| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Daro_2958 |
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| Symbol | |
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| ID | 3566015 |
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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 | Dechloromonas aromatica RCB |
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| Kingdom | Bacteria |
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| Replicon accession | NC_007298 |
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| Strand | + |
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| Start bp | 3195577 |
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| End bp | 3198666 |
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| Gene Length | 3090 bp |
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| Protein Length | 1029 aa |
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| Translation table | 11 |
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| GC content | 61% |
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| IMG OID | 637681427 |
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| Product | acriflavin resistance protein |
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| Protein accession | YP_286158 |
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| Protein GI | 71908571 |
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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 | 26 |
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| Plasmid unclonability p-value | 0.451188 |
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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 | 15 |
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| Fosmid unclonability p-value | 0.893752 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGAATCTAC CCGAGCTCTG CATCCGTCGT CCGGTAATGA CCACCTTGAT GATGGTCGCC
CTGCTGATTT TCGGCGTTAT CGGCTATCGT GCCCTGCCGG TTTCGGAATT ACCGGCCGTC
GACTTCCCGA CCATTTCAGT CACCGCCAAC CTGCCCGGTG CCTCGCCGGA AACCATGGCG
GCAGCCGTCG CCACGCCGCT CGAAGGTCAA TTCTCGACCA TCGCAGGACT GGACTCGATG
ACCTCGACCA GCGCCCAAGG CTCGGCCACC ATCACGCTGC AGTTCTCGCT GGACCGTAAC
ATCGACGCCG CAGCTCAGGA CGTCCAGTCG GCCATTTCGG CAGCCCTGCG CAAGCTGCCG
CCGAACATGC CGACGCCACC GTCGTTCCGC AAGGTGAACC CAGCCGATTC GCCGATTTTC
TACATCGCGA TGTCGTCGCC GACGCTGCCC TTGTCCCTCG TCCATGAATA TGCCGAGACC
CAGTTGGCCC AACGGCTTTC GACCGTTCCC GGCGTTGCCC AGGTGCAGAT TTACGGTTCG
CAGAAATTTG CTGTCCGCGT CCAGGCCAAC CCGGACCAGA TGGCAGCCCG CGGCATCGGC
ATCGATGAAC TGCAGCAGGC CATCGCTCAG GGCAACGTCA ACCAGCCGGT CGGCCAGCTC
GATGGCAGCC GCCAGACCTT CGCGCTGAAA GACAATGGCC AGCTCAGCAA CGCCGCCGCC
TACCGGCCCT TGATCGTCAC CTGGCGCAAT GGCGCACCGA TTCGGCTGGA AGACATCGCG
ACACCGATCG ACAGCGTCGA GAACACCCGC ATCGCCAGCT GGAACGTCGA CAAGCGCGCC
ATCGTGCTCG CCATCCAGCG CCAGCCCGGC GCCAACACCA TCGAAACGGT GGATGCGATC
AAACGCATCC TGCCCTCGTT CCAGGCCAAA CTGCCAGCCG CGGTGACGAT GAAAGTACTG
TTCGACCGCA GCAACTCGAT CCGCCACGCC ATCGATGATG TCCAGTTCAC GCTGATTCTG
TCCGGCTTCC TGGTCATCAT GGTCATCCTG CTCTTCCTGC GCAATCTGTC GGCAACGGTC
ATTCCCAGCC TGGCACTGCC CATTTCGGTG GTCGGCACCT TCGCCATGAT GTCGGTGCTC
GGCTACAGCC TCGACAATCT GTCGCTGCTC GCCCTGACGC TGTCGGTCGG CTTTGTCGTG
GACGACGCCA TTGTCATGCT GGAGAACATC GTCCGCCACG TTGAAGCCGG CGAGCCGCCC
TTCCAGGCCG CAATCAAGGG AGCCAAGGAA ATCGGCTTCA CGATCATCTC GATGACCATC
TCGCTGATTG CCGTGTTCAT CCCGGTGCTG TTCATGCAGG GTATCGTCGG TCGCCTGCTG
CATGAATTCG CAGTGACCAT CTGCGTCGCC ATTCTCGTTT CCGGCTTCGT CTCGCTGACC
CTGACGCCGA TGCTGTGCAG CCGCTACGTC AAGCATGCCG AGCCGGACTC ACACGGCCGC
GTCTTCCAGA TGTTCGAAAG CTTCTTCAAC GCAGTGCTCG CCGCCTACGA AAGAACGCTC
AAACAGGCCA TGGCGCATCC GCGCACCATC CTCGCCAGTT TCTTTGTCAC CTTGCTGATG
ACCGGCTATC TGTTCACGCT GGTGCCCAAG GACTTCATTC CCAGTGGCGA CTCCGGCCAG
ATCATCGCCT TTACCGAAGG CGCACAGGAT GCCTCCTTCA CCTCAATGGT CGCGCATCAA
CGCGCCGTGG CTGAAATCGT CGGACAGGAA CCGGACATCG CTTCCTTCAT GTCGTCGGTC
GGCGCCGGCG GCATCCGGCC AACCGCCAAC ACCGGCACCG TTTTCATGAT TCTCAAACCA
CTCGACGAGC GCAAATCGAC GCCGGATCAG ATCATCCAGC GCCTGCGTCC GAAACTGGCG
GCGGTGCCCG GCATCAAGGT GTACATGCAA AACCCGCCGG TGATCCGGAT CGGTGGCCAG
CTTACTGCCG CCCAGTACCA ATACACCTTG CAGGACACCG ATCTCGATGA GTTGTACCAA
TGGACCGCAA CGCTGACCCA GAAGATCCGC CAGTTGCCCG GTTTCGTCGA CGTTGCCAAT
AACCTGAACA ACCTCAGCCC GGTCGTCGGG CTGGACATCG ACCGTGACAA GCTATCCACG
CTGGGCCTGA CCTTCGGCCA GGTCGAAGAC GCCCTGCAGA GCGCCTTCAG CGCCCGCCAG
GTATCGACGA TCTACGGCTC GACGGCGCAA TACCAGGTGA TCCTCGAAGT TTCCCCGGAA
TTCCAGGCTG ACCCACAGGC CCTGTCGCGC ATCTATGTGC GCGGTAACGG CAAGCTGATC
CCGCTCGACA CCGTGGCACG CTTCACGCGC AAGACGCAGG CCTTGACCGT GAACCACCAG
GGCCAACTGC CTTCAGTCAC CATTTCCTTC AACCTGCTAC CCGGCGTTTC ACTGGGCGAT
GCGGTGGACC GGATCAAGGC ACTGGAACAG GAAATCCGCG TTCCCGTCTC GCTGACCACC
AGCCTGCAAG GCACGGCGCA AGCCTTCCAG TCCTCGCTGC AAGGCCTTGG CGTCCTGTTG
CTGGTCGCCG TACTGGTCGT CTATCTGGTA CTCGGCGTGC TCTACGAGAG CTTCATCCAC
CCGCTGACCA TTCTTTCCGG CCTGCCTTCG GCCGGTCTCG GCGCCCTGAT CACCCTGCTC
ATCTTCAAGG TTGACCTCAG TCTCTACGCC TTCGTTGGCG TGATCATGCT GATCGGTATC
GTCAAGAAAA ACGCCATCAT GATGATCGAC TTTGCCCTCG AGCGGCAGCG CAAGGATGGC
ATGCCGCCCG GCGAAGCGAT CTTCCAGGCC AGCCTGATCC GTTTCCGGCC GATCATGATG
ACCACAATGG CCGCGCTGGT CGGCACCCTG CCCATCGCCC TGGGCATCGG CGCCGGTGCC
GAGGTGCGCC AGCCGCTGGG TCTGGCCGTC GTTGGCGGCC TGATGCTGTC ACAGTTGCTT
ACCTTGTATC TGACACCGGT CATCTACCTC TATCTCGACC GCTTTACCGA CAAGACCGAA
GCACCGCTCG AAACGGCGGC GGCAAGCTGA
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| Protein sequence | MNLPELCIRR PVMTTLMMVA LLIFGVIGYR ALPVSELPAV DFPTISVTAN LPGASPETMA
AAVATPLEGQ FSTIAGLDSM TSTSAQGSAT ITLQFSLDRN IDAAAQDVQS AISAALRKLP
PNMPTPPSFR KVNPADSPIF YIAMSSPTLP LSLVHEYAET QLAQRLSTVP GVAQVQIYGS
QKFAVRVQAN PDQMAARGIG IDELQQAIAQ GNVNQPVGQL DGSRQTFALK DNGQLSNAAA
YRPLIVTWRN GAPIRLEDIA TPIDSVENTR IASWNVDKRA IVLAIQRQPG ANTIETVDAI
KRILPSFQAK LPAAVTMKVL FDRSNSIRHA IDDVQFTLIL SGFLVIMVIL LFLRNLSATV
IPSLALPISV VGTFAMMSVL GYSLDNLSLL ALTLSVGFVV DDAIVMLENI VRHVEAGEPP
FQAAIKGAKE IGFTIISMTI SLIAVFIPVL FMQGIVGRLL HEFAVTICVA ILVSGFVSLT
LTPMLCSRYV KHAEPDSHGR VFQMFESFFN AVLAAYERTL KQAMAHPRTI LASFFVTLLM
TGYLFTLVPK DFIPSGDSGQ IIAFTEGAQD ASFTSMVAHQ RAVAEIVGQE PDIASFMSSV
GAGGIRPTAN TGTVFMILKP LDERKSTPDQ IIQRLRPKLA AVPGIKVYMQ NPPVIRIGGQ
LTAAQYQYTL QDTDLDELYQ WTATLTQKIR QLPGFVDVAN NLNNLSPVVG LDIDRDKLST
LGLTFGQVED ALQSAFSARQ VSTIYGSTAQ YQVILEVSPE FQADPQALSR IYVRGNGKLI
PLDTVARFTR KTQALTVNHQ GQLPSVTISF NLLPGVSLGD AVDRIKALEQ EIRVPVSLTT
SLQGTAQAFQ SSLQGLGVLL LVAVLVVYLV LGVLYESFIH PLTILSGLPS AGLGALITLL
IFKVDLSLYA FVGVIMLIGI VKKNAIMMID FALERQRKDG MPPGEAIFQA SLIRFRPIMM
TTMAALVGTL PIALGIGAGA EVRQPLGLAV VGGLMLSQLL TLYLTPVIYL YLDRFTDKTE
APLETAAAS
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