Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Daci_2258 |
Symbol | |
ID | 5747821 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Delftia acidovorans SPH-1 |
Kingdom | Bacteria |
Replicon accession | NC_010002 |
Strand | + |
Start bp | 2482704 |
End bp | 2485865 |
Gene Length | 3162 bp |
Protein Length | 1053 aa |
Translation table | 11 |
GC content | 68% |
IMG OID | 641297342 |
Product | acriflavin resistance protein |
Protein accession | YP_001563283 |
Protein GI | 160897701 |
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 | 10 |
Plasmid unclonability p-value | 0.456797 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 26 |
Fosmid unclonability p-value | 0.166006 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGAGCCAGC TTTCCAATCT TTCGGCGCCG TTCATCTTCC GGCCCATTGC CACCATGCTG ATGACCATCG GCCTGGCGCT GGCGGGGGCA GTGTCGTATT TCCTGCTGCC GGTGGCGCCG CTGCCGCAGG TGGACTATCC GACGATTTCG GTGTCGGCCA GCCTGCCGGG TGCAAGCCCG GACACCATGG CTGCCACGGT GGCGACGCCG CTGGAGCGGG CGCTGGGGGC GATTGCGGGG GTCAATGAGA TCACGTCCAG CTCCAGCCTG GGCAGTACGC GCATCACGCT GCAGTTCGAT CTGTCGCGCA CGGTGGACAG CGCGGCGCGC GATGTGCAGG CCGCCATCAA TGCGGCGCGC ACGCTGCTGC CTTCGGGCAT GCCGGGCAAT CCTACGTATC GCAAGGTGAA TCCGGCCGAT GCGCCGATCA TGATCCTGGC GCTCACGTCC AGCGCGCTGA CGCGCGGGCA GATGTATGAC GCGGCGTCCA CCGTGCTGGC GCAGAAGCTG TCGCAGGTGG AGGGCGTGGG CCAGGCGTCC ATCAGCGGGG GGGCGCTGCC GGCCGTGCGC GTGGAGCTGG ACCCGGTGAA GCTGGCGGCC AATGGCGTGT CGCTGGACCA GGTGCGTACC GCCATTTCGG CCACGAATGC CAACCGGCCG CTGGGCGCGG TGGAGCGCGA GGACCATTAC TGGCAGGTGA CCGCCAATGA CCAGGCGCGC GTGGCGGCCG ACTATGCGCC GCTGGTGCTG CGCTGGAGCA ATGGCAATGC GATCCGGCTG CAGGACGTGG CCGATGTCAC GGATTCGGTG CAGGACGTGC GCAACTACGG CGTGGCCAAT GGCAAGCCCG CCATCCTGCT GCAGATCTTC AAGCAGCCCG ATGCCAACAT CCTGGAGGCC GTGCAGCGCG TGCGCGCGCT GCTGCCGCAG CTCAAGGCGT CCATCCCCGA GGCCATCGAT CTGACCATCG TGTCCGACCG CACGCCCACG CTGCGTGCCT CCGTGGTGGA GGTGGAGCGG GCGCTGGTGA TCGCCGTGGC GCTGGTGATC CTGGTGGTGT TCCTGTTCCT GCGCAATGGC CGGGCCACGC TGATTCCGGC CGTGGCCGTG CCGGTGTCGC TGGCGGGCAC GTTCGGCGTG ATGTACCTGG CCGGCTATAC GCTGGACAAC CTGTCGCTGA TGGCGCTGAC CGTGGCCACG GGCTTTGTGG TGGACGATGC CATCGTGGTG CTGGAGAACG TGATGCGCCA CATGGAGCGC GGCAAGACCG CGCTGCGCGC GGCGCTGGAC GGGGCGCGCG AGATCGGGTT CACCGTGGTG TCCATGAGCC TGTCGCTGAT CGCGGTGTTC GTGCCCATTC TGTTCATGGG CGGCATCGTG GGGCGGTTCT TCCGCGAGTT CGCGGTGGTG ATGTCGGCGG CTATTCTGAT CTCGATGGTG GTATCGCTGA CCACCACGCC CATGATGTGC GCGGCGCTGC TGCGCTCGCA CCGGCTGCCT GCAAAGCAGC GGCCGCGCAG GCGCCTGGGC CGCGCCTGGG ACCGCTTCGC GGCCTGGATG GGGCGCGTGG AGCGGCGTGC CATGTCCGGC TACCGCGCCA GCCTGGCGTG GTGCCTGCGC CACCAGCCGC TGGTGCTGCT GGTGCTGGTC GGCGTGGTGG CGCTGAACGT GCACCTGCAC ATGGCCATCG ACAAGGGCTT CATGCCCAGC CAGGACACGG GCCGCGTGAT GGGCTTCATC CGGGCCGACC AGTCCACCTC CTACCAGGCC ATGGAGCAGC GGCTCAAGCG CTTCCTGTCC ATCGTGCAGG AAGACCCGGC