| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | VEA_004188 |
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| Symbol | |
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| ID | 8557928 |
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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_013456 |
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| Strand | + |
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| Start bp | 2859253 |
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| End bp | 2861982 |
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| Gene Length | 2730 bp |
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| Protein Length | 909 aa |
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| Translation table | 11 |
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| GC content | 48% |
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| IMG OID | 646407289 |
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| Product | copper-translocating P-type ATPase |
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| Protein accession | YP_003286811 |
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| Protein GI | 262394957 |
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| COG category | [P] Inorganic ion transport and metabolism |
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| COG ID | [COG2217] Cation transport ATPase |
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| 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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| 
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Plasmid Coverage information |
| Num covering plasmid clones | 18 |
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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 | ATGTATCAGT TTGTTATACC TTTATCAGGG CTCAACTGCA TGGGCTGTGC GAGAAAAGTT
GAGAGTGCTT TACATGCGAA TCACGATGTA GAGATCCTCA CTTTGTCCCC AACGCAAGTA
GAGGTCAAAA CCGAGTCCTC GCTTAAAGAG CTTGTTTCAT CAATTGAATC TCTTGGTTAC
CAAGCAGGAA ATCAGTACGA GTTAAACCTT TCAGGCTTAA GCTGTGGCGG CTGTGTGAAA
AAACTCTCGT CTTTATTAGA CTCTCATCAA GACGTTATTT CTTTCGAGGC TTCAACAACG
CACTTAGAGA TTCGTACCCT ACTCTCCGAG CAACAAGTCA TTGAGCTAGT TGCCAGCTTG
GGCTATACGG CCAACAATAG CGCTGTTACT GATAACTCAG TTGCTGAAGA GCACAAGGCA
ATCACTCCCG ATCAACGCCA AAGCCAGACA CATCAAAGCG AAAAAGGCGA CCAAGCAGCG
CCTGACGAGC AACCAGCAGG CACGGCTCAA CTACAGATGT TGATTCAAGG TATGACCTGT
GCAAGCTGTG TCGCATCAGT AGAAAAAGCC CTTACTAATG TACAAGGGGT TGAAAAAGCT
CAGGTAAACC TCGCAGAACA AAGCGCACTG GTGTTTGTGA CTGAAGACTC AGATTCGTTA
CATCAATCTA TTTTGCAATC TGTCAAACAA GCGGGTTACC AAGGCGAGGT TTTACAAGAC
GCCGCGACAC AGCAAGAAAA GCAAGCGCAG CAACAACGTC AACAGCAAAA ACATTTTAAG
TTGGATGCAA TTGCTGGCCT TGTTGTGGGT GCCCCTTTGA TGATTTGGGG TGTTGCTGGT
GGCAACATGA TGATTCGCAA CACCAATGAC CAATTGGTTT GGGGCGCGAT CGGTATTGTG
TGTTTGCTGC TGCTTGCCAC TGCCGGAAAG CAGTTCTTTA GTAACGCTTG GTTAGCGGCC
ACTCACAAGC GCGCCACGAT GGATACCTTA GTTGCGCTCG GTACTGGCGC AGCGTGGTTC
TATTCTATGC TTGTGGTGAT TTTCCCAGAT TGGTTCCCAA TGGCATCTCG TCATGTTTAC
TTCGAAGCCA GCGCGATGAT CATTGGTTTG ATTTCACTTG GCCACTATAT AGAAGCCAAA
GCGAAAGCAA ATACAACTCG CTCGCTTCAG GCTTTGGTGA ACTTACAGCC TCAACAAGCG
ACCGTCATCA CTGAGAAAGG TGATAAACAA ATCGCGGTAG AAGAAATCAC TCTAGGAATG
AAGTTACGTA TCAAGCCGGG AGAGAAAGTG CCCGTCGACG GTACGGTAAT CAATGGTGAA
TCGTATATCG ATGAGTCCAT GCTAACTGGT GAACCCGTTC CTGTATTAAA AGCACAAGAG
GCACATGTAT CCGCAGGGAC ATTGAATACC GACGGATCTC TTACTATAGA AGCCACCGGA
ATCGGCGCAA ATACGATGCT CGCACGTATT ATTCGTATGG TGCGCAGCGC TCAGAGCAGT
AAGCCTGCCA TCGCGAAATT AGCAGACCAG ATTTCATCGG TGTTTGTCCC TGTCGTTGTA
GGCATAGCAA TACTGGCCGC GCTTGTTTGG TTTGCCGTTG GCCCAGAGCC AAAAGCGAGC
TATATGCTGG TGGTCACCAC AACCGTACTT ATCATCGCCT GCCCTTGTGC TCTAGGCTTA
GCAACCCCAC TTTCTGTTAC GGTGGGAGTG GGTAAAGCCG CAGAACTCGG CATTTTGATC
AAAGATGCTG ATGCCCTGCA GCTAGCGAGT AAAATAGATA CGGTTGTGTT CGATAAAACA
GGCACGCTTA CCCAAGGTAA ACCAAGTGTG CAGCAAGTGT TTACTCACAC CACCAGCCAA
GAAGAGCTGT TGGGGTTAGC GTACGCCGCC GAGCGTCAGT CAGAGCACCC ACTAGCAAAA
GCGGTATGCG ACTTTGCTAA TCAGCACGAC ACACAAGAAG TGACTCTCGA TAAATTTGAA
AACGTTCGCG GACGCGGCAT TTTGGCAACG TATCAAGGTA AACCGCTGCT TATTGGCTCG
CTTCAATTTA TGCAAGCGGA AAACGTTGCA ACAGAGGCTC TTCAGGATGC AATTGACGAA
TGCGCTCAGA ACGCATGGAC TCCGGTTGCC GTTGCGCTCG ATGGTGAGTT AGTCGGCCTG
ATCTCCATTG CTGACCCAAT CAAATCGGAT GCAAAACAAG CGCTCTCTGC ATTAAAATCG
CAAGGCATCA AAACGGTAAT GCTGACGGGT GACAACCAAC ACGTAGCCAA CGCTATCGGT
CAAGAACTTG GTATTGATGA AGTAATCGCT CAAGTAATGC CAGATGAGAA AGCTCAGCAC
ATTGAGCAAC TTCAATCCCA AGGCCATGTT GTGGCAATGG TTGGGGATGG CATTAACGAC
GCCCCTGCTC TCGCGTTAGC CAACCTTGGT ATTGCAATGG GTAGCGGCAG TGATGTCGCC
ATTGAAAGTT CGCAAATGAC CATCCTGAAC ACGTCACCAA TGGCGGTGGT ACATGCGATT
GAACTGTCGC GCGCTACACT TAAAAACATG AAGCAAAACC TATTTGGTGC CTTCGTTTAT
AACTCACTGG GGATCCCTGT TGCCGCAGGC GTACTTTATC CTGCATTTGG ATTTTTGCTC
AGCCCAGTTG TCGCAGGTGC GGCAATGGCG CTGTCATCTA TTACTGTCGT TAGTAATGCA
AATCGACTAC GACTTTTTTC AGTAAAATAA
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| Protein sequence | MYQFVIPLSG LNCMGCARKV ESALHANHDV EILTLSPTQV EVKTESSLKE LVSSIESLGY
QAGNQYELNL SGLSCGGCVK KLSSLLDSHQ DVISFEASTT HLEIRTLLSE QQVIELVASL
GYTANNSAVT DNSVAEEHKA ITPDQRQSQT HQSEKGDQAA PDEQPAGTAQ LQMLIQGMTC
ASCVASVEKA LTNVQGVEKA QVNLAEQSAL VFVTEDSDSL HQSILQSVKQ AGYQGEVLQD
AATQQEKQAQ QQRQQQKHFK LDAIAGLVVG APLMIWGVAG GNMMIRNTND QLVWGAIGIV
CLLLLATAGK QFFSNAWLAA THKRATMDTL VALGTGAAWF YSMLVVIFPD WFPMASRHVY
FEASAMIIGL ISLGHYIEAK AKANTTRSLQ ALVNLQPQQA TVITEKGDKQ IAVEEITLGM
KLRIKPGEKV PVDGTVINGE SYIDESMLTG EPVPVLKAQE AHVSAGTLNT DGSLTIEATG
IGANTMLARI IRMVRSAQSS KPAIAKLADQ ISSVFVPVVV GIAILAALVW FAVGPEPKAS
YMLVVTTTVL IIACPCALGL ATPLSVTVGV GKAAELGILI KDADALQLAS KIDTVVFDKT
GTLTQGKPSV QQVFTHTTSQ EELLGLAYAA ERQSEHPLAK AVCDFANQHD TQEVTLDKFE
NVRGRGILAT YQGKPLLIGS LQFMQAENVA TEALQDAIDE CAQNAWTPVA VALDGELVGL
ISIADPIKSD AKQALSALKS QGIKTVMLTG DNQHVANAIG QELGIDEVIA QVMPDEKAQH
IEQLQSQGHV VAMVGDGIND APALALANLG IAMGSGSDVA IESSQMTILN TSPMAVVHAI
ELSRATLKNM KQNLFGAFVY NSLGIPVAAG VLYPAFGFLL SPVVAGAAMA LSSITVVSNA
NRLRLFSVK
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