| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Dtpsy_1151 |
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| Symbol | |
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| ID | 7384583 |
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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 | Acidovorax ebreus TPSY |
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| Kingdom | Bacteria |
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| Replicon accession | NC_011992 |
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| Strand | + |
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| Start bp | 1209596 |
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| End bp | 1212310 |
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| Gene Length | 2715 bp |
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| Protein Length | 904 aa |
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| Translation table | 11 |
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| GC content | 66% |
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| IMG OID | 643654472 |
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| Product | heavy metal translocating P-type ATPase |
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| Protein accession | YP_002552624 |
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| Protein GI | 222110360 |
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| COG category | [P] Inorganic ion transport and metabolism |
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| COG ID | [COG2217] Cation transport ATPase
[COG2608] Copper chaperone |
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| TIGRFAM ID | [TIGR01494] ATPase, P-type (transporting), HAD superfamily, subfamily IC
[TIGR01511] copper-(or silver)-translocating P-type ATPase
[TIGR01512] heavy metal-(Cd/Co/Hg/Pb/Zn)-translocating P-type ATPase
[TIGR01525] heavy metal translocating P-type ATPase |
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Plasmid Coverage information |
| Num covering plasmid clones | 8 |
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| Plasmid unclonability p-value | 0.0071597 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | decreased coverage |
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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 | ATGTCTTTGG AAACATTGGA CGGCACAGGA GCGCAGGACG AACAACTGGG CTTTCGGGTC
GAAGGTATGG ATTGCGCCAG TTGCGTCGGC AAGATTGAAA CAGCGCTTGG TCGAATTGAT
GGCGTATCAA ATGTACAGGT TAATTTTACA AATGAGACGC TGACGTTGAC GCGCAGCACA
AGTAGCCGAA ATACTGCACG CGACATTGCC AAGAAAATCC GGTCCCTGGG CTTCGACGTG
CAGGCACTGC CCGCGTCCGA AATGTCCGCA GCACCTGCAC CGTGCCATGC GGCCCACGCG
CATGACCACG CCGGCTGCGG CGGCCACCAT GACCATGGGC ATGCCCACGA CCACGGGCAC
GATCATTCGC ACGGCAAAGC GTGCGGTGAT GACCATGGGC ATGGCCATGC TCACGGCCAT
GCCCATGCCC ATGACCACGG TCACGATCAC GGGGCCTGCA GCGGGCATGA CCATGCGCCG
GCCTCTGCCT CCCGTGGAGC ACCCAGCACG CCCCCCAACG TGTCCATGCG CGTCGAGGGC
ATGGACTGCG CCAGTTGCGT CGGCAAGATC GAAACGGCGC TCGCTCGCAT GGATGGCGTG
TCCGATGCCC GCATAAACTT CACCGCAGAA ACGCTGGAAT TGACGCTCGC GTCTGGCGGC
CCCACGCAGC TCGGCCACAT CGAGAAGACC ATCAAGAGCC TGGGCTTCGG CGTCTCCGAC
GTGCGCCGCC ATGATGGCTC AGCACCCGCG GCCCCAGCAG CAGCATCGAC GGCGCGCCAT
CAGCGCTGGT GGCAGACGAA GAAAGGCAAG CACGTGCTGG GCCTGGGCGG CCTGATGGGC
TCGGCCTACG CGATCGCGCA GTTCGTTCCT GGCTACGCTG AATGGATCTT CGCCGCTGCG
GTGATCGCGG GCGTGCTGCC GTTCGCTCGC AAAGCCTTCG CGCTGGCTGT GTCAGGCTCG
CCGTTCTCTA TCGAAACGCT GATGGTCGTC GCCTCGCTGG GCGCGCTCGT GATAGGCGAG
GCCGAGGAAG CTGCTGCCGT GGTGTTCCTG TTCGCGATCG GCGAGCTGCT GGAAAGCGTG
GCCGCCGGCC GCGCGCGCGC CGGCATCAAG GCGCTGGCCT CCCTGGTGCC TAAGACGGCG
GTACTGCTCG ATGCCGCGGG CGGGCAGCGC GAAGTGCCCG CCGCTTCCCT GCGCGTGAGC
GACCGCGTGC TGGTGCGCCC TGGTGACCGG GTGCCTGCGG ACGGCAAGAT CCTCCGCGGT
GAAAGCAGCC TGGACGAGTC GCCTATCACC GGCGAGTCCG TACCGCGTCA AAAGGCTATC
GGTGCCGACG TGTTCGCCGG CTCCATCAAC GTCGATGGCG TGCTCGAAGT ACAAGTCGAG
AAGACGGCAT CGGACAACAC CATTTCTCGC ATCATCCAAC TGGTGGAGCA GGCGCAGTCC
TCCAAGGCGC CCACGGCTCG CTTCATCGAA AAGTTCAGCC GCTACTACAC CCCTGCCGTC
ATGGCCATCG CGGCGTTGAT CGTGGTGGTT CCGCCACTTG CCATGGGTGG CGACTGGGGT
ACCTGGCTGT ACCGCGGCCT CGCACTGCTG TTGATTGCCT GCCCATGTGC GCTGGTGCTC
TCCACACCGG CGGCCATCGC CTCGGGCCTT GCGGTGGCCA CGCGACGGGG CCTGCTGATC
AAGGGTGGCA ACGCGTTGGA AACCATCGGC CGCGTGCGCG CCATTGCCTT CGACAAGACT
GGCACGCTGA CCGAGGGCAA GCCGCGCATC ACCGAGGTCC TGCCCTTCGG GCTGTTCAAG
CATCAACAGG TCCTTGCGCT TGCCGCCGCT GTCGAGTCCG GCTCAAACCA TCCCTTGGCG
AAGGCCATTG TCGCCCATGC CAAGAGCCTG GACGTGGCGA TTCCCCAGGC CACGGGCGCA
TCGGCCATTG CCGGCAAGGC GGTGCGCGCC ACCGTGAACG GCAGTGCGCT CGCTGTCGGA
TCGCCCGCCC ATGCGGAACA GACGGCCACG CTGACAGCCG CGCACCGCAG GGAAATCGAC
AAGCTGGAGG ATGGCGGCAA GACCGTGGTG GTCCTGTTCG ACGAAGCCAG CAAGAACGTT
CTGGGCCTGC TGGCCCTGCG CGACGAGCCC CGCCGCGACG CGCGCGAAGG CGTGGCCCAG
CTCAACGCCA TGGGCGTGCG CTCGGTCATG CTGACCGGCG ACAACCGCCG CACCGCGCAG
GCGATCGCCG GCAAGCTGGG CATCGAGTGG GAGGCCGAGC TGCTGCCGCA GGACAAGCTG
CGCTTGGTCA ACGAGATGAA GCGTGATGCC AAGGTGGCGA TGGTCGGCGA CGGCATCAAC
GACGCGCCGG CCCTGGCGAC CGCCGACGTG GGTATCGCCA TGGGCGGCGG CACGGACGTG
GCGCTGGAAA CCGCCGATGC CGCGCTGCTC AAGAGCCGCG TCACGGACGT GGCCCACCTG
GTGGCCCTGT CGCGGGCGAC GATGGCCAAC ATTCACCAAA ACGTCGTATT CGCCATTGGC
CTCAAGGGCT TGTTCCTGGT CACCACCGTG TTGGGTATCA CCGGCTTGTG GGTTGCCGTG
CTGGCCGACA CCGGCGCCAC GGCCCTGGTC ACGCTGAACG CACTGCGCCT GCTGCGCTTC
AAGGGCGCGC CGGAGGCCAA CCACGGCGAC GACGCCGGGC GTCCCACCAC CTTGTCCGTG
CCGTCTGCCC GCTGA
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| Protein sequence | MSLETLDGTG AQDEQLGFRV EGMDCASCVG KIETALGRID GVSNVQVNFT NETLTLTRST
SSRNTARDIA KKIRSLGFDV QALPASEMSA APAPCHAAHA HDHAGCGGHH DHGHAHDHGH
DHSHGKACGD DHGHGHAHGH AHAHDHGHDH GACSGHDHAP ASASRGAPST PPNVSMRVEG
MDCASCVGKI ETALARMDGV SDARINFTAE TLELTLASGG PTQLGHIEKT IKSLGFGVSD
VRRHDGSAPA APAAASTARH QRWWQTKKGK HVLGLGGLMG SAYAIAQFVP GYAEWIFAAA
VIAGVLPFAR KAFALAVSGS PFSIETLMVV ASLGALVIGE AEEAAAVVFL FAIGELLESV
AAGRARAGIK ALASLVPKTA VLLDAAGGQR EVPAASLRVS DRVLVRPGDR VPADGKILRG
ESSLDESPIT GESVPRQKAI GADVFAGSIN VDGVLEVQVE KTASDNTISR IIQLVEQAQS
SKAPTARFIE KFSRYYTPAV MAIAALIVVV PPLAMGGDWG TWLYRGLALL LIACPCALVL
STPAAIASGL AVATRRGLLI KGGNALETIG RVRAIAFDKT GTLTEGKPRI TEVLPFGLFK
HQQVLALAAA VESGSNHPLA KAIVAHAKSL DVAIPQATGA SAIAGKAVRA TVNGSALAVG
SPAHAEQTAT LTAAHRREID KLEDGGKTVV VLFDEASKNV LGLLALRDEP RRDAREGVAQ
LNAMGVRSVM LTGDNRRTAQ AIAGKLGIEW EAELLPQDKL RLVNEMKRDA KVAMVGDGIN
DAPALATADV GIAMGGGTDV ALETADAALL KSRVTDVAHL VALSRATMAN IHQNVVFAIG
LKGLFLVTTV LGITGLWVAV LADTGATALV TLNALRLLRF KGAPEANHGD DAGRPTTLSV
PSAR
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