CGTGGAGTAC GTGACGGGCT TCACGGGCGG CGGCCAGCGC AATGCGGCCA ACATGTTCAT GTCGCTCAAG CCGCTGGCCG AGCGCAAGGT GTCTTCCGAC GAGGTGATCA ACCGCCTGCG CGACAAGCTC AAGAACGAGC CCGGCGCGCG GCTGTTCATG GTCACGCAAA GCGATATCCG CATCGGCGGG CGGCAAAGCT CGGGCTCGTA CGACTACACG CTGCAGGCCG ACGACATCCA GGACCTGCGC ACCTGGGAGC CGCGCATCCG CCAGGTGCTG TCGCAGCTGC CCCAGCTCAC GGACGTGAAC AGCGATGTGT CCGACTTCGG CCTGCAGACC TCGCTGGTGA TCGACCGCGA CGCGGCCACG CGCCTGGGGC TGACGGTGTC TCAGATCGAC GGCACGCTCA ACAACGCCTT CGGCCAGCGC CAGGTGGGCG TGATCTACAA CCCGCTCAAC CAATACCGCG TGGTGATGGA GGCCGCGCCC CGCTACCTGC AAAGCCCCGA GACGCTGCGC GGCTTCTTCT TCGTGAACAA CCAGGGCGTG CAGGTGCCGC TGACCTCGTT TGCGCGCATC ACCACCACCA ACACGCCGCT GGCCGTGAAC CATGACCGGG GCACGCCGGC CAGCACCATC AGCTTCAGCC TGGCCGAGGG CGTGGCGCTG TCGGACGCCA GCGATGCCAT CCGCGCGGCC GTGGCCGAGC TGGGCGTGCC CGTGTCGGTG CGCGGCAGCT TCAGCGGCAC GGCCGGGGCC TTCCAGCAGG CGCTGTCCGG GCAGCCGCTG CTGATCCTGG CGGCCATCAT CACCATCTAC CTGGTGCTGG GCGTGCTCTA TGAAAGCCTG GTGCACCCGC TGACCATTCT GTCCACGCTG CCCTCGGCCG GCGTGGGCGC GCTGATGGCG CTGATGCTGT TCAAGACGGA GTTCTCGCTG ATCGCGCTGA TCGGGGTGAT TTTGCTGATC GGCATCGTCA AGAAGAACGC CATCATGATG ATCGACTTCG CGCTGGAGCG GCAGCGCGCC GGCCATGCCA CGGCCGCCCA GGCCATCTAC CGCGCCTGCG AGCTGCGGCT GCGCCCCATC CTCATGACCA GCCTGGCGGC CATCTGCGGC GCGCTGCCGC TGGCCCTGGG CCGGGGCGAC GGCGCCGAGC TGCGCCAGCC GCTGGGCATT GCCATCGTGG GCGGCCTGAT GCTGAGCCAA CTGCTCACGC TCTACACCAC GCCCGTGGTC TATGTGCTGC TGGACAGGCT GCGCCAGCGT GTCATGGGCC TGCGTGGCCG CGTGCAGGGC AAGGACCGCG GCACCCCTGT GCCCGCCGCA TCACCCCAGT GA
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Protein sequence | MSQLSNLSAP FIFRPIATML MTIGLALAGA VSYFLLPVAP LPQVDYPTIS VSASLPGASP DTMAATVATP LERALGAIAG VNEITSSSSL GSTRITLQFD LSRTVDSAAR DVQAAINAAR TLLPSGMPGN PTYRKVNPAD APIMILALTS SALTRGQMYD AASTVLAQKL SQVEGVGQAS ISGGALPAVR VELDPVKLAA NGVSLDQVRT AISATNANRP LGAVEREDHY WQVTANDQAR VAADYAPLVL RWSNGNAIRL QDVADVTDSV QDVRNYGVAN GKPAILLQIF KQPDANILEA VQRVRALLPQ LKASIPEAID LTIVSDRTPT LRASVVEVER ALVIAVALVI LVVFLFLRNG RATLIPAVAV PVSLAGTFGV MYLAGYTLDN LSLMALTVAT GFVVDDAIVV LENVMRHMER GKTALRAALD GAREIGFTVV SMSLSLIAVF VPILFMGGIV GRFFREFAVV MSAAILISMV VSLTTTPMMC AALLRSHRLP AKQRPRRRLG RAWDRFAAWM GRVERRAMSG YRASLAWCLR HQPLVLLVLV GVVALNVHLH MAIDKGFMPS QDTGRVMGFI RADQSTSYQA MEQRLKRFLS IVQEDPAVEY VTGFTGGGQR NAANMFMSLK PLAERKVSSD EVINRLRDKL KNEPGARLFM VTQSDIRIGG RQSSGSYDYT LQADDIQDLR TWEPRIRQVL SQLPQLTDVN SDVSDFGLQT SLVIDRDAAT RLGLTVSQID GTLNNAFGQR QVGVIYNPLN QYRVVMEAAP RYLQSPETLR GFFFVNNQGV QVPLTSFARI TTTNTPLAVN HDRGTPASTI SFSLAEGVAL SDASDAIRAA VAELGVPVSV RGSFSGTAGA FQQALSGQPL LILAAIITIY LVLGVLYESL VHPLTILSTL PSAGVGALMA LMLFKTEFSL IALIGVILLI GIVKKNAIMM IDFALERQRA GHATAAQAIY RACELRLRPI LMTSLAAICG ALPLALGRGD GAELRQPLGI AIVGGLMLSQ LLTLYTTPVV YVLLDRLRQR VMGLRGRVQG KDRGTPVPAA SPQ
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