| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Mfla_0373 |
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| Symbol | |
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| ID | 3999301 |
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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 | Methylobacillus flagellatus KT |
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| Kingdom | Bacteria |
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| Replicon accession | NC_007947 |
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| Strand | - |
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| Start bp | 380794 |
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| End bp | 383973 |
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| Gene Length | 3180 bp |
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| Protein Length | 1059 aa |
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| Translation table | 11 |
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| GC content | 59% |
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| IMG OID | 637937269 |
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| Product | hydrophobe/amphiphile efflux-1 HAE1 |
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| Protein accession | YP_544485 |
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| Protein GI | 91774729 |
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| COG category | [V] Defense mechanisms |
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| COG ID | [COG0841] Cation/multidrug efflux pump |
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| 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 | 17 |
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| Plasmid unclonability p-value | 1 |
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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 | 9 |
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| Fosmid unclonability p-value | 0.0673649 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGCTGAATA TTTTCATCAA AAGACCGGTC ATGGCGATTG TATTGTCGCT ATTGATCGTA
TTCATGGGGT TCTTGTCGAT CAAGACCCTG CCCACATCGC AGTTTCCCGA CATCGCGCCG
CCGCGCGTGA TCGTCTCGCT GGCCTACCCC GGCGCCAGCG CCGACGTGCT GGTGCAGTCA
TCGCTGATCA CCATTGAGCG TGCGATCAAC GGCGTACCCG GCATGAAGTA CATCGTGTCT
GATGCCACCA GCGCGGGCGA AGCCACGATC CAGGTGATCT TCGACCTCGG CGTGGACCCC
AACCAGGCCA TGATCAACGT CAAGACCCGT ATCGACCAGG TGATGAGCCG CCTGCCCGAG
CTGGTTCAGA TGGAAGGCGT GGTGGTCGAA CGCGTCCAGC CCAGCATGCT GATGTACATC
AATCTTTACA GCAAGGATAA GCACGCGGAC GAGAAATTCC TCTTCAACTA CGCCAACGTC
AACATCATCC CCGAGATACA GCGCGTCAAC GGCATCGCCC AGGCCAAGAT CCTCGGCAGC
CGCCAGTACG CGATGCGCAT CTGGCTCAAC CCAGAACGCA TGCGCGCCTA CAACGTCTCC
ACCGAGGAAG TCATGAAGGC GATCAACAGC CAGAGCGTGA TCGGCCGCCC CGGCCGCCTG
GGCCAGAGCT CGGGCATCAC CGCGCAATCC AAGGAATACG TGCTGATCTA CCAGGGCCGC
TACAACAAGC CCGAGCAGTA TGCAGACATC ATCATCCGCG CAAACTCCGA AGGCGAGATC
CTCCACCTCA AGGACATCGC CAAGGTCGAG CTGAACAGCG AGTTCTACGA CATTTACTCC
AACAAAGATG GCTATCCTTC AGCGGCCATC GTGCTCAAGC AGAACTACGG CAGCAACGCC
ACCGAAGTGA TCGAGCATGT GAAGGAAAGA ATGGAGGAAC TGAAGGCATC CTTCCCCGAA
GGCATGGATT ATGAAGTCAA CTACGACGTA TCCAAGTTCC TGGATGCTTC GATCGAAAAG
GTGATCCACA CCCTGATCGA GGCGTTCGTC CTGGTAGCCC TGGTGGTGTT CATCTTCCTG
GGCGACTGGC GCTCCACCCT GATCCCGATC CTGGCGGTGC CGGTGTCGCT GATCGGCACC
TTCTTCGTCA TGCAGATGTT CGGGATTTCG ATCAACCTGA TCACACTGTT TGCACTGGTG
CTGGCAATCG GTATTGTGGT GGATAACGCC ATTGTGGTTG TGGAAGCTGT CCATGCCAAG
ATGGAAACCG AGCACTTGAC TCCCTACAAG GCCACCCAAA AGGTGCTGGG GGAGATCGGC
GGGGCGATCG TCGCCATTAC CCTGGTGATG ACCGCCGTGT TCGTGCCCGT GGCCTTCATG
ACTGGGCCGG TGGGCGTGTT CTACCGCCAG TTCTCCATCA CCATGGCAGC TTCCATTATC
ATCTCGGGCG TCGTCGCCTT GTCGCTGACG CCGGTGCTGT GCGCGATGCT GCTGAAGAAC
AACCACGGCC AGCCCAAGCG CAAGACGCCG GTCAGCCTGT TCATCAACGC CTTCAACCAT
GTGTTCGAGA AGGTGACGGG ACGCTACACC CAATTGCTGG ATATCGTCGT CACGCGCCGC
ATCGTCACCT TCCTCATGCT GGCCGCGTTC GCCGCCGGTA CCTTCCTGGT CGACAAGACA
TTGCCCGCAG GCTTCATCCC GGGCGAGGAC CAGGGCATGG TGTACGCGAT CATCCAGACG
CCGCCCGGCT CCACGCTGGA AGTCACCAAC AAGATCGCCC GGCAGTTGCA GGGCATCGCC
TCCAAGGTCG AGGGCGTGCA GTCGGTATCT TCCCTGGCGG GCTACGAGGT GCTGACCGAG
GGCCGCGGCT CCAATGCCGG CACTTGCATC ATCAACCTCA AGGACTGGTC TGAGCGCAAG
CAATCCGTGC ACCAGATCAT CGAGGAGCTG GAAGAAAAAA CCAAGGACTT CGGCGCCGTG
ATCGAGTTCT TCGAGCCGCC AGCCGTCCCC GGCTACGGCG CGGCATCGGG CCTGGCGCTG
CGCCTGCTCG ACAAGACCGA TAACACGGAT TACCACGAGT TCGACAAGAT CAACCAGGAT
TTCATGAAGG CGCTCGCCAA GCGCAAGGAG CTCACCGGCC TGTTCACCTT CTATGCGGCG
AACTACCCGC AGTATGAAAT CCAGATCGAC AACAAGCTCG CGATGCAGAA GAAGGTTTCG
ATCGCCAAGG CGATGGACAA CCTGGACATC CTGATCGGCA GCACCTACGA GCAGGGCTTC
ATCCGCTTCA ACAACTTCTT CAAGGTCTAC ACCCAGGCCG GGCCGGAATT CCGCCGCTAC
CCGACCGACA TCCTCAACTA CTACGTGAAG AACGAGGAAG GCGAAATGGT GCCCTACTCG
GCCTTCATGA AGCTGAAGAA GATGCAGGGC CCGAACGAGA TCACGCGCTA CAACCTCTAC
AACTCCGCCA CCATCCGCGC CATGCCTGCC GACGGCTACA CCACGGACGA CGCGATCAAG
GCGGTGGAGC AAGTGGCGAA AGCCACCCTG CCGCACGGCT ATGACATCGG CTGGGAAGGC
CTGTCATTCG ACGAGGCCAA CCGTGGCAAC GAGGCCATCA TCATCTTCGG CGTCGTGCTG
GTGTTCGTCT ACATGGTGCT GGCAGCGCAG TACGAGAGCT TCATTCTGCC GCTGGTGGTC
GTGCTCTCGC TGCCCGCGGG CGTGTTCGGC TCGTTCTTCA TGTTGAAAGC ATTGGGGCTT
GCCAACGACA TCTACGCCCA GGTCGGGCTG GTGATGCTGG TCGGGCTGCT CGGAAAGAAC
GCGGTGCTGA TCGTGGAATA TGCGGTGCAG AAACATGCGC AAGGCCTGTC GATCAAGGAT
GCCGCGATCG AGAGCGCACG CGTACGCTTC CGCCCTATCC TGATGACCTC GTTTGCCTTC
ATCGCCGGCC TGATCCCGCT GGTCGTCGCC ACGGGCGCGG GCGCGGTGGG CAACCGTACC
ATCGGCAGCT CCGCGCTCGG CGGCATGCTG TTCGGCACCA TCTTCGGCGT CATTCTCATC
CCTGGTCTGT ACTACATATT TGCCAAACTG TCCGACGGCA AATCCATGAT CCGGAACGAA
GAGTTTGAGC CACTCACTGA AACCTACCAT TACAGCAAGA GCGATGATGA CCAAGAATAA
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| Protein sequence | MLNIFIKRPV MAIVLSLLIV FMGFLSIKTL PTSQFPDIAP PRVIVSLAYP GASADVLVQS
SLITIERAIN GVPGMKYIVS DATSAGEATI QVIFDLGVDP NQAMINVKTR IDQVMSRLPE
LVQMEGVVVE RVQPSMLMYI NLYSKDKHAD EKFLFNYANV NIIPEIQRVN GIAQAKILGS
RQYAMRIWLN PERMRAYNVS TEEVMKAINS QSVIGRPGRL GQSSGITAQS KEYVLIYQGR
YNKPEQYADI IIRANSEGEI LHLKDIAKVE LNSEFYDIYS NKDGYPSAAI VLKQNYGSNA
TEVIEHVKER MEELKASFPE GMDYEVNYDV SKFLDASIEK VIHTLIEAFV LVALVVFIFL
GDWRSTLIPI LAVPVSLIGT FFVMQMFGIS INLITLFALV LAIGIVVDNA IVVVEAVHAK
METEHLTPYK ATQKVLGEIG GAIVAITLVM TAVFVPVAFM TGPVGVFYRQ FSITMAASII
ISGVVALSLT PVLCAMLLKN NHGQPKRKTP VSLFINAFNH VFEKVTGRYT QLLDIVVTRR
IVTFLMLAAF AAGTFLVDKT LPAGFIPGED QGMVYAIIQT PPGSTLEVTN KIARQLQGIA
SKVEGVQSVS SLAGYEVLTE GRGSNAGTCI INLKDWSERK QSVHQIIEEL EEKTKDFGAV
IEFFEPPAVP GYGAASGLAL RLLDKTDNTD YHEFDKINQD FMKALAKRKE LTGLFTFYAA
NYPQYEIQID NKLAMQKKVS IAKAMDNLDI LIGSTYEQGF IRFNNFFKVY TQAGPEFRRY
PTDILNYYVK NEEGEMVPYS AFMKLKKMQG PNEITRYNLY NSATIRAMPA DGYTTDDAIK
AVEQVAKATL PHGYDIGWEG LSFDEANRGN EAIIIFGVVL VFVYMVLAAQ YESFILPLVV
VLSLPAGVFG SFFMLKALGL ANDIYAQVGL VMLVGLLGKN AVLIVEYAVQ KHAQGLSIKD
AAIESARVRF RPILMTSFAF IAGLIPLVVA TGAGAVGNRT IGSSALGGML FGTIFGVILI
PGLYYIFAKL SDGKSMIRNE EFEPLTETYH YSKSDDDQE
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