| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Mmar10_0178 |
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| Symbol | |
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| ID | 4284168 |
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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 | Maricaulis maris MCS10 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_008347 |
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| Strand | + |
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| Start bp | 187466 |
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| End bp | 190636 |
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| Gene Length | 3171 bp |
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| Protein Length | 1056 aa |
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| Translation table | 11 |
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| GC content | 56% |
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| IMG OID | 638139644 |
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| Product | putative cation efflux system transmembrane protein |
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| Protein accession | YP_755412 |
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| Protein GI | 114568732 |
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| COG category | [P] Inorganic ion transport and metabolism |
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| COG ID | [COG3696] Putative silver efflux pump |
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| TIGRFAM ID | [TIGR00914] heavy metal efflux pump (cobalt-zinc-cadmium)
[TIGR01131] ATP synthase subunit 6 (eukaryotes),also subunit A (prokaryotes) |
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Plasmid Coverage information |
| Num covering plasmid clones | 14 |
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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 | 53 |
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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 | ATGATTGCTT CAATCATCCG CTGGTCGATC GGCAATCGTC TAATCGTCCT CATCATGGCG
GTCTTGTTGG CTGTATTTGG AGCCTTCTCG CTTAGCCGCA CGCCGCTTGA TGCCATCCCC
GACCTGTCCG ATGTTCAGGT CATCATCAAA ACGACCTATC CTGGACAGGC GCCCCAAGTC
GTTGAAGATC AGGTCACCTA CCCACTGACA ACCGCGATGT TGGCGGTCCC GGGCGCGGTA
ACCGTTCGAG GCTATTCTTT CTTCAACGAC AGTTATGTTT ACATCATCTT CGAGGATGGG
ACCGACCTAT ACTGGGCGCG GTCGCGCGTC TTGGAATATC TCTCTCAGGT CGCCCCCACC
CTGCCAGAGG GGGCATCTCC AGCCTTGGGC CCTGATGCAA CCGGGGTTGG TTGGATTTAT
CAATATGCGC TTGTAGACCG TACCGGTCAG CACGACCTGT CCGAGCTGCG TTCGCTACAA
GACTGGTTCC TCAAATTCGA GCTTCAAACG ATTGAGGGCG TTTCCGAAGT CGCGACAATC
GGCGGAATGG TGCGGCAATA CCAGGTTGTC GCCGATCCCG ACCGTTTGCG AGCTTACAAT
ATTCCACTTT CTCACCTTCG CATGGCGATA CAACGCGGCA ATCAGGAGAC CGGCGGTCGC
GTCATAGAAA TGGCCGAAGC GGAATACATG GTCCGAGCGT CTGGCTATAT CCAAGGCATC
GAGGATCTCG AGGCTATCCC GGTGAGCGTG ACTGAGAACG GTACGCCCAT CTTGCTATCG
GATGTCGCCG ACATTCAAAT CGGTCCTGAG CTGAGGCGCG GCATCGGTGA ACTCAATGGT
GAGGGCGAAG CGGTGGGCGG CGTCATCATC ATGCGTTATG GCGAGAACGC GCTGGCTACA
ATCGAACGTG TTGAAGAACG CATTCACGAG CTTGAAGAAT CTCTGCCTGA GGGTGTTGAG
ATTGTCACCA CCTATAATCG CGCCGGTTTG ATCGAGCGCG CCGTGCACTC CCTGCAAGAA
AAGCTCATCG AGGAATTCCT TGTCGTTGCG CTGATCTGCG CGATCTTTCT CTTCCACCTG
CGCTCATCGC TCGTGATCGT GCTCAGCTTG CCGCTGGGCG TGCTGGCAGC CTTCATCATC
ATGAACGCGC AAGGGATCAA CGCCAACATC ATGTCATTGG GCGGAATTGC GATTGCGATT
GGCGCCATGG TCGACGCGGC CATCGTGATG ATCGAGAACT TACACAAACA TATCGAAAAA
GAGGAGATAA CGCCGGAAAA CCGATGGCGG ATTGTGGCTG AAGCATCGGT GGAGGTTGGA
CCAGCGCTCT TCTTCTCCCT CCTGATCATC ACGTTCAGCT TCGTGCCTAT CTTTGCCTTG
GAGGCACAAG AGGGACGTCT CTTCCATCCA TTGGCGTTCA CCAAAACCTA TGCGATGGCC
GCCGCGGCGG GGCTCTCGGT TACGCTGGTT CCGGTGCTAA TGGGCTTCTT CATTCGCGGC
AAGATTACGC CTGAGCACAA GAACCCGATC AATCGAGTTT TGATGGCGGC GTATCGCCCC
TTTATTAACG TTGTATTGGC ACGTCCTTGG GTCATGGTCG GCATGGCTGT CCTTGTTATG
GCCAGTGCGG CTGTGCCGCT ATCGCGCATG GGCAGCGAAT TCATGCCGGA CCTGGACGAG
GGGGACTTGC TATACATGCC CAGCGCATAT CCGGCGGTTT CCGTGGGTAA GATCGCCGAA
GTGGTTCAAC AAACCAACCG GCTCATTGCG ACGGTGCCTG AAGTCCTCAC CGTGTATGGC
AAGGCAGGAC GGGCAGATAC AGCGACTGAT CCAGCTCCCT TGACGATGAT TGAGACGACG
ATCCAGCTCC GCCCGCGCGA CGAATGGCGC CCCGGTATAA CGATGGATGA CATACGCGCC
GAACTTGACC AGCTGGTCGA CGTGCCATCG CTCACAGATG TGTGGATCAT GCCGATCCGC
AACCGCATCG ACATGCTAGC GACCGGTATT AAGACCCCTG TTGGGATCAA GGTTGCCGGT
CCGGATCTTG ATGTGATCGC GGAGATTGGG GAACAGATCG AGGGCGTAAT CGAGACTGTC
CCGGGGACCG CTTCTGTATA CGCTGAACGC GTAACCGGTG GGCGGTTTGT GGATATCGAT
GTTGATCGTC TTGAAGCGGC GCGTTTCGGT CTCAATGTTG CCGACGTACA CGATGTTGTT
CGCACCGCAA TCGGCGGAAT GACCATAACG GAGAGCGTTG AGGGGCTAGA ACGATATCCA
GTCAATTTGC GATATCCGCG CGACTACCGC GGGTCCATCG ATGAACTCAG ATCTCTCCCC
ATTGTCACGC CGTCCGGCGC ACAAATTCCG TTGTCGCGGA TCGCGACAAT TGATGTGTCT
AGCGGCCCTG GCGTCATTCG CAGCGAAAAT GCCCGCCTAA ACGGTTGGAT TTATGTCGAT
ATTGCCGATG TTGATATTGG CAGTTATGTG GCCGATGCAC AGGCTGCGGT CCAGGAGCAT
ATTGATTTGC CGGCGGGATA TTCGATCAGC TGGTCGGGCC AGTATGAGTA CATGGAGCGA
GCGAAGGCCA AGCTAAGTAT CGTGGTTCCA GTCACTCTCG TGATCATTGT TTTGCTGCTC
TTCTTCAACT TCGGGCGACT CATCCCAGTT CTCCTAATCA TGGTCACCTT GCCGCTATCG
CTCGTTGGCG GACTGTGGCT GCTTGATCTA CTCGGCTACA ACATGTCCGT GGCCGTCGGT
GTCGGGTTCA TTGCGTTAGC CGGCGTTGCC GTCGAAATCG GCGTTTTGAT GATTGTGTAT
CTCGAACAGG CCCTTGCTCG ACGAAAGGCG CTAGCGCGAG ATGAAGGCCG TGCCATGACG
GTTATGGACT TAAGAGAAGC CATCGTTGAA GGCGCGGTTA TGCGTGTGCG GCCCATTATG
ATGACCGTGG CGGTGATCGT CGCCGGCCTC TTGCCGATTA TGTTCGGTAC GGGAACGGGC
TCGGAGGTCA TGCGCCGAAT TGCAGCGCCT ATGGTTGGCG GAATGACGAG TGCGACGATC
CTGACGCTCT TGGTAATTCC TGCTGCCTTC CTGCTTTGGC AAAGGGCTGT CCTAACAACC
AGCAAGCCAG AACCGGATGA TACTCAGATT GAGGGAGCGC CTGCTGAATG A
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| Protein sequence | MIASIIRWSI GNRLIVLIMA VLLAVFGAFS LSRTPLDAIP DLSDVQVIIK TTYPGQAPQV
VEDQVTYPLT TAMLAVPGAV TVRGYSFFND SYVYIIFEDG TDLYWARSRV LEYLSQVAPT
LPEGASPALG PDATGVGWIY QYALVDRTGQ HDLSELRSLQ DWFLKFELQT IEGVSEVATI
GGMVRQYQVV ADPDRLRAYN IPLSHLRMAI QRGNQETGGR VIEMAEAEYM VRASGYIQGI
EDLEAIPVSV TENGTPILLS DVADIQIGPE LRRGIGELNG EGEAVGGVII MRYGENALAT
IERVEERIHE LEESLPEGVE IVTTYNRAGL IERAVHSLQE KLIEEFLVVA LICAIFLFHL
RSSLVIVLSL PLGVLAAFII MNAQGINANI MSLGGIAIAI GAMVDAAIVM IENLHKHIEK
EEITPENRWR IVAEASVEVG PALFFSLLII TFSFVPIFAL EAQEGRLFHP LAFTKTYAMA
AAAGLSVTLV PVLMGFFIRG KITPEHKNPI NRVLMAAYRP FINVVLARPW VMVGMAVLVM
ASAAVPLSRM GSEFMPDLDE GDLLYMPSAY PAVSVGKIAE VVQQTNRLIA TVPEVLTVYG
KAGRADTATD PAPLTMIETT IQLRPRDEWR PGITMDDIRA ELDQLVDVPS LTDVWIMPIR
NRIDMLATGI KTPVGIKVAG PDLDVIAEIG EQIEGVIETV PGTASVYAER VTGGRFVDID
VDRLEAARFG LNVADVHDVV RTAIGGMTIT ESVEGLERYP VNLRYPRDYR GSIDELRSLP
IVTPSGAQIP LSRIATIDVS SGPGVIRSEN ARLNGWIYVD IADVDIGSYV ADAQAAVQEH
IDLPAGYSIS WSGQYEYMER AKAKLSIVVP VTLVIIVLLL FFNFGRLIPV LLIMVTLPLS
LVGGLWLLDL LGYNMSVAVG VGFIALAGVA VEIGVLMIVY LEQALARRKA LARDEGRAMT
VMDLREAIVE GAVMRVRPIM MTVAVIVAGL LPIMFGTGTG SEVMRRIAAP MVGGMTSATI
LTLLVIPAAF LLWQRAVLTT SKPEPDDTQI EGAPAE
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