| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Cpha266_0173 |
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| Symbol | |
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| ID | 4568470 |
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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 | Chlorobium phaeobacteroides DSM 266 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_008639 |
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| Strand | + |
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| Start bp | 196237 |
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| End bp | 198909 |
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| Gene Length | 2673 bp |
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| Protein Length | 890 aa |
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| Translation table | 11 |
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| GC content | 52% |
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| IMG OID | 639764773 |
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| Product | ATPase, P-type (transporting), HAD superfamily, subfamily IC |
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| Protein accession | YP_910664 |
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| Protein GI | 119356020 |
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| COG category | [P] Inorganic ion transport and metabolism |
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| COG ID | [COG0474] Cation transport ATPase |
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| TIGRFAM ID | [TIGR01494] ATPase, P-type (transporting), HAD superfamily, subfamily IC
[TIGR01517] plasma-membrane calcium-translocating P-type ATPase
[TIGR01523] potassium and/or sodium efflux P-type ATPase, fungal-type |
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Plasmid Coverage information |
| Num covering plasmid clones | 10 |
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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 | ATGAAAACGG GGCATTTGAC CTGCTGGCAC TGTCTGACGA CGGAAGATGT TTTTAATAAA
CTGCAGACAA CTTCAGGGGG GCTCAGCAGC AGCGAAGCTT TCAGGCTTCT GGGTGTTTAC
GGACCGAACC GGATTCATGC TGAACGGAGG ACAAGCCCTC TGAAGCTGCT TGTTGCCCAG
TTTAAAAATG TACTTATTCT CACCTTGCTG ATCGCAACCC TTCTTTCAGT CTACCTTGGC
CATGGGTTTG AAGCTGTTGC TATTGCTGTG ATTGTTCTGT TTGCCGTTCT TCTCGGGTTT
GTTCAGGAGT TCAGAGCTGA AAAGGCTATC GAAGCTCTTC GAGAGATGGC TGCTCCGCTT
GCAAGAGTGA TGCGAGATGG CAAAGAGGCG GTGATTAACG CCTCGGAGCT TGTTCCTGGC
GATATTCTGC TGCTTGCCGT CGGGGACCGG GTTGCGGCTG ACGCAAGGTT GCTGCAGGCC
AGTAATCTTC GTGCCGATGA GGCTTCGCTG ACAGGCGAGT CGCTCCCGTC GGAGAAAGAT
GTGGAGGCGG TTCTTTCGGA AGATGCCGCT CCTGGCGATC AGAAAAACAT GGTTTTTGCC
GGTACCTCCA TAAGCTATGG TCGCGCTTCG GCTGTTGTGG TCTCAACGGG TATGGCGACG
GAGTTTGGCA GGATCGCTGC CATGCTGCAG AATGTTGAAA CTGAAAAAAC GCCTCTTCAG
AAAAATCTCG ACAAGGTGGG CTCGGCACTT GCCGGTGTTG CCTTGCTGAT TGTGCTGGTT
ATTGTGGTTT TTGGACTGTT TCGCGGTCAA TCGTTTATTG AGATGCTTAT TTTCGGCATT
GCTCTTGCGG TCGCGGTTGT TCCGGAAGCG CTTCCTGCAG TTGTGACCAT TTCGCTTGCT
CTTGGCGTAC AGCGAATGGT CAAGCGAAAT GCGCTTATGA GGCGTCTGCC AGTTGTTGAA
ACGCTCGGCA GCACCACGGT GATCTGTTCG GATAAAACCG GTACACTGAC GCGTGATGAA
ATGACCGTGC GCACGCTCTA TTCTTCGGGC GTTTTTATTG ATGTCAATGG TTCCGGTTAT
AATCCGGAGG GTTCACTTGC CGTCGTGGAC GGCGGCAGCC TGCCGGAAAG CTTGAACGAG
CTGCTTCTTG CCGGCGTTCT CTGCAACGAT GCCCGGATTG TCAAGAGTGA TTCGGGTTTC
TGGGGAGTCG CCGGAGATCC TACGGAGGGG GCTCTGCTTG TTGTTGCTCG TAAGGCGGGG
TTGAATGAGC TGACGTTGAG GCAACTCTAT GAGCGTCTTG ACGAGCGGCC TTTTTCGTCC
GAAACAAAAA AAATGATGAC GTTGCACCGG ATGGGTGAGA CGACGAAGGC TTTTATCAAA
GGGGCTCCGG AAGTCCTTCT TGCCGACAGC GTTGCTGTTC GTTGCTCGGA GGGCGTAAAG
GCTCTCGATG ACCCCTTGCG GGCTGCTCTG CTTGCCGAGG CTGATAATCT CGGTAAACGG
GCGTTGCGGG TGCTTGCTTT TGCGGTAAAA GATGGAGCTG ATATGAGCAG TGCCGGTGAC
GGGATGACTT TTCTCGGTTT TGCCGGAATG ATCGATCCGC CGAGAGCAGA AGCGGGCGAT
GCCGTGCGAC AGTGTCTTGC TGCCGGTATC CGTCCGGTTA TGATCACCGG AGATCATCCC
CTGACGGCAG AGGCAATTGC CCGTGAACTT GGTATTCTTC GTGATGGAAA AGTGGTGACC
GGAGCGATGC TGCAAACCAT GAGCGCTGAA GAGCTGCGCC ATTCAGTTGG ATCAGTTTCT
GTTTTTGCGC GGGTTGCTCC GGAACACAAG CTTCGTATTG TTGAGGCACT GCAGATGAAC
GGTGAAGTAG TAGCCATGAC CGGCGACGGC GTGAACGATG CTCCAGCCCT TAAAAAAGCA
GATATCGGCA TTTCGATGGG CTTGACCGGT ACCGACGTTT CAAAGGAGGC ATCCGCTATG
ATGCTGATGG ACGATAATTT TGCAACGATT GTTGCCGCCG TCGAAGAGGG CAGAGGAATC
TACGATAATA TAAAAAAGTA CCTGACCTAT CTGCTCTCAT CCAATATCGG TGAGCTTGGC
CTGATGGCCG GCGCGACACT TATGGGTATT CCGCTTCCGC TTTCAGCGGT GCAGATCCTC
TATGTAAACC TTGCTACCGA TGGTTTTCCG GCTCTTGCTC TTGCCGTTGA TCCTTCCGAG
CGCGACATCA TGTTACGCAG TCCGAATAAT CCGAAAAAAG GGATATTCAC CCCTTCCGTG
CTTGCTTTTA TGCTTACAGG CGGTATCTGG TCGACGATGG TCAATCTTTC CCTGTTTCTC
TGGGCTTTCG CTTCCGGTCG CACTCTTCAG GAGTCCATGA CCATGACCTT CGTTTCGCTT
GTGCTCATCC AGTTTTTCAA GGCCTATAAT TTTCGTTCTG AAAAAGTATC TCTTTTTGTT
CGTCCTTTTG CAAACCGCTG GCTGAATCTT GCTATTGTCT GGGAGCTGGT AATGCTTATC
GCAATCATTA ATGTTCCGTT TTTGCAGAGA CTTTTTGGAA CCTGTCTGCT TACTCCGGAA
GATTGGGTTA TCGTTATCGG TTCCGCTATG ACGGTTGTTC CGATTATTGA GCTGCTCAAG
TGGTTAATGC GCAGTGGTCG GTTCGGATTT TAA
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| Protein sequence | MKTGHLTCWH CLTTEDVFNK LQTTSGGLSS SEAFRLLGVY GPNRIHAERR TSPLKLLVAQ
FKNVLILTLL IATLLSVYLG HGFEAVAIAV IVLFAVLLGF VQEFRAEKAI EALREMAAPL
ARVMRDGKEA VINASELVPG DILLLAVGDR VAADARLLQA SNLRADEASL TGESLPSEKD
VEAVLSEDAA PGDQKNMVFA GTSISYGRAS AVVVSTGMAT EFGRIAAMLQ NVETEKTPLQ
KNLDKVGSAL AGVALLIVLV IVVFGLFRGQ SFIEMLIFGI ALAVAVVPEA LPAVVTISLA
LGVQRMVKRN ALMRRLPVVE TLGSTTVICS DKTGTLTRDE MTVRTLYSSG VFIDVNGSGY
NPEGSLAVVD GGSLPESLNE LLLAGVLCND ARIVKSDSGF WGVAGDPTEG ALLVVARKAG
LNELTLRQLY ERLDERPFSS ETKKMMTLHR MGETTKAFIK GAPEVLLADS VAVRCSEGVK
ALDDPLRAAL LAEADNLGKR ALRVLAFAVK DGADMSSAGD GMTFLGFAGM IDPPRAEAGD
AVRQCLAAGI RPVMITGDHP LTAEAIAREL GILRDGKVVT GAMLQTMSAE ELRHSVGSVS
VFARVAPEHK LRIVEALQMN GEVVAMTGDG VNDAPALKKA DIGISMGLTG TDVSKEASAM
MLMDDNFATI VAAVEEGRGI YDNIKKYLTY LLSSNIGELG LMAGATLMGI PLPLSAVQIL
YVNLATDGFP ALALAVDPSE RDIMLRSPNN PKKGIFTPSV LAFMLTGGIW STMVNLSLFL
WAFASGRTLQ ESMTMTFVSL VLIQFFKAYN FRSEKVSLFV RPFANRWLNL AIVWELVMLI
AIINVPFLQR LFGTCLLTPE DWVIVIGSAM TVVPIIELLK WLMRSGRFGF
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