| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Oant_3531 |
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| Symbol | |
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| ID | 5382034 |
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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 | Ochrobactrum anthropi ATCC 49188 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_009668 |
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| Strand | + |
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| Start bp | 895916 |
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| End bp | 898831 |
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| Gene Length | 2916 bp |
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| Protein Length | 971 aa |
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| Translation table | 11 |
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| GC content | 57% |
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| IMG OID | 640836213 |
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| Product | putative monovalent cation/H+ antiporter subunit A |
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| Protein accession | YP_001372066 |
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| Protein GI | 153010852 |
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| COG category | [C] Energy production and conversion
[P] Inorganic ion transport and metabolism |
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| COG ID | [COG1009] NADH:ubiquinone oxidoreductase subunit 5 (chain L)/Multisubunit Na+/H+ antiporter, MnhA subunit
[COG2111] Multