCGAA AAGAGTACAC ACCACTATAC CGACAGTGTC GCCAATATTT TGCGCAGCAC AGGCCGTTAT CTGGTTATCT ATCTGGCTAT TGTGATTGGT ATGGCGGTGC TTTTCATGCG TCTACCGTCT TCATTCCTGC CAGAAGAAGA TCAGGGGGTG TTCCTAACCA TGGTGCAGTT GCCTGCGGGT GCTACGCAAG AACGTACCCA GAAAGTACTG AACCAGGTGA CGGATTACTA TCTCGACAAA GAAAAAAACG TGGTTAACTC CGTGTTCACC GTTAACGGCT TTGGTTTCAG TGGTCAAGGT CAGAACACCG GTTTGGCATT CGTGAGTCTG AAGAATTGGG ATGAGCGTAA AGGCGAGCAA AATAAAGTTC CAGCCATTGT CAGCCGCGCC TCTGCTGCAT TCTCGAAAAT TAAAGACGGT ATGGTGTTCG CCTTTAACTT ACCCGCCATT GTGGAGTTAG GTACGGCTAC CGGTTTCGAC TTCCAGTTAA TTGATCAGGG TAACCTGGGG CACCAACAAT TAACGGATGC ACGTAACCAA CTGTTGGGTA TGGCAGCGCA ACATCCAGAT ATGCTGGTTG GCGTGCGCCC TAATGGGCTG GAAGATACAC CACAGTTTAA AGTGGAAGTT GATCAGGAGA AAGCTCAAGC CTTGGGCGTT GCTATTTCTG ACATCAATAC CACGCTGGGT TCAGCCATGG GCGGCAGCTA TGTAAACGAC TTTATCGACC GAGGTCGTGT GAAGAAAGTT TATGTACAAG CCGATGCACC ATTCCGTATG TTGCCGGATG ATATCGATAA GTGGTATGTC CGTAATAATA TGGGTCAGAT GGTGTCATTT GCGACCTTCT CCACCGCGAA ATGGGAATAT GGCTCACCAC GGCTCGAGCG TTATAATGGG TTGCCATCAA TGGAGATTCT GGGTCAGGCT GCACCGGGTA AGAGTACCGG CGAAGCCATG GATCTGATGC AAGAGCTGGC AGCTAAATTA CCAAGTGGCG TAGGCTATGA CTGGACCGGA ATGTCCTATC AGGAACGTCT ATCGGGTAAT CAGGCCCCAG CACTGTATGC CATTTCATTG ATTGTGGTCT TCTTGTGCTT GGCCGCTCTG TATGAAAGTT GGTCGATTCC ATTCTCCGTT ATGCTCGTGG TACCGCTCGG GGTTGTTGGT GCATTATTGG CAGCCACACT GCGCGGGTTG GAAAACGACG TTTACTTCCA GGTAGGCTTG CTGACCACCA TTGGGCTATC GGCCAAGAAC GCCATCTTGA TTGTTGAGTT TGCCAAAGAC TTGATGGATA AAGAAGGCAA GGGCTTGGTG GAATCAACAT TGGAATCGGT GCGTATGCGT CTGCGCCCAA TATTGATGAC CTCACTGGCC TTTATCCTTG GGGTAATGCC ACTGGTTATC AGTAGTGGTG CCGGTTCTGG TGCACAGAAC GCGGTAGGTA CCGGCGTAAT GGGGGGGATG ATCACTGCGA CCGTACTGGC TATCTTCTTT GTTCCGCTAT TCTTCGTTGT GGTTCGTCGC CGCTTCAGCA GAAAGACTGA TGATATTGAA CATAGTCATC CAGTTAACAC GCCGGTGAAA TAA
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Protein sequence | MAKFFIDRPI FAWVIAIIIM LAGALAIMKL PVAQYPTIAP PAITIAANYP GADATTVQNT VTQVIEQNMN GIDNLLYMSS SSDSSGNVQL TLTFNSGTDP DIAQVQVQNK LQLAMPLLPQ EVQQQGVSVE KSSSSFLMVA GFISEDGTMQ QEDIADYVGS NIKDPISRTP GVGDVQLFGS QYAMRIWMDP HKLNNYKLTP VDVINAIKIQ NNQVAAGQLG GTPPVPGQEL NSSIIAQTRL TNAEEFSQIL LKVNTDGSQV RLKDVAIVKL GAESYNIIAR YNGKPAAGIG IKLATGANAL NTSAAVKAEL AKLQPFFPSG LTVVYPYDTT PFVKISINEV VKTLIEAIIL VFLVMYLFLQ NFRATLIPTI AVPVVLLGTF AILSAFGYSI NTLTMFGMVL AIGLLVDDAI VVVENVERVM QEEGLPPKEA TKKSMEQIQG ALVGIALVLS AVFVPMAFFG GATGAIYRQF SITIVSAMVL SVLVALILTP ALCATMLKPI KKGDHGPKTG FFGWFNNMFE KSTHHYTDSV ANILRSTGRY LVIYLAIVIG MAVLFMRLPS SFLPEEDQGV FLTMVQLPAG ATQERTQKVL NQVTDYYLDK EKNVVNSVFT VNGFGFSGQG QNTGLAFVSL KNWDERKGEQ NKVPAIVSRA SAAFSKIKDG MVFAFNLPAI VELGTATGFD FQLIDQGNLG HQQLTDARNQ LLGMAAQHPD MLVGVRPNGL EDTPQFKVEV DQEKAQALGV AISDINTTLG SAMGGSYVND FIDRGRVKKV YVQADAPFRM LPDDIDKWYV RNNMGQMVSF ATFSTAKWEY GSPRLERYNG LPSMEILGQA APGKSTGEAM DLMQELAAKL PSGVGYDWTG MSYQERLSGN QAPALYAISL IVVFLCLAAL YESWSIPFSV MLVVPLGVVG ALLAATLRGL ENDVYFQVGL LTTIGLSAKN AILIVEFAKD LMDKEGKGLV ESTLESVRMR LRPILMTSLA FILGVMPLVI SSGAGSGAQN AVGTGVMGGM ITATVLAIFF VPLFFVVVRR RFSRKTDDIE HSHPVNTPVK
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