| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | VEA_001395 |
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| Symbol | |
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| ID | 8559707 |
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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 | Vibrio sp. Ex25 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_013457 |
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| Strand | - |
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| Start bp | 1579521 |
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| End bp | 1582661 |
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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 | 49% |
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| IMG OID | 646409064 |
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| Product | cation efflux system protein cusA |
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| Protein accession | YP_003288543 |
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| Protein GI | 262396690 |
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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) |
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Plasmid Coverage information |
| Num covering plasmid clones | 5 |
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| Plasmid unclonability p-value | 0.0283098 |
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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 | ATGATTGGAG CAATAATCCG CTGGTCGATC AAAAACCGTT TCATGGTTTT GATCGCTACC
TTAGCGCTTG TTTTAACCGG ACTTTACAGT GTAAAGAATA CACCTGTAGA CGCCATTCCG
GATCTTTCTG ATGTTCAAGT GATCATCAAA ACAAGCTACC CAGGCCAAGC ACCTCAAGTG
GTGGAAGATC AAGTTACTTA TCCGCTAACC ACCGCCATGC TCGCCGTACC AGGAGCGGAA
ACCGTTCGTG GTTATTCATT CTTTGGTGAC TCATATGTTT ATATCATTTT TAACGATGAT
ACCGACATGT ATTGGGCACG TTCGCGCGTT TTAGAGTACC TAAGCCAAGT AGCACCTAAA
TTACCACCGA GTGCAAAACC GACATTAGGA CCAGATGCAA CGGGTGTGGG CTGGGTCTAC
AGCTATGTAC TGCAAGATAA AACTGGCAAC CATGATCTTG CTGATCTACG CAGTATGCAA
GACTGGTTCT TGAAATATGA GTTGCAAACC GTCGATGGCG TCTCTGAAGT CGCAACCGTT
GGCGGTATGG TGAAGCAATA TCAAGTTCAG ATTGACCCAG CTAAGCTACG TGCTTACAAC
CTGACACTGC AACAAGTGAA CATGGCGATC CAAAACGGCA ATCAGGAAAC GGGCGCCTCT
GTTGTTGAAG TAGCAGAAGC GGAACACATG GTTCGCACTA CAGGTTACCT AACGAGTATT
GAGGATATTG AATCACTCCC GCTCAAAGTG ACAGAGAAAG GTACACCGCT CTTACTGGGC
GACATTGCCG ACATCAACTT AGGTCCGCAA ATGCGTCGCG GCATCTCTGA GCTTAACGGC
GAAGGTGAAG CGGTTGGTGG CGTTATTGTC ATGCGATTCG GCGAAAACGC GAGTGAAGTC
ATCAGCAAAG TTAAAGACAA ACTGGAAGAT TTACAGCGCA GCTTACCGGA TGGTGTAGAA
ATCGTGCCTA CTTACGATCG CTCCACGCTG ATTAACGCTG CCGTAGAAAA CTTGTGGAAG
AAATTGGCGG AAGAATTCAT TGTCGTGGCG ATTGTTTGTG CCCTCTTCCT ATTTCACATC
CGTTCGTCTT TGGTTATCGC GCTGAGCTTG CCCGTCGGTA TTTTATCCGC GTTTATCGTC
ATGCATTCTC AAGGCATTAA TGCCAACATC ATGTCGCTCG GGGGGATTGC CATCGCCATC
GGTGCTATGG TGGATGGTGC CATCGTAATG ATAGAAAACG TCCACAAGCA TATTGAACGA
ACGCCTCTCA CGGATAAGAA CCGCTGGCAA GTGATTGGCA AAGCCGCTGA AGAAGTGGGC
GCGCCCCTGT TCTTCTCACT ACTTATCATC ACGTTAAGCT TTGTGCCAGT ATTTGCACTG
GAAGGTCAAG AGGGCAAGAT GTTCTCCCCT CTCGCCTTTA CTAAAACTTA TGCAATGGCC
