Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Rleg2_0938 |
Symbol | |
ID | 6979656 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Rhizobium leguminosarum bv. trifolii WSM2304 |
Kingdom | Bacteria |
Replicon accession | NC_011369 |
Strand | - |
Start bp | 957895 |
End bp | 961014 |
Gene Length | 3120 bp |
Protein Length | 1039 aa |
Translation table | 11 |
GC content | 63% |
IMG OID | 643395649 |
Product | acriflavin resistance protein |
Protein accession | YP_002280458 |
Protein GI | 209548541 |
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 [TIGR01131] ATP synthase subunit 6 (eukaryotes),also subunit A (prokaryotes) |
| ![](https://exploration.weizmann.ac.il/pandatox/images_new/ic_cp.jpg)
![](https://exploration.weizmann.ac.il/pandatox/images_new/ic_hh.jpg)
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Plasmid Coverage information |
Num covering plasmid clones | 17 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 20 |
Fosmid unclonability p-value | 1 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGATCCCGA ATTTCTGTAT CCAGCGCCCC GTCGCGACGA CGCTGCTTGC CATCGGCGTC ATTCTGGCCG GTCTTGCCGG TTACCGGCTC GTGCCCGTCG CGGCCCTGCC GCAGGTCGAT TTTCCGACGA TCAACGTTTC GGCGCAGCTG AGCGGCGCCT CGCCGCAGAC GATGGCGACC TCGGTCGCCA CACCGCTGAT CAAGCAGTTC GAGACCATTC CCGGGATCAC CGAAATCAGC GCATCGAGCT CGCTCGGCAG CAGCAGCATC GTGCTGCAGT TCGATCTCAA CCGCGATATC GACGCCGCTG CGGCCGACGT GCAGGCGGCG ATCTCGCATG CTACCCGCCA GCTGCCCGAC AATCTGACGA CGCCGCCGAG CTACCGCAAG ACCAATCCGG CCGATGCGCC GGTCATGCTG CTCTCCGTGC AGAGCAACAC CATGCCGCGC AGCAAGCTCG ACGAGATCGC CGAGGACATC ATCTCGCCGT CGCTGTCGAC GCTTCCCGGC GTTGCCCAGG TCAGCGTTTT TGGCGCCCAG ACCTATGCCG TGCGCGTCGA GGTCGATCCC AACAAGCTGC TTACCCGCGG CATCGGCATC GATACCGTCA ACAAGGCACT TGCTGCCGCC AACAGCCAGC AACCGGTGGG AACGCTGCAG AACAATTCGC AAAGCATGAC CATCACGGCG AACACGCAGC GCACCAATGC CGAACAATTC CGCTCGCTGG TGATTGCCAA TCCGAACGGT GCGCCGATCC ATCTCGGCGA TGTTGCCGAT GTGCAGGACA GCGTCGAGAA CCAGTATACC GGCAGCTGGT ATGACGGGCA GCGCGGCATC ATCCTCGCCA TCCAGCGTCA GCCGGATGCC AACACGGTCG ATGTCATTGA TGCGATCAAC GCCAAGCTGC CGCAGCTTCA CGCCGAGATC CCGCCTTCGG TGAACACCGT CGTCATGAAC GACGCGGCAA AACCCATTCG CGCCGCCATT TCAGACGTGA AGTTCACACT GTTCCTGACG ATCGGCCTCG TCGTTCTCGT CATCTACCTC TTTACCGGCC ATGCGACGGC GACGATCATC CCGGGGCTCG CCGTTCCGCT GTCGCTGATC TCGACCTTCG GCATGATGTA TGTGCTCGGC TACAGCATCG ACAACATCTC GCTCTTGGGG CTGACGCTCG CGGTGGGGCT GGTGGTCGAC GACGCGATCG TCATGCTGGA AAATATCCTG CGTCATGTCG AGGAGGGCAT GCCGGTGCGG GAGGCGGCGA TCAAGGGGGC CGGCGAAGTC AGCTACACCA TCATCTCCAT GTCGGTTTCG TTGATTGCGG TGTTCATCCC GATCCTGCTG ATGGGCGGCG TCGTCGGCCG CGTCTTCAAC GAATTCGGCA TGGTCGTCGC CATCGCCATC ATCTCCTCGG CGATCGTCTC GCTGACCGTA ACGCCGATGC TCGGCTCGCG TCTCTCCAAC AACCACAGCC GCCCGCCGCT CCTCATCCGC ATCTTCGATG CCGGCTTCGA GCGGACGCTC AACGGCTACG ACAGGGCAGT CGGCTGGTGC CTGCACCATC GCCTGACGAT CCTCGGGGTT TTCGTCGGCT CGGTGGCGCT GACCATCTAT TTCTTCATGA CGCTGCCGAC GAGCTTCTTC CCGCAGGAAG ATATCGGCCG GCTGACGATC AGCACCCAGG CGCGGCAGGA CATTTCCTAT ACCGCCATGG AAGCGCTGCA GCAGCAGGCG GCAGCCGCCG TCAAGGCGAA CCCGGCGGTC AACCACGTGA TGTCGACGAT CGGCGGCAAC CCGAACAAAC CGCAGAACAA CGGCTCGATG TTTGTCGAAC TCAAGGACAA GAAGGAGCGC CCGCCGCTTG ACCAGACGTT GCGCGAGCTG CGCACGGCGA TCAACAAGAT CCCCGGATTG CAGGCCTTCG TGACGCCGAA CCAGAGCCTG CGCTTCGGCG GCCGCCAGAC CGCCAGCCAG TATCAGCTGG TTGTGCAGGC GCTCAGCGCC GACCAGACCA ATCTCTGGGC CGGCAAGATC CAGGCGGCGA TGCGCAGCGA TCGAAGCCTG TTCACGGATG TGACCTCGGA CGCCCAGAAC AACGCCCTGC AGGCCAATAT CGTCATCGAT AGCGAGCGGG CCGCCGCCTA CGGCATCGAC AACGACACGC TGCGCACGAC GCTGCAGGAA TCCTTCAGCG GCTATGCAGC CGCGGAGATC CAGTCGACCG GCGACAGCTA CGACGTCATC GTCGAATACG ACACCAGCAA ACCCTGGGAC GACCAGAAGC TGTCGGAAAT CCGTGTCATC TCCGCCAATG GCAGCCTGGT GCCGCTGTCG AACTTCGCCC ATGTGCAGCG CACCACCGGC CCGGTGACCA TCAACCAGAC GGGCCAGCTG GTTTCGACCA CGGTGTCCTT CAACCTGCCG GAAGGTGTCT CGCTCAGCGA CGCGACGGCG GCGATCGAGC AGATCAAGAA GGATATCAGC GTGCCGGCCG ACGTCTTCAC CTCCTATGGC GGTACGGCTG AAATTTTCCA GCAGTCGCAG GGCAATACGC CCTATCTGAT CCTAGCGGCA GTGCTGACCA TCTATGTCGT GCTCGGCGTG CTCTACGAGA GCTTTATCCA TCCGCTGACC ATTCTCTCCG GCCTGCCGGC TGCGGCCTTC GGTGCGCTGC TGGCGCTGAA GATCATGGGC TTCGATCTGT CGATCATCGC TTTGATCGGC CTGCTGACGC TGATCGGCAT CGTCAAGAAG AACGCGATCA TGATGATCGA CGTGGCGGTG GAGACCATGC GCACGACCGG CGAAAAGGCG ACGGCGGCGA TCCACGAGGC CTGCGTGCGA CGTTTCCGGC CGATCATGAT GACGACCTTC TGCGCGCTGC TCGGCGCCCT GCCGATCGCG CTCGGCACCG GCGCAAGCTC GGAACTGCGC CAGCCGCTCG GCATCGCCGT CGTCGGCGGC CTCATCGTCT CGCAGATGCT GACACTGTTC ATCACCCCGG TCATTTTCGT CGAGATGGAC CGCTTCGGCA ATTTCCTCGG GCGCCTGATC GGCGGAAGCA AAGTCGAGGA GCCGGTGGTG CACGAGGCAA GGGCAATGGC TGCCGAATGA
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Protein sequence | MIPNFCIQRP VATTLLAIGV ILAGLAGYRL VPVAALPQVD FPTINVSAQL SGASPQTMAT SVATPLIKQF ETIPGITEIS ASSSLGSSSI VLQFDLNRDI DAAAADVQAA ISHATRQLPD NLTTPPSYRK TNPADAPVML LSVQSNTMPR SKLDEIAEDI ISPSLSTLPG VAQVSVFGAQ TYAVRVEVDP NKLLTRGIGI DTVNKALAAA NSQQPVGTLQ NNSQSMTITA NTQRTNAEQF RSLVIANPNG APIHLGDVAD VQDSVENQYT GSWYDGQRGI ILAIQRQPDA NTVDVIDAIN AKLPQLHAEI PPSVNTVVMN DAAKPIRAAI SDVKFTLFLT IGLVVLVIYL FTGHATATII PGLAVPLSLI STFGMMYVLG YSIDNISLLG LTLAVGLVVD DAIVMLENIL RHVEEGMPVR EAAIKGAGEV SYTIISMSVS LIAVFIPILL MGGVVGRVFN EFGMVVAIAI ISSAIVSLTV TPMLGSRLSN NHSRPPLLIR IFDAGFERTL NGYDRAVGWC LHHRLTILGV FVGSVALTIY FFMTLPTSFF PQEDIGRLTI STQARQDISY TAMEALQQQA AAAVKANPAV NHVMSTIGGN PNKPQNNGSM FVELKDKKER PPLDQTLREL RTAINKIPGL QAFVTPNQSL RFGGRQTASQ YQLVVQALSA DQTNLWAGKI QAAMRSDRSL FTDVTSDAQN NALQANIVID SERAAAYGID NDTLRTTLQE SFSGYAAAEI QSTGDSYDVI VEYDTSKPWD DQKLSEIRVI SANGSLVPLS NFAHVQRTTG PVTINQTGQL VSTTVSFNLP EGVSLSDATA AIEQIKKDIS VPADVFTSYG GTAEIFQQSQ GNTPYLILAA VLTIYVVLGV LYESFIHPLT ILSGLPAAAF GALLALKIMG FDLSIIALIG LLTLIGIVKK NAIMMIDVAV ETMRTTGEKA TAAIHEACVR RFRPIMMTTF CALLGALPIA LGTGASSELR QPLGIAVVGG LIVSQMLTLF ITPVIFVEMD RFGNFLGRLI GGSKVEEPVV HEARAMAAE
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