| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | MADE_02034 |
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| Symbol | |
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| ID | 6776122 |
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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 | Alteromonas macleodii 'Deep ecotype' |
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| Kingdom | Bacteria |
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| Replicon accession | NC_011138 |
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| Strand | + |
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| Start bp | 2202832 |
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| End bp | 2206041 |
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| Gene Length | 3210 bp |
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| Protein Length | 1069 aa |
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| Translation table | 11 |
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| GC content | 45% |
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| IMG OID | 642755469 |
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| Product | Heavy metal efflux pump CzcA |
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| Protein accession | YP_002126330 |
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| Protein GI | 196156841 |
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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 | 3 |
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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 | 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 | ATGTTTAATA AATTAATTGA TTGGGCTGTT ACTAGTCGTT TATTAGTGGT GATTGCTCTG
ACAACGTTAA TAGTCAGCGC GGTTTTTGTT ATTCCGAAAC TGAATTTGGA TGCATTTCCA
GATGTCACCA ATGTGCAAGT ATCTGTCAAT ACAGAAGCAC CGGGATTAGC TGCCGAAGAA
GTAGAGCAGT TAATTACTTA TCCAATAGAA GCGGTGATGT ATGCCTTACC TGATGTGATG
GAAGTGCGCT CTATTTCTAA AACAGGTCTT TCAGGTGTGA CCGTTGTGTT TAGCGAGGGC
ACAGATATTT ATTTTGCACG TCAATTGGTA TTCGAGCGTC TGCAAGCGGC TAAAGAGTTA
ATTCCCGAGG GCGTCGGTAC GCCAGAAATG GGACCCAACA CATCAGGATT GGGGCAAGTG
TATCAGTATC TATTGTTGGC TGAGCCCGAT TCAGGCCTAG ACGCTATGGC GTTGCGTAGT
TTAAATGATT GGGTGGTGAA ATTGCTGCTG CTTCCTGCCG ATGGCGTAAC GGATGTGCTC
TCTTTTGGTG GGGAAGTACG CCAATACCAA GTTAACCTCA ATCCATCTCA ATTACTTGGA
TATGGCTTGA CTCAAGATAT AGTGATGGAA GCACTTGAGC GGAATAATAC CAATGTGGGG
GGGTGGTATA TGAACCGAGG GCAGGAGCAA CTTGTGATAA GAGGCACTGG CTGGTTAGAT
CATGGCGAGG AAGGGTTAGA GCAATTACGT CAGGTACCTT TAAAAACCGT AGACGGAACA
ACGATTACTG TATCCGATGT GGCGAACGTT GAGTTAGGTA GCGAAATTCG TCAGGGTGCT
GCCACCATGA CCAGAAAAGA CGCCGACGGT AACATTCAAA ACTTAGGTGA AGTCGTCTCA
GGCATTGTAC TTAAGCGCAT GGGAGCTAAC ACGAAAGCCA CAATTGATGG CGTCAATGCT
CGTATTCAGC GAATTAACCA AGCATTGCCT GATGGCGTGA GTTTTGAAGT ATTCTACGAT
CAAGCTGACT TAATTACTCA AGCCGTGGAT ACGGTTGTAA ATGCGCTAAT GTTAGCGTTC
GTATTTATTA TTGTTATTCT AGCTTTATTT TTGATGAATC TACGAGCCAC GTTTTTAGTC
CTGATTTCGA TCCCTATTTC TATTGGTATT GCCTTAATGG TCATGTCGTG GTTTGGACTT
TCTGCCAACC TTATGTCGCT TGGGGGCATT GCAGTGGCAA TCGGCATGCT AGTAGATGGC
TCAGTGGTAA TGGTTGAAAA CATGTTTAAA CACTTGACTC ACACTGATGC TGAGCATGAT
CACAAGAGAC AATTGGGTGA ACATGTTGAA GATGATGATC CATTAGACTC GTCCCATGAT
ACGCACGGTA TCGCTTTGCG ATTACAAGAA GCGGGCAAGG AGGTAGCCCG GCCTATCTTC
TTCGCAACAG CCATAATCCT TGTGGTATTC ATGCCTTTGT TTAGCTTTGA AGGCGTTGAA
GCAAAATTAT TTCAACCAAT GGCTATTAGT ATTATGTTGG CCATGCTTTC GGCGGTATTA
GTTGCACTGA TTATTGTACC GGCATTGGCG ACGTATCTAT TTAAAAAAGG CGTGAAACCA
CGAGAAAGCG TTGTGTTGAA ACCTTTAGAC GCGGGGTATC GCAAAGGGCT ATCGTGGGCA
ATTTTGCATA AAAAAGTAGT GATTGGAATT GCTGCAATTA TGGTAGTCGC TGCTGGTGTA
GTGCTTCCTC GGCTTGGCAC AGAGTTTGTA CCAGAACTGG AAGAGGGCAC CATTAACTTG
CGTGTTACTT TAGCGCCTTC ATCTAGTTTA GATACTGCCC TAGAGGTATC CCCGAAATTA
GAGAATATAT TAATGGGGTT TCCAGAAGTC ACCTATACGT TGTCGCGTAT CGGTCGCGCC
GAAATAGGGG GTGATCCAGA GCCGGTGAAC AATATCGAAA TTTATATTGG ACTAAAGCCT
GTGCCTGAAT GGACAAGTGC AAATAACCGT TATGAACTGC AAGCGTTAAT GGAAGAAAAA
ATGGAGCAAC ATCCGGGTTT GCTTTTCAAT TTTTCTCAAC CTATCGCGAC AAGGGTTGAC
GAGTTATTGT CGGGAGTTAG AGCGCAGCTA GCCATTAAAT TGTTTGGGCC TGACCTCAAA
GTTCTAGCTG AAAAAGGCCA GGCCATTGAA GCATTAGTAA AAGAAGTTCA AGGTGCACGA
GATGTTGCAA TGGAACAAAT TGCCGGAGAA TCTCAGCTCA TTGTGACACC GAATCGTCGA
GCTCTGTCGC GCTATGGATT GGCCGTGGGT GATGCAATGG AACTTGTACG CGAAGGTTTA
GGTGGAGCCA GTGCTGGTCA AATCATTAAT GGTAATGAGC GATATGATAT TTATGTCAGG
CTTGCTGAAC AATTCCGAAA TGACAGTCAA ATGATAGCTG ACTTGCGTTT ACAAGCTCCA
TCGGGTGCTT GGGTTCGTTT GGGGGACGTG GCTGAAGTGA CTATCGCCTC TGGTCCACCG
CAAGTAAGAC GTGATGACGT GCAGAGGCGA GTTGTGATCC AGGCGAATGT TCAAGGTCGA
GATATGGGTA GCGTTGTGGC AGATATTCGC AAATCTATTG ATGAGAAACT AGCACTGCCT
ACAGGGTATT CGGTGGATAT TGGCGGTCAA TTTGAGAATC AGCAACGAGC GCAGAAGCGA
CTATCATTGG TTGTGCCACT TTCTTTGGGG TTAATAGCTT TATTATTGTA CTTTGCTTTT
GCTTCATTTG GTCAGGCAAT GTTGATACTT GTAAATGTAC CATTGGCTGT TATCGGGGGG
GTATTTTCAC TTTGGTTATC AGGTCAATAT CTTTCTGTGC CGAGCTCCGT AGGTTTTATT
ACCCTATTCG GCGTAGCGGT GTTAAACGGA GTCGTGATGG TAGAAAGCAT CAATCAGCGT
GTTGCAGACG GGTTATCGGT ATCTGACGCC GTATTTGATG GTGCTACATC AAGACTGCGC
CCTGTATTGA TGACAGCGAT TACATCTGCG CTAGGCCTTA TTCCAATGTT ACTGTCTAAT
GGCGTTGGTG CTGAAATCCA AAAGCCTTTA GCGAGTGTAA TCGTTGGTGG CTTGGTAACC
GCTACATTTT TAACTCTATT TGTATTACCT GTGCTATTCG CCTGGTTTTC AAAAGGGAAG
TTAAAAGATA TGGCAAGAGC GCCTTCCTAA
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| Protein sequence | MFNKLIDWAV TSRLLVVIAL TTLIVSAVFV IPKLNLDAFP DVTNVQVSVN TEAPGLAAEE
VEQLITYPIE AVMYALPDVM EVRSISKTGL SGVTVVFSEG TDIYFARQLV FERLQAAKEL
IPEGVGTPEM GPNTSGLGQV YQYLLLAEPD SGLDAMALRS LNDWVVKLLL LPADGVTDVL
SFGGEVRQYQ VNLNPSQLLG YGLTQDIVME ALERNNTNVG GWYMNRGQEQ LVIRGTGWLD
HGEEGLEQLR QVPLKTVDGT TITVSDVANV ELGSEIRQGA ATMTRKDADG NIQNLGEVVS
GIVLKRMGAN TKATIDGVNA RIQRINQALP DGVSFEVFYD QADLITQAVD TVVNALMLAF
VFIIVILALF LMNLRATFLV LISIPISIGI ALMVMSWFGL SANLMSLGGI AVAIGMLVDG
SVVMVENMFK HLTHTDAEHD HKRQLGEHVE DDDPLDSSHD THGIALRLQE AGKEVARPIF
FATAIILVVF MPLFSFEGVE AKLFQPMAIS IMLAMLSAVL VALIIVPALA TYLFKKGVKP
RESVVLKPLD AGYRKGLSWA ILHKKVVIGI AAIMVVAAGV VLPRLGTEFV PELEEGTINL
RVTLAPSSSL DTALEVSPKL ENILMGFPEV TYTLSRIGRA EIGGDPEPVN NIEIYIGLKP
VPEWTSANNR YELQALMEEK MEQHPGLLFN FSQPIATRVD ELLSGVRAQL AIKLFGPDLK
VLAEKGQAIE ALVKEVQGAR DVAMEQIAGE SQLIVTPNRR ALSRYGLAVG DAMELVREGL
GGASAGQIIN GNERYDIYVR LAEQFRNDSQ MIADLRLQAP SGAWVRLGDV AEVTIASGPP
QVRRDDVQRR VVIQANVQGR DMGSVVADIR KSIDEKLALP TGYSVDIGGQ FENQQRAQKR
LSLVVPLSLG LIALLLYFAF ASFGQAMLIL VNVPLAVIGG VFSLWLSGQY LSVPSSVGFI
TLFGVAVLNG VVMVESINQR VADGLSVSDA VFDGATSRLR PVLMTAITSA LGLIPMLLSN
GVGAEIQKPL ASVIVGGLVT ATFLTLFVLP VLFAWFSKGK LKDMARAPS
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