Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Bpro_1667 |
Symbol | |
ID | 4015686 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Polaromonas sp. JS666 |
Kingdom | Bacteria |
Replicon accession | NC_007948 |
Strand | - |
Start bp | 1718728 |
End bp | 1722015 |
Gene Length | 3288 bp |
Protein Length | 1095 aa |
Translation table | 11 |
GC content | 65% |
IMG OID | 637941339 |
Product | acriflavin resistance protein |
Protein accession | YP_548501 |
Protein GI | 91787549 |
COG category | [V] Defense mechanisms |
COG ID | [COG0841] Cation/multidrug efflux pump |
TIGRFAM ID | [TIGR00914] heavy metal efflux pump (cobalt-zinc-cadmium) [TIGR00915] The (Largely Gram-negative Bacterial) Hydrophobe/Amphiphile Efflux-1 (HAE1) Family |
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Plasmid Coverage information |
Num covering plasmid clones | 12 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 12 |
Fosmid unclonability p-value | 0.954276 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGTGGTTCA CGCAGGTCAG CCTCAAGAAT CCCGTGTTTG CCACCATGGT CATGCTGGCC ATCGTCGTGC TGGGGCTTTT CTCGTACCAG CGCATGCAGG TGGACCAGTT CCCCAACATC GACTTCCCGG TGGTGGTCGT CACGGCGGAC TACCCCGGCG CTTCACCCGA GATTGTGGAA AGCGAAGTCA CCAAGAAAAT TGAAGAAGGC GTCAACTCGA TCGCCGGCAT CAATGCCCTG ACCTCGCGCA GTTTCGAAGG CCAGGCCATC GTCATCATCG AGTTCCAGCT GTATGTGGAC GGACGCAAGG CGGCCGAAGA TGTGCGCGAA AAAATAGCGG CGATCCGGCC CAGCTTTCGC GATGAGGTGA AGGAGCCGCG CGTGCTGCGC TTCGACCCGG CCAGCCGCGC AATCTGGTCG ATCGCCGTTT TACCGGCCGC ACCCAAAGCA ACAGGGGAAC GCGGCAGCGC AACGCCAAAG GCACCCGAAG CGACAGGCGC GGGGGCCAGC ATGAATGCGG TGGACCTGAC CAACTGGGCC GACCAGGTGC TGAAAAAACG CCTGGAAAAC GTGCGCGGCG CGGGCTCGGT CACGCTGGTG GGTGGCACCA AACGCGAGAT CAATGTCTAC CTGAACCCGC AGGCCATGGA GTCGCTGGGC GTCACCGCCG ACCAGGTGGT CAACGCGGTG CGCAGCGAAA ACCAGGATTT GCCGGTCGGC GCCATCCGCT CGCTGGCGCA GGAGCGCGTG GTCAAGATCG ACGCCCGCAT GAAGCGGCCC GAAGACTTTG GCAACATCAT CGTGGTGCGC AAAGGCGGCG CACCGGTCAC CGTGGGCCAG GTCGCGCGCA TTGCCGACGG TGCGCAGGAG CTCGACAGCC TGGCGCTCTA CAACGGCCAG CGCACCCTGC TGCTGACCGT GCAAAAAGCC CAGGATGAAA ACACCATTGC CGTGGTTGAC GGGCTGAACA AGGCCATCCG GGAGATGCAG CCGCTGCTGC CGCCCGGCGC CCGGCTGGAG CTGATCACCG ACGGCTCGCG GCCGATTCGC GTGGCGGTGG AAAACGTGCG CCGCACGCTG ACCGAAGGCG CCCTGCTCAC GGTACTGATC GTGTTCCTGT TCCTCAACTC CTGGCGCTCC ACGGTGATCA CCGGGCTGAC GCTGCCAATT TCCATCATCG GCACCTTCCT CTTCATGAAC ATGTTCGGCT TCACCATCAA CATGATCACG CTGATGGCGC TGTCGCTCTG CGTGGGCCTG CTGATCGATG ACGCGATCGT GGTGCGCGAA AACATTGTGC GGCACGTGCA GATGGGCAAG GCGCCCTACC ATGCCGCGAT GGATGGCACG CAGGAGATTG GCCTCGCCGT GCTGGCCACC ACGTTTTCCA TCGTCGCGGT GTTCCTGCCC ATCGGTTTCA TGGGCGGCAT CATCGGCAAG TTCTTCCACG AGTTCGGCGT CACCATTGTC GCGGCCGTAC TGATCTCGAT GTTCGTCAGC TTCACGCTGG ACCCGATGCT CTCCAGCATC TGGCACGACC CGTCGATCGA GGCGCATGGC CGGCACCGCG CGCCGGTCAC CTGGTATGAC AAGACCATTG GCCGCGTGAC CGGCTGGTTC GACCATGCCA CCGATTCGCT GAGCAACAGC TACCAGGCGA TCCTGCGCTG GTCGCTGCTG CACAAGCTGG CCACGCTGGC GCTGGCCGTG GTGATTTTCA TTGTTAGCCT GGTCATGGTG CCGCTGCTGG GCACGGAGTT TGTGCCCAAG GCCGACTTTT CAGAGACCTC GCTCAACTTC TACACCCCGG TGGGCTCATC GCTGGAAGCC ACCGAAGCGA AAGCCCGGCA GGTGGAAGCC ATCGTCCGCG AATTTCCCGA GGTGAACTAC ACGCTGGCCA CCCTCAACAC CGGCAACGCG CAGGGCAAGA TGTACGCCAG CGTGTATGTG CGGCTGGTCG ACCGCAAGGC ACGCAGCCGC AATGCCGACC AGATGTCGGG CGTGCTGCGC GAACGCCTCA GGCAGGTGCC CGGCATCACC GTGACCCACG TCGGTCTGCT CGACGCCGTG GGCGGCAACA AGCAGGTCGA GTTTTCGTTG CAGGGCCCCG ACCTGAAGGA GCTGGAGCGC CTGAGCCGCC TCGTCACCGA CAAAGTCCGC GGCATCCCCG GCCTGGTCGA CCTGGACTCC AGCGTCAAGG CCGACAAGCC GGTGATTGAA GTGGATGTGC GGCGCGATGC CGCCTCCGAC CTGGGGCTGT CGGTGTCGCA GATTGCCGCT TCGCTGCGCA CCCTGGTGGC CGGCCAGACC GTCGGCAACT GGCGCGCACC CGACGACCAG ACTTATGACG TCAACGTGCG CCTGGCGCCC GATGCGCGCA ATGCGCCGCA GGACCTGGAG CGCCTGCCTT TCACGAGCAG CACCATCGGC AGCAACCCAG ACGGCTCCGC GCGCATCGTG CGGCTCAGCC AGGTGGCCAG CGTGAAAGAG TCCACCGGCC CCAACCAGAT CAACCGGCGC GACCTGACCC GGGAAGTCGC CATCAACGCC AACGTCTACA ACCGCTCGGC CGGCGAGGTG TCCAACGACA TCAAGGCCGT GCTGGACGGC ATCGATCTTC CGCCGGGCTA CCGCTACCAG TTCAGCGGTT CCACCAAGAA CATGGCCGAG TCATTTGGCT ATGCCGTGTC GGCGCTGGTG ATGGCGATTG TGTTTATCTA CATGATCCTG GCCAGCCAGT TCAAGAGCTT CCTGCAGCCG CTGGCCCTGA TGACCTCGCT GCCGCTCACG CTGATCGGCG TGGTGCTGGC CCTGCTGCTG TTTGGCTCCA CGCTGTCGAT GTTCTCCGTC ATTGGCGTGG TGATGCTGAT GGGCCTGGTC ACCAAAAACG CCATTCTGCT GGTCGACTTC GCCATTCGCA TGCGCCAGCC GGGGACCGAC GCAGACGGCC GCCAGGTGCC CGGCCTGGAC CGCAGCGAGG CCCTGCTGGA GGCGGCCCGG GTGCGGCTGC GCCCCATCCT GATGACCACG CTGGCCATGA TCTTCGGCAT GATGCCGCTG GCCTTTGCCC TGACCGAAGG CTCGGAGCAA CGCGCACCCA TGGGCCAGGC GGTGATCGGC GGCGTGATCA CCTCCTCCCT GCTCACCCTG GTGGTGGTGC CCGTGACCTA CTGCTACCTG GACGACCTGG GCCAGTGGTT CAAGCGCAAA TTCCGGCGAA AAGCACACGC GGCCGCCCCG GCTGAAGCGG CTTCCGCCGG CCCGGCTTCC GTCTCCAGCC CCGGCTAA
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Protein sequence | MWFTQVSLKN PVFATMVMLA IVVLGLFSYQ RMQVDQFPNI DFPVVVVTAD YPGASPEIVE SEVTKKIEEG VNSIAGINAL TSRSFEGQAI VIIEFQLYVD GRKAAEDVRE KIAAIRPSFR DEVKEPRVLR FDPASRAIWS IAVLPAAPKA TGERGSATPK APEATGAGAS MNAVDLTNWA DQVLKKRLEN VRGAGSVTLV GGTKREINVY LNPQAMESLG VTADQVVNAV RSENQDLPVG AIRSLAQERV VKIDARMKRP EDFGNIIVVR KGGAPVTVGQ VARIADGAQE LDSLALYNGQ RTLLLTVQKA QDENTIAVVD GLNKAIREMQ PLLPPGARLE LITDGSRPIR VAVENVRRTL TEGALLTVLI VFLFLNSWRS TVITGLTLPI SIIGTFLFMN MFGFTINMIT LMALSLCVGL LIDDAIVVRE NIVRHVQMGK APYHAAMDGT QEIGLAVLAT TFSIVAVFLP IGFMGGIIGK FFHEFGVTIV AAVLISMFVS FTLDPMLSSI WHDPSIEAHG RHRAPVTWYD KTIGRVTGWF DHATDSLSNS YQAILRWSLL HKLATLALAV VIFIVSLVMV PLLGTEFVPK ADFSETSLNF YTPVGSSLEA TEAKARQVEA IVREFPEVNY TLATLNTGNA QGKMYASVYV RLVDRKARSR NADQMSGVLR ERLRQVPGIT VTHVGLLDAV GGNKQVEFSL QGPDLKELER LSRLVTDKVR GIPGLVDLDS SVKADKPVIE VDVRRDAASD LGLSVSQIAA SLRTLVAGQT VGNWRAPDDQ TYDVNVRLAP DARNAPQDLE RLPFTSSTIG SNPDGSARIV RLSQVASVKE STGPNQINRR DLTREVAINA NVYNRSAGEV SNDIKAVLDG IDLPPGYRYQ FSGSTKNMAE SFGYAVSALV MAIVFIYMIL ASQFKSFLQP LALMTSLPLT LIGVVLALLL FGSTLSMFSV IGVVMLMGLV TKNAILLVDF AIRMRQPGTD ADGRQVPGLD RSEALLEAAR VRLRPILMTT LAMIFGMMPL AFALTEGSEQ RAPMGQAVIG GVITSSLLTL VVVPVTYCYL DDLGQWFKRK FRRKAHAAAP AEAASAGPAS VSSPG
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