| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Acid345_2830 |
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| Symbol | |
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| ID | 4071833 |
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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 | Candidatus Koribacter versatilis Ellin345 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_008009 |
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| Strand | + |
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| Start bp | 3362235 |
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| End bp | 3365513 |
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| Gene Length | 3279 bp |
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| Protein Length | 1092 aa |
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| Translation table | 11 |
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| GC content | 58% |
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| IMG OID | 637984848 |
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| Product | acriflavin resistance protein |
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| Protein accession | YP_591905 |
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| Protein GI | 94969857 |
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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 | 10 |
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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 | 14 |
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| Fosmid unclonability p-value | 1 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGAGTCCTT CACGGCCATT TATTCTGCGG CCGGTCGCGA CATCGTTGCT GATGGCCGCG
ATCCTGCTCG CCGGCATGGT GGCGTACTTC CAGCTCCCAG TGTCGGCACT GCCGCAGGTG
GATTACCCAA CGATCCAGGT CATCACGTTC TATCCGGGCG CGAGTCCGGA CGTGACCGCT
TCGGCCGTGA CGGCGCCCTT GGAACGCCAG TTTGGCGAAG TACCCGGATT GCAGCAGATG
ACGTCGACGA GCTCGTCGGG CGCATCGGTC ATCGTGTTGC AGTTCGAACT GAACCTGAAC
ATTGATGTGG CCGAGCAGGA AGTGCAGGCG GGCATCAATG CGGCGCAGTC GTACTTGCCT
ACCGATTTGC CGACGCCGCC GATTTACAGC AAAACCAACC CAGCCGACGC TCCCATCCTT
ACTCTTGCGC TGACCTCAAA GACGGTTCCG CTGACGCAAG TCGAAGACCT TGCTGACACG
CGACTGGCGC AGAAGATTGC GCAACTTCCC GGTGTTGGAT TGGTCTCGAT CAGCGGCGGA
CAAAAGCCGG CGGTGCGCAT CCAGGTCAAC CCAACCCAAC TTTCGTCGTA CGGATTGAAC
CTCGAAGATG TGCGCACTGC GATCCAGAAC ACGAGCCTCG ACCAGGCGAA GGGATCGTTC
GACGGCCCAC ACCAGAATTT CCAGATCCAG GCCAATGATC AACTGCTGAG CAGCGCCGAT
TTCAAAAACA TCGTTGTCGC CTATCGCAAT AATTCGCCAG TCTTCATGAA GGACGTCGCG
AACGTCGTCG ACGGCGCCGA AAACGAAAAA CAAGCTGCGT GGATCAACAC GACTCCCGCG
GTGATCATGA ACATTCAGCG GCAGCCTGGG GCGAACATCA TCCAGGTGGT GGACCGCATT
ACCCGTCTGC TGCCGCAATT GAAGACGAAC CTCCCGGCAT CCGTGGACGT TTCGGTGGTC
ACCGACCGCA CCACAACAAT TCGCGCTTCG GTAAAGGACG TTGAATTCGA ACTGATGCTC
ACCGTCGGGC TCGTCGTGAT GGTGATCTTC CTGTTCCTGC GCAGCGTCTC GGCAACGATC
ATCCCCAGCG TCGCGGTGCC ACTTTCATTG ATCGGCACGT TCGGCATCAT GTACCTATGT
GGGTACAGTC TGAACAACCT CACGCTCATG GCGCTGACGA TCTCCACTGG CTTCGTGGTG
GACGACGCCA TCGTGATGAT CGAGAACATC TCGCGCTTCA TTGAAGAAGG CGATCCTCCG
CTCCAGGCCG CGCTGAAGGG CGCTGAGCAA ATCGGCTTCA CCATCGTTTC GCTGACAATT
TCGCTGATCG CGGTGCTCAT CCCACTGCTC TTCATGGGCG ACATCGTAGG CCGACTCTTC
CGAGAGTTCG CCATCACGCT GAGCGTCACG ATCCTCGTTT CTGCGGTGGT GTCATTAACG
CTGACCCCGA TGATGTCGGC GCGTTTGTTG AAGCACACGC CGGAGTCGAA GCGAAGCAAC
TTCTATCGCT GGTCCGAAAA TGCATTCGAA AAGACGATTG CGTTTTACGG CCGCACGCTA
ACCTGGGTGC TGAAGCACCA GACCGTGACA CTGCTGGTCG CTGTGCTCAC GCTGATTTTC
ACCGTCGTTC TTTTCATCAT CGTGCCCAAG GGCTTCTTCC CGATACAAGA CACTGGCGTG
ATCCAGGGCA TATCCGAAGC GGCGCAAAGC ACCTCGTTCG ATGCCATGCA ACGCCACCAG
CAAGACCTGG CGAAGGTGAT TCTCGACGAT CCGGCGGTTG AAAGCCTCTC TTCGTTCATC
GGTGTAGACG GCACCAATAT GACGATGAAC AGCGGGCGCA TTCAGATCAA TTTGAAGCCG
CTGGAAGAAC GTCACATCCG TGCGACCGAA GTTATTCGCA GACTGCAAAC AAAGCTGCAG
GACGTGCAGG GGGTGACGCT CTACATGCAA CCGGTGCAGG ACCTCACGGT GGAAGATCGC
GTGAGCCGCA CCCAGTATCA ATACACGCTG GAAGAGCCCG ACCAAACCGA TCTGAACAAA
TGGACGGCCC AACTGGTTGA CAAGATGAAG CAGTTGCCGC AGATCCGCGA CGTGGCAACC
GACCAGCAAA CCGAAGGCAT GGCGGCAAAC CTGGTCATTG ATCGCGTGAC CGCATCGCGG
CTTGGCATTT CTCCGCAGAT GATCGACTCG ACGTTGTATG ACGCCTTCGG CCAACGACTG
GTCACTACGT TGTACACGCA GTTGAACCAG TACCACGTGG TGCTGGAAAC CTTGCCGGAG
TTCCAGAAAA ATCCGAATAA TCTGCACGAT ATCTACGTGC GCAGCGGCGC AGCCAGCAGC
AATAGCAGCA GCGGTAGTAG CAGCCAGACG AACAACAATG GGCTCCTCAT CGTGAGCGGC
ACGGCATCGA GCCAGGCTGG TGGCGGTGCC GGAAATACCA GCAGCGCGGG ATCGAGTACG
CCGAGCACAT TCGCCGGTAC GCCCGGTGGC AATGCCGTCC CGCTCAGTGC GTTTACACAC
TTCGAGCAGC AGCACGCGCC GCTCTCCATC AACCACCAGG GACAGTTCCC CGTGGTGACG
ATCTCGTTCA ATCTCGCACC GGGCTATTCG CTCGGTGACG CGACCAAGGC AATCAACCAG
GCCCAAAAAG ACCTGAACAT GCCGCTCAGC GTTCAGGCGG CATTCCAGGG CACAGCGGCT
TCCTTCCAGT CATCGCTGGC CAACGAACCG ATCCTGATCC TGGCGGCTCT GATCGTCGTT
TACATCGTGC TGGGCGTGTT GTACGAGAGC TATATCCACC CGATCACGAT TCTCTCCACC
CTGCCTTCCG CCGGTGTAGG CGCATTCCTG GCGCTGCTTA TCTGCGGACA GGAGTTCGAT
GTCGTCGCGC TCATTGGCAT CATCCTGTTG ATCGGCATCG TGAAGAAAAA CGGAATCATG
ATGGTGGACT TCGCGCTGGA AGCCGAGCGC GAGCATGGCA AGAACTCGGA AGAAGCGATT
TACCAGGCAG CTCTCCTGCG TTTCCGCCCA ATCATGATGA CGACCATGGC GGCCTTGCTC
GGCGGATTGC CACTGGCGCT TGGCAGCGGC ATCGGCTCCG AATTGCGCCG ACCACTTGGC
ATTTCGATGG TCGGCGGTCT CTTGCTGAGC CAGGTGCTCA CTCTCTACAC CACGCCCGTC
ATCTACATTT ACTTCGATCG TCTTGGACAG CGAATGCTCG GCCGCCGAGT CTCGGACCGC
GGTCCAACCG GCGAATTCGC GCCGTCGCCG GGAGATTAG
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| Protein sequence | MSPSRPFILR PVATSLLMAA ILLAGMVAYF QLPVSALPQV DYPTIQVITF YPGASPDVTA
SAVTAPLERQ FGEVPGLQQM TSTSSSGASV IVLQFELNLN IDVAEQEVQA GINAAQSYLP
TDLPTPPIYS KTNPADAPIL TLALTSKTVP LTQVEDLADT RLAQKIAQLP GVGLVSISGG
QKPAVRIQVN PTQLSSYGLN LEDVRTAIQN TSLDQAKGSF DGPHQNFQIQ ANDQLLSSAD
FKNIVVAYRN NSPVFMKDVA NVVDGAENEK QAAWINTTPA VIMNIQRQPG ANIIQVVDRI
TRLLPQLKTN LPASVDVSVV TDRTTTIRAS VKDVEFELML TVGLVVMVIF LFLRSVSATI
IPSVAVPLSL IGTFGIMYLC GYSLNNLTLM ALTISTGFVV DDAIVMIENI SRFIEEGDPP
LQAALKGAEQ IGFTIVSLTI SLIAVLIPLL FMGDIVGRLF REFAITLSVT ILVSAVVSLT
LTPMMSARLL KHTPESKRSN FYRWSENAFE KTIAFYGRTL TWVLKHQTVT LLVAVLTLIF
TVVLFIIVPK GFFPIQDTGV IQGISEAAQS TSFDAMQRHQ QDLAKVILDD PAVESLSSFI
GVDGTNMTMN SGRIQINLKP LEERHIRATE VIRRLQTKLQ DVQGVTLYMQ PVQDLTVEDR
VSRTQYQYTL EEPDQTDLNK WTAQLVDKMK QLPQIRDVAT DQQTEGMAAN LVIDRVTASR
LGISPQMIDS TLYDAFGQRL VTTLYTQLNQ YHVVLETLPE FQKNPNNLHD IYVRSGAASS
NSSSGSSSQT NNNGLLIVSG TASSQAGGGA GNTSSAGSST PSTFAGTPGG NAVPLSAFTH
FEQQHAPLSI NHQGQFPVVT ISFNLAPGYS LGDATKAINQ AQKDLNMPLS VQAAFQGTAA
SFQSSLANEP ILILAALIVV YIVLGVLYES YIHPITILST LPSAGVGAFL ALLICGQEFD
VVALIGIILL IGIVKKNGIM MVDFALEAER EHGKNSEEAI YQAALLRFRP IMMTTMAALL
GGLPLALGSG IGSELRRPLG ISMVGGLLLS QVLTLYTTPV IYIYFDRLGQ RMLGRRVSDR
GPTGEFAPSP GD
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