Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Dshi_4065 |
Symbol | |
ID | 5714594 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Dinoroseobacter shibae DFL 12 |
Kingdom | Bacteria |
Replicon accession | NC_009957 |
Strand | + |
Start bp | 123373 |
End bp | 125883 |
Gene Length | 2511 bp |
Protein Length | 836 aa |
Translation table | 11 |
GC content | 64% |
IMG OID | 641276977 |
Product | heavy metal translocating P-type ATPase |
Protein accession | YP_001542273 |
Protein GI | 159046603 |
COG category | [P] Inorganic ion transport and metabolism |
COG ID | [COG2217] Cation transport ATPase [COG2608] Copper chaperone |
TIGRFAM ID | [TIGR01494] ATPase, P-type (transporting), HAD superfamily, subfamily IC [TIGR01511] copper-(or silver)-translocating P-type ATPase [TIGR01525] heavy metal translocating P-type ATPase |
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Plasmid Coverage information |
Num covering plasmid clones | 12 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | ATGCCCGAAC CCAAACAGAT CAGCCTGCCG ATCGAAGGCA TGTCATGCGC GTCCTGCGTT GGCAGGGTCG ATCGCGCATT GAATGCAATC GACGGCGTAG AGGATGTGTC GGTGAACCTT GCCTCGGAAA CTGCTCGCAT GAGCGTGGAC GCGCTCAAGC GCATTCCCGA CATCATCGAA TCCCTTCGCG AGCTGGGCTA CCCCGCGCGG AAGGCCAGGG CCGAACTCAC GATTGCAGCG ATGTCCTGTG CCTCTTGCGT CGGGCGGGTC GATAAGGCGC TTGCCGCGGT GCCCGGGGTG GTCGAGGTGA ACGTCAACCT CGCCTCAGAG ACGGCGACGG TCGTTTACGT CGAAGGTCTT GTCACGACAT CCGATCTGAT CGAATCAAGC GGCGCGGCAG GGTATCCAGC AACCGTGGCA ACGGCCCAGG CCGGTGACGA CAGAGTTGCG CGCAAGGAGG AAGAGGCTCA GGCGCTTGCC AAACGGGTCA CCTTTGCGGC CATCCTCGCC TTGCCGGTCT TCCTGATCGA AATGGGTGGC CACGTCATTC CGGCCGTTCA TATGCTGATC GAGACCACGA TTGGCCAGCA GACGAGTTGG CTTCTTCAGT TCGTGCTGAC GACAATCGTT CTCTTCGGCC CGGGCCGGAC GTTTTACACC AAGGGTTTCC CGGCCTTGTT CCGGGGTGCC CCCGACATGA ACAGCCTCGT CGCGGTCGGC ACCGGGGCGG CTTACCTTTA TTCCGTGGTT GCGACATTCG TACCGTCGGT CCTGCCTGAC ACGCTGCGCA CCGTCTATTT CGAGGCGGCA GCGGTCATCG TCGTTCTGAT CCTTCTGGGG CGGTTTCTTG AAGCGCGCGC CAAGGGGAGA ACGGGCGCGG CCATCCAGAA GCTATTAGGG CTTCAGGCGC GGACTGCACG CGTGATGCGG GACGGAGAAA GCGTCGAGAT CGAGATCGAT GCGCTGGTTC AGGGTGACAT CGTCATCGTG CGCCCTGGTG AACGCATCGC GGTCGATGGC GAGGTCATCG AGGGGACCAG CCGCGTCGAC GAAAGCATGC TGACAGGCGA GCCGATCCCC GCTGAAAAAG GTGCCGGAGA TACGGTGACC GGCGGGACGG TCAACGGCGC CGGAAGCCTG CAGTTCCTCG CCACGCGGGT CGGCGCCGAC ACGACCCTGG CGCAGATTAT TCGCATCGTC GAAGAGGCCC AGGGCGCCAA ACTGCCGATC CAGGGATTGG TCGACCGGAT CACCTTGTGG TTCGTGCCTG CCGTGATGGC GATCGCGGCG GCGACCGTGC TGGTCTGGCT GTTTTTCGGG CCTGATCCGG CCCTGACGAT GGCGCTGGTC GCCGGTGTGT CGGTGCTCAT CATCGCGTGC CCCTGCGCGA TGGGGCTTGC GACGCCGACC TCGATCATGG TCGGGACGGG ACGTGCTGCG GAAATGGGTG TCCTGTTCCG TAAAGGTGAC GCCTTGCAGC AACTTGATTC CGTTGATGTG GTCGCCCTCG ACAAAACAGG CACGGTGACC GAGGGGCGAC CCGCACTGAC TGACCTTGTG CTGGCGGAAG GGTTCGATCG CCCAACAACG CTCTCGAAGA TCGCTGCCGT GGAGTCGCTC TCCGAGCATC CTGTCGCGGA CGCCATCGTG CGGGCCGCGC GGGCCGAGGG CGCACCTCTT GTGGCGGCCG AAGGCTTTCA ATCGGTCACA GGTTACGGCG TGCGCGCCGT GGTCGAAGAC GTGGAGGTGT TGGTTGGGGC CGACCGCTAC ATGGCGCGCG AAGGCATTGA CGTCTCGGCA TTGGCTCCAG AGGAAACGAA GATCGCAAGC AAGGGTCGCA CGGCGCTTTA CGCTGCCATA GATGGGCGTG TCGCCGCCGT GATCGGCGTG GCCGATCCGG TCAAACCGGC AAGCCGCGCA GCCATCGCAG CGCTGCACGA AAAGGGTCTT GCGGTTGCGA TGATCACCGG CGACAAACGC GAAACCGCCG AAGCCATCGC CCGCGAAACC GGTATCGACC ACGTCATCGC CGGCGTCCTG CCGGACGGCA AGGTTGCGGC GCTCGACAGT TTGCGCCAAG GGAACAAGCG CATCGCCTTT GTCGGCGACG GGATCAACGA CGCCCCGGCG CTGGCGCATG CCGATGTGGG CATCGCCATT GGAACCGGCA CCGATGTGGC CATCGAATCT GCGGATGTCG TCCTGATGTC GGGCGATTTG CGCGGCGTGG TGAACGCCTT CGAAGTATCG CGGCGGACCA TGCGCAACAT CCGGCAGAAC CTGTTCTGGG CCTTTGCCTA CAACGTGGCA CTTATTCCGG TCGCTGCCGG GGTGCTTTAT CCCGCCTTTG GGTTGCTCCT GTCACCAATC CTTGCGGCGG GTGCGATGGC GTTGTCCTCG GTGTTTGTCC TGACCAATGC CCTGCGGCTG CGGCGCATCG CGCCTGCGAT GGACGAGCAG CGCGCAATCC CGGCAGAGCT GGCAGCCGCC ACTCCTGCTC CAGCAGAATA A
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Protein sequence | MPEPKQISLP IEGMSCASCV GRVDRALNAI DGVEDVSVNL ASETARMSVD ALKRIPDIIE SLRELGYPAR KARAELTIAA MSCASCVGRV DKALAAVPGV VEVNVNLASE TATVVYVEGL VTTSDLIESS GAAGYPATVA TAQAGDDRVA RKEEEAQALA KRVTFAAILA LPVFLIEMGG HVIPAVHMLI ETTIGQQTSW LLQFVLTTIV LFGPGRTFYT KGFPALFRGA PDMNSLVAVG TGAAYLYSVV ATFVPSVLPD TLRTVYFEAA AVIVVLILLG RFLEARAKGR TGAAIQKLLG LQARTARVMR DGESVEIEID ALVQGDIVIV RPGERIAVDG EVIEGTSRVD ESMLTGEPIP AEKGAGDTVT GGTVNGAGSL QFLATRVGAD TTLAQIIRIV EEAQGAKLPI QGLVDRITLW FVPAVMAIAA ATVLVWLFFG PDPALTMALV AGVSVLIIAC PCAMGLATPT SIMVGTGRAA EMGVLFRKGD ALQQLDSVDV VALDKTGTVT EGRPALTDLV LAEGFDRPTT LSKIAAVESL SEHPVADAIV RAARAEGAPL VAAEGFQSVT GYGVRAVVED VEVLVGADRY MAREGIDVSA LAPEETKIAS KGRTALYAAI DGRVAAVIGV ADPVKPASRA AIAALHEKGL AVAMITGDKR ETAEAIARET GIDHVIAGVL PDGKVAALDS LRQGNKRIAF VGDGINDAPA LAHADVGIAI GTGTDVAIES ADVVLMSGDL RGVVNAFEVS RRTMRNIRQN LFWAFAYNVA LIPVAAGVLY PAFGLLLSPI LAAGAMALSS VFVLTNALRL RRIAPAMDEQ RAIPAELAAA TPAPAE
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