GCAGCGGCAG GTTTGGCAAT TACCCTCGTA CCTGTGCTCA TGGGTTATTT CATCCGTGGC
AACGTATTAC CAGAACATAA GAATCCAGTA AATAGAGGCT TAATTGCGCT GTATCGCCCG
TTGCTGAATA CCAGCCTCAA GTATCCTAAG AGTATGATCG TTATCGCTTT AGGCCTAATG
GCGTCAGCTT ACTATCCAAC CAGTCAACTG GGTAGCGAGT TCATCCCACC ATTGGATGAA
GGCGACTTGA TGTACATGCC GACTACGTAT CCGGGAATCT CGATTGGTAA AGCACGTGAA
CTAGTTCAGC AAACCAACAA GCTGATCAAA ACCGTACCGG AAGTCAAAAC GGTTTGGGGC
AAGATTGGCC GTGCGGAAAC GGCCACCGAT CCTGCACCAC TTACCATGAT TGAAACAGTT
ATTCAGCTAA AACCTCACGA TCAATGGCGT GAAGGCGTGA CGACAGAGTC GTTACGCAAA
GAGTTCGATG AACTGATTCA GTTTCCGGGA CTCACCAACG CTTGGGTAAT GCCAATCAAA
ACGCGTATCG ACATGCTAGC GACCGGTATT AAAACGCCAA TTGGGATCAA GATTGCAGGC
CCAGACCTGA AAGAGATCGA AAAAATTGGT GCTCAGCTGG AACCTATTCT TAATAGCGTT
CACGGCACCT CATCTGTATA TGCCGAGCGT GTAGCCGGTG GCCGTTACGT AACAATCGAC
ATTAAACGCC GCGCTGCTGC GAGATATGGC TTAAGCATCA AAGACGTTCA GCAAGTCATC
TCAACCGCTG TTGGGGGTAT GAATGTTGGA GAAACCATTG AAGGCTTGGA ACGCTACCCG
ATTAACGTTC GCTACCCGCA AGACTACCGT GACTCGGTTG TTAAACTGCA AAACCTACCA
CTGGTAACCC CCAACGGCGC ACGCATCGCA CTCGCAGACG TGGCAGATAT TCGTTATGAA
GATGGTCCAC CGATGATCAA AACCGAAAAC GCGCGTCCAA ACGGTTGGGT TTTCGTGGAT
ATCGAAGGTC GTGACCTAGG CTCATACGTC GTGGAAGCAC AACAAGTAGT AGCAGATCAA
CTTGAATTAC CTGCGGGTTA TTCGCTGGCT TGGTCAGGTC AGTACGAATA CATGGAACGC
GCCAAAGACC GCTTAAGTGT CGTAGTACCA ATCACTATTG CGATCATCAT GATGCTACTT
TACTTCAGCT TCCGCCGTGT AGGTGAGGTG CTGATCATCA TGCTGACGCT GCCTTTAGCA
ATGGTTGGTG GCTTATGGCT GATGCATTAT CTGAACTACA ACTTCTCTAT TGCCGTGGGG
GTTGGGTTTA TCGCACTCGC CGGCGTTGCG GTGGAGATAG GCGTCATCAT GCTGGTGTAT
CTCAACCAAG CATGGCACCA CCGAAAACTG GATGCAGAAG AGAAACAACG ACCGCTTCAA
GCGCGGGATC TTACAGACGC AATTCGCGAA GGTGCTGGCT TACGTGTGCG GCCTGTCATG
ATGACCGTAT TAACGGTAAT CATTGGTCTT ATTCCAATCA TGTACGGTGA GGGAACCGGC
TCTGAAGTGA TGCAACGCAT CGCTGCACCG ATGATTGGTG GCATGGCCTC TGCCCTGCTG
TTAACGCTGC TTGTGCTACC TGCCATCTTC AAGCTGTGGA AACAGCGTGA AGTGAAATCA
ACTCAACACC AAGATAAATA A
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| Protein sequence | MIGAIIRWSI KNRFMVLIAT LALVLTGLYS VKNTPVDAIP DLSDVQVIIK TSYPGQAPQV
VEDQVTYPLT TAMLAVPGAE TVRGYSFFGD SYVYIIFNDD TDMYWARSRV LEYLSQVAPK
LPPSAKPTLG PDATGVGWVY SYVLQDKTGN HDLADLRSMQ DWFLKYELQT VDGVSEVATV
GGMVKQYQVQ IDPAKLRAYN LTLQQVNMAI QNGNQETGAS VVEVAEAEHM VRTTGYLTSI
EDIESLPLKV TEKGTPLLLG DIADINLGPQ MRRGISELNG EGEAVGGVIV MRFGENASEV
ISKVKDKLED LQRSLPDGVE IVPTYDRSTL INAAVENLWK KLAEEFIVVA IVCALFLFHI
RSSLVIALSL PVGILSAFIV MHSQGINANI MSLGGIAIAI GAMVDGAIVM IENVHKHIER
TPLTDKNRWQ VIGKAAEEVG APLFFSLLII TLSFVPVFAL EGQEGKMFSP LAFTKTYAMA
AAAGLAITLV PVLMGYFIRG NVLPEHKNPV NRGLIALYRP LLNTSLKYPK SMIVIALGLM
ASAYYPTSQL GSEFIPPLDE GDLMYMPTTY PGISIGKARE LVQQTNKLIK TVPEVKTVWG
KIGRAETATD PAPLTMIETV IQLKPHDQWR EGVTTESLRK EFDELIQFPG LTNAWVMPIK
TRIDMLATGI KTPIGIKIAG PDLKEIEKIG AQLEPILNSV HGTSSVYAER VAGGRYVTID
IKRRAAARYG LSIKDVQQVI STAVGGMNVG ETIEGLERYP INVRYPQDYR DSVVKLQNLP
LVTPNGARIA LADVADIRYE DGPPMIKTEN ARPNGWVFVD IEGRDLGSYV VEAQQVVADQ
LELPAGYSLA WSGQYEYMER AKDRLSVVVP ITIAIIMMLL YFSFRRVGEV LIIMLTLPLA
MVGGLWLMHY LNYNFSIAVG VGFIALAGVA VEIGVIMLVY LNQAWHHRKL DAEEKQRPLQ
ARDLTDAIRE GAGLRVRPVM MTVLTVIIGL IPIMYGEGTG SEVMQRIAAP MIGGMASALL
LTLLVLPAIF KLWKQREVKS TQHQDK
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