| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Cpha266_1045 |
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| Symbol | |
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| ID | 4571007 |
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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 | Chlorobium phaeobacteroides DSM 266 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_008639 |
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| Strand | + |
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| Start bp | 1182154 |
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| End bp | 1185294 |
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| Gene Length | 3141 bp |
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| Protein Length | 1046 aa |
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| Translation table | 11 |
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| GC content | 48% |
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| IMG OID | 639765648 |
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| Product | acriflavin resistance protein |
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| Protein accession | YP_911516 |
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| Protein GI | 119356872 |
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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 | [TIGR00914] heavy metal efflux pump (cobalt-zinc-cadmium)
[TIGR00915] The (Largely Gram-negative Bacterial) Hydrophobe/Amphiphile Efflux-1 (HAE1) Family |
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Plasmid Coverage information |
| Num covering plasmid clones | 3 |
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| Plasmid unclonability p-value | 0.061236 |
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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 | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | ATGACGCTTA CCGAACTTTC CATCAAGCGC GCAAGTCTTG TTGTCGTTGT TTTTTCAGTG
CTTGGTATCC TCGGCTTTTT CAGTTATCAA CAGTTGCAGT ATGAACTGTT GCCGAAGATG
ACACCTCCGG TCGTCTCTGT TTCGGTTCAG TATCCGGGAG CATCACCGGT TGAAGTTGAG
ACGTCGGTTA CCAAACCGAT TGAAGAGGCT GTTTCTGCAA TTGAAAAGAT AGAGAGTATC
TCGTCGGCGT CTTCCGAAGG GCTTTCTTCC GTCACGATCG AATTTTCGAA TTCCGCTGAT
ATTGACAAAT CGCTGCAGGA TGTCCAGCGC AAAGTCAATG AAATCAGAGG TTTTTTGCCC
GATGAAGCCA AAGAACCGGT TACCAGCAAA TTTGCTCTTG ACGAGGTTCC CGTTCTGCGA
ATAGGAGCAA CCTCTCTTTT GTCGGATAGC GAGTTCTACC AGCGACTGAA GGATGATATC
AAACCGGTTC TTTCCCGGAT TGACGGAGTT GGTCAGGTCT ATCTTCTTGG TGGTCGGGAA
AGGGAGATAC GTGTAAACCT TGACCTTGAT CGTTTGCAGG GATATAACCT TACTGTTACG
GATATTCTGC GTGAAATCGA GCGCTCAAAC CTTGATTTTC CAACTGGAAA GATCAATGAC
AGCGATCGTC AGTTTGTTGT TCGTCTTGCA GGAAAATATG CAACTCTTGA TGAATTGCGC
AATCTGGTCA TCAGTTCATC CGGAGATGGC AGCGTTGTGC ATCTCAGTGA TATTGCCGAC
GTTGAGGACG GGTTCAGGGA GATAACGACC TTGACGAGAC TAAACGGGAA AAGCGCTGTC
GGCATCATCA TCATGAAGCA GACCGATGGC AATACCGTCG CGGTCAGCCG CCTTGTCCGA
CAGGAGCTTG TACGCCTTGA AAAACTCTAC AAGGCAGAGG GAATTTCGTT TGATATTGCA
CAGGACGCTT CGACCTTTAC GCTTGAAGCA GTTACGGCTG TCCAGCACGA TCTTCTGCTT
GCCGTCGTGC TTGTTGCACT TGTCATGCTG CTTTTTCTGC ACAGTCTCAG AAATTCGTTG
ATTGTGCTTA TATCAATACC GACCTCTCTT GTCACGACCT TTATCGGGAT GTACCTCTTC
GGATTTTCGC TGAACCTTAT GACTCTGCTT TCTCTTTCGC TGGTTGTGGG GATTCTGGTT
GATGACTCCA TTGTTGTTCT TGAAAACATC TATCGCCACC TTGAACAGGG CGAAGAACCC
CGATCGGCGG CATTGACGGG CCGAAATGAG ATCGGTTTTA CCGCACTTTC CATTACGATG
GTTGATGTGG TTGTTTTTCT CCCATTGTCG CTTGTCAGCG GTCTTGTCGG CAATATTCTC
AGGGAGTTTG CCGTTGTGAT GGTCATTTCC ACGCTTGTCA GTCTTTTTGT CTCCTTTACC
GTGACTCCGT TGCTTGCATC AAGATTTTCA AAAGCGGAAA AACTGGTTGC GGATAATGCT
TTTTCCTCCT TCGCTCTGGC TTTTGAACGG CATTTCCAGC GTTTCAGGGA TTGGTACCTT
CTCTTGCTTC GCTGGAGTCT TGAGAATTCG AAAAAAGTGA TTCTTCTGTC GACAATTCTT
CTTTTTTCAT CGTTCTCTCT TCTCTTTCTT GGTTTTATCG GGGGGGAGTT TATTTCGGTT
TCAGACAGGG GAGAGTTCTC CGTCATGATG GAGTTTGAGC CGGGAACAAA GCTTCGGGAG
ACCGATCGGA TCACCCGCGA AGTAGAGCGG AAAATCGCCC GTATGCCCGA GGTCAAAAAG
GTGCTGGTGA ATGTCGGTTC TTCGAGTGAA GGTTTTTTCA ACCAGAGCGC TGACAATATA
TCGGAACTCA ATGTACGGCT CAGCGGCAAG GAGGAGCGTA AAAGGTCAAC CGACGATCTG
ATGAAGGTTG TTCGCAATGA CCTTCGCGGT ATTCCCGGCC TTAAGGCGAG CATTAATCCT
ATTGGTATTT TTGGAACGGC AAATGAGACG CCGGTCATCG TCATTATCGG AGGAGCGCTG
AGAAGCGACG TCACTCGTGT TGCAGAAGCA CTCAGAGACA GTTTGCGGGT GACGCCCGGT
ACTGCCGATG TGAAACTTAC ATCCCAGGTT GGAAATCCCG AAATGCGTCT GAAGATCGAT
CGGCAGAAAA TGGCGGAATT CGGATTGAAT ATTGCCGACG TCGGCGCAAC GCTTCGTACG
GCCTATGCCG GCGACGATGC CGGCAAATAC CGTGACGGTG ACGATGAGTT CACCATAAGG
GTCATGCTTG ACGAGTTTTA CCGGCACAAC ACTTCGAGCA TTGAGAATAT TGTCTTTCGT
AATGCTGCCG GTGATCATAT ACGGCTTGGG CAGTTTGTTG CGCTTGAGCA GGATCGAGGA
TATACGCAAC TGCAGCGAAA AGACAGAAAT AACGCCGTAT GGGTTAAAGC GCAGGTTGTC
GACCGTCCTG TCGGGGAGGT CGGCACGGAG ATAGAACGGA TTATCGTCAA TATGAAAAAG
CGCGGCATTA TGCCGGAGGG GGTAACCTAT GCGTATGAAT CAGATTTGAA AAGGCAGGGC
GAATCCTTTT CAACCATGCT GATGGCTTTT CTTGTAGCGG TGCTGTTTGT TTATCTCGTT
ATGGTCGCTC TTTATGATTC CTATGTCTGG CCGATGGTTG TGATGTTTTC GATACCGCTT
GCTATTATCG GCGCTCTTTT TGCGCTTGCT CTGACAGGCA AGTCACTGAG TATTTTTACC
ATTCTCGGTA TCATCATGCT TGTCGGGCTT GTTGGTAAAA ACGCTATTCT TCTTGTTGAT
TTTATCAACA GATTCCGTGA AGAAGGCATG GCGTTGTATC CGGCTATTAT CGAAGCAGGC
AGAGATCGGT TGCGTCCGAT TCTCATGACA ACCTTTACGG TGATTTTCGG ACTTTTTCCA
ATCGCGGTTT CGGGAAGTTC CGGTTCTGAA TGGAAATCAG GTCTTGCCGT TGCCCTGATC
GGCGGACTTG GCAGTTCAAT GTTTCTTACG CTTCTTGTGA TTCCTGTCGT CTATGTCTGG
TTTGACCGCC AGAAAAATCG CTTTGAAGGT ATCAGGATGC GATGGGGCAA GAAGGGAGAT
AAGATAAGAT CGGCAGGCTG A
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| Protein sequence | MTLTELSIKR ASLVVVVFSV LGILGFFSYQ QLQYELLPKM TPPVVSVSVQ YPGASPVEVE
TSVTKPIEEA VSAIEKIESI SSASSEGLSS VTIEFSNSAD IDKSLQDVQR KVNEIRGFLP
DEAKEPVTSK FALDEVPVLR IGATSLLSDS EFYQRLKDDI KPVLSRIDGV GQVYLLGGRE
REIRVNLDLD RLQGYNLTVT DILREIERSN LDFPTGKIND SDRQFVVRLA GKYATLDELR
NLVISSSGDG SVVHLSDIAD VEDGFREITT LTRLNGKSAV GIIIMKQTDG NTVAVSRLVR
QELVRLEKLY KAEGISFDIA QDASTFTLEA VTAVQHDLLL AVVLVALVML LFLHSLRNSL
IVLISIPTSL VTTFIGMYLF GFSLNLMTLL SLSLVVGILV DDSIVVLENI YRHLEQGEEP
RSAALTGRNE IGFTALSITM VDVVVFLPLS LVSGLVGNIL REFAVVMVIS TLVSLFVSFT
VTPLLASRFS KAEKLVADNA FSSFALAFER HFQRFRDWYL LLLRWSLENS KKVILLSTIL
LFSSFSLLFL GFIGGEFISV SDRGEFSVMM EFEPGTKLRE TDRITREVER KIARMPEVKK
VLVNVGSSSE GFFNQSADNI SELNVRLSGK EERKRSTDDL MKVVRNDLRG IPGLKASINP
IGIFGTANET PVIVIIGGAL RSDVTRVAEA LRDSLRVTPG TADVKLTSQV GNPEMRLKID
RQKMAEFGLN IADVGATLRT AYAGDDAGKY RDGDDEFTIR VMLDEFYRHN TSSIENIVFR
NAAGDHIRLG QFVALEQDRG YTQLQRKDRN NAVWVKAQVV DRPVGEVGTE IERIIVNMKK
RGIMPEGVTY AYESDLKRQG ESFSTMLMAF LVAVLFVYLV MVALYDSYVW PMVVMFSIPL
AIIGALFALA LTGKSLSIFT ILGIIMLVGL VGKNAILLVD FINRFREEGM ALYPAIIEAG
RDRLRPILMT TFTVIFGLFP IAVSGSSGSE WKSGLAVALI GGLGSSMFLT LLVIPVVYVW
FDRQKNRFEG IRMRWGKKGD KIRSAG
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