Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | M446_4502 |
Symbol | |
ID | 6134299 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Methylobacterium sp. 4-46 |
Kingdom | Bacteria |
Replicon accession | NC_010511 |
Strand | - |
Start bp | 4956931 |
End bp | 4960092 |
Gene Length | 3162 bp |
Protein Length | 1053 aa |
Translation table | 11 |
GC content | 69% |
IMG OID | 641644642 |
Product | hydrophobe/amphiphile efflux-1 (HAE1) family protein |
Protein accession | YP_001771277 |
Protein GI | 170742622 |
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) |
|
|
Plasmid Coverage information |
Num covering plasmid clones | 5 |
Plasmid unclonability p-value | 0.39279 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
| |
Fosmid Coverage information |
Num covering fosmid clones | 7 |
Fosmid unclonability p-value | 0.00639664 |
Fosmid Hitchhiker | Yes |
Fosmid clonability | hitchhiker |
| |
Sequence |
Gene sequence | ATGGCGAGCT TCTTCATCGA CCGCCCGGTC TTCGCCTGGG TCGTCGCCCT GTTCATCTGC CTGGGCGGCG CCCTCACGAT CCCGCTCCTG CCGGTGGCGC AGTACCCGAT CATCGCGCCG CCCTCGATCG CCCTCTCGAC CGCCTATCCG GGCGCCTCGG TGGAGGACCT CTACACCGGC ACGACCCGCC TGATCGAGGA CGAGCTCAAC GGCGCGGCCA ACATCCAGAG CTTCGAATCG GCCTCCGATT CCTTCGGCGT GGTCGAGATC ACGGCCAATT TCGAGCCGGG CACCGACCCG GGCTACGCCG CCGTCGAGGT CCAGAACCGC CTCAAGCGCG TCGAGGCGCG CCTGCCGGCC GAGGTGCGCC AGCAGGGCAT CCTGGTCGAG GAGGCCTCCG CGGCGACCCT CAACATCATC ACGCTCGTCT CGACGGACGG CTCGATGGAC GAGGTGGCGC TCGGCGACTT CCTCATCCGC AACGTCATCA ACGAGATCCG GCGCATCCCG GGCGTCGGCC GCGCCACCCT CTACTCGACC GAGCGCTCGC TGCGCATCTG GGTCGATCCC GACAAGCTGC GCGGGCTCTC GCTCAGCGCC TCGGACGTGA CGCGGGCGAT CCAGAACCAG AACGCCCAGA TCGCCTCGGG CGCGGTCGGG GCCCAGCCGA GCCCGGCCGG CCACGCGGTC AACACCCCGA TCATCGTCAA GGGCCAGATG CGGGCGCCCG AGGAGTTCGG CGCGATCGTG CTGCGGGCCA ATCCGGACGG CTCGACCGTG CGGCTGCGCG ACGTCGCCCG GATCGAACTC GGCGGCGAGG ATTACAAGTT CACCACCCGC CTCAACGGCG GCGAGGCGGC CGGCATCTCG GTGACCCTCG CCCCGGACGG CAACGCCCTC GAGACCGCCA AGGCCATCCG CGCCAAGATG GAGGAACTCT CGCAGTTCTT CCCCTCGAAC GTGAAATGGG ACATCCCCTA CGACATCACC CCGGCGGTCA AGGCCTCGAT CAAGAAAGTG ATGATGACGC TGGTCGAGGC GGTGGTTCTG GTGTTCGTGG TGATGTTCCT GTTCCTGCAG AACATCCGCT ACACGCTGAT CCCGACGATC GTGGTGCCGA TCGCCCTGCT CGGCACCTGC ACGGTGATGC TGCTGGCCGG CTTCTCGGTC AACGTGCTCA CCATGTTCGG CATGGTGCTG GCCATCGGCA TCCTGGTCGA CGACGCGATC GTGGTGGTGG AGAACGTCGA GCGGATCATG AACGAGGAGG GCCTCTCCCC GAAGGAGGCC ACCCGCAAGG CGATGAGCCA GATCACCGGC GCCATCGTGG GCATCACGCT GGTGCTGGTG GCGGTGTTCA TCCCGATGGC GTTCTTCCCC GGCTCGGTCG GCATCATCTA CCGCCAGTTC TCGATCGCCA TGGTGACCTC GATCGCCTTC TCGGCGGTGC TGGCCCTGTC GCTGACGCCC GCCCTCTGCG CGACGATGCT CAAGCCGATC GAGAAGGGGC ACGGCCACGC CAAGGGCGGC GTCTTCGGCT GGTTCAACCG CGTGGTCGAG CGCGAGACCG AGCGCTACGG GCGCGGCGTG CGCTGGACCA TCGCCAAGGC CGGCCGGATG ATGGCGATCT ACCTGATCCT GGTCGCCGGC GTGGCCTTCG CCTTCGTGCG CCTGCCCGAG GGCTTCCTGC CGGTCGAGGA CCAGGGCTTC TTCACGGTGG ACATCCAGAC GCCGCCGGGC GCCTCCTTCA ACCGCACGCT CGCGGCGGTG AAGGCGGTCG AGGAGCACCT GATGGCCCAG CCCGGGGTGG CGACGGTGAC GGTCGTCAAC GGCTTCTCCT TCTCGGGGCA GGGCCAGATG ACCTCGCAGG CCTTCGTCAC CCTCAAGGAT TGGTCGCAGC GCGGGCCGGA CCAGTCCGCC GCCGCCCTGG TGGCGGGGAC CAACAAGGCC CTGGCGAGCT ACAAGGACGC GGTGATCCAG GCGCTGGAGC CGCCGCCGAT CGACAATCTC GGCAACGCCT CGGGCTTCAG CTTCCGCCTG CAGGACCGCG CCCAGAAGGG CTACTCCGCC CTGATGGCGG CGCAGGAGCA GCTGCTCTCG CTCGCCCGCA AGAGTCCGGT CCTGAAGAAC GTCTACGTGG AGGGGCTGCC GCCCGCGCCG CAGGCCGAAC TCGTCATCGA CCGCGAGAAG GCGGCCGCGC TCGGCGTCTC CTTCGACGAG ATCAACCAGA CCATCCAGGT CAACCTCGGC TCGGTCTACA CCAACGACTT CCCGAACCGG GGCAAGATGC AGCGGGTGAT CGTGCAGGCG GAGGCCGCCC AGCGGCTGAA CCCGAGCGAT CTGCTGAATT ACGGCGTGAA GAACCAGCAG GGCACGATGG TGCCGATGGC CTCCTTCGCG GACCTGACGT GGAGCGTGGG CCCGGCCCAG ATCATCGGCT TCAACGGCTA CCAGTCGGTG CGCATCACCG GCGAGCCGGC CGCGGGCTAC ACGTCGGGCG AGGCGATCGC CGAGATGGAG CGGCTGATGA CCCAGCTGCC CAAGGGCTTC GGCTACACCT GGACCGGCCA GTCGCTGCAG GAGAAGCAGG CGGGCTCGCA GGCGACCCTG CTGCTGGCCC TCTCGGTGCT GATCGTGTTC CTGTGCCTCG CGGCCCTCTA CGAGAGCTGG TCGATCCCGC TCTCGGTGAT GCTGGTCATC CCCCTCGGCG TCGTCGGCTC GGTGGTGGGC GTGATGCTGC GCGACATGCC CAACGACGTC TACTTCAAGA TCGGGCTGAT CACGATCATC GGCCTCTCGG CCAAGAACGC GATCCTGATC ATCGAGTTCG CCCGCGAATT GTGGCGCCCC GGCACGCGGC TGGTCGAGGC GACGGTCGAG GCCGCGCGGC TGCGCTTCCG GCCGATCGTG ATGACCTCGC TCGCCTTCAT CTTCGGCGTC GTGCCCCTCG CCATCGCGGT GGGCGCGGCC TCGAAGAGCC AGCAGGCGAT CGGCACGGGC GTGATGGGGG GCATGATCTC GGCCACGGTG CTGGCCGTCA TCCTGGTGCC GGTCTTCTTC GTGGTGGTGA TGCGCCTGTT CCAGCGCCGC CGGGTGCGGG AGGAGGAGGG CCGTCCCGGC CGGACCCGGC CCGCCCCGGC GCGGGAGGCG GCGAGCCACT GA
|
Protein sequence | MASFFIDRPV FAWVVALFIC LGGALTIPLL PVAQYPIIAP PSIALSTAYP GASVEDLYTG TTRLIEDELN GAANIQSFES ASDSFGVVEI TANFEPGTDP GYAAVEVQNR LKRVEARLPA EVRQQGILVE EASAATLNII TLVSTDGSMD EVALGDFLIR NVINEIRRIP GVGRATLYST ERSLRIWVDP DKLRGLSLSA SDVTRAIQNQ NAQIASGAVG AQPSPAGHAV NTPIIVKGQM RAPEEFGAIV LRANPDGSTV RLRDVARIEL GGEDYKFTTR LNGGEAAGIS VTLAPDGNAL ETAKAIRAKM EELSQFFPSN VKWDIPYDIT PAVKASIKKV MMTLVEAVVL VFVVMFLFLQ NIRYTLIPTI VVPIALLGTC TVMLLAGFSV NVLTMFGMVL AIGILVDDAI VVVENVERIM NEEGLSPKEA TRKAMSQITG AIVGITLVLV AVFIPMAFFP GSVGIIYRQF SIAMVTSIAF SAVLALSLTP ALCATMLKPI EKGHGHAKGG VFGWFNRVVE RETERYGRGV RWTIAKAGRM MAIYLILVAG VAFAFVRLPE GFLPVEDQGF FTVDIQTPPG ASFNRTLAAV KAVEEHLMAQ PGVATVTVVN GFSFSGQGQM TSQAFVTLKD WSQRGPDQSA AALVAGTNKA LASYKDAVIQ ALEPPPIDNL GNASGFSFRL QDRAQKGYSA LMAAQEQLLS LARKSPVLKN VYVEGLPPAP QAELVIDREK AAALGVSFDE INQTIQVNLG SVYTNDFPNR GKMQRVIVQA EAAQRLNPSD LLNYGVKNQQ GTMVPMASFA DLTWSVGPAQ IIGFNGYQSV RITGEPAAGY TSGEAIAEME RLMTQLPKGF GYTWTGQSLQ EKQAGSQATL LLALSVLIVF LCLAALYESW SIPLSVMLVI PLGVVGSVVG VMLRDMPNDV YFKIGLITII GLSAKNAILI IEFARELWRP GTRLVEATVE AARLRFRPIV MTSLAFIFGV VPLAIAVGAA SKSQQAIGTG VMGGMISATV LAVILVPVFF VVVMRLFQRR RVREEEGRPG RTRPAPAREA ASH
|
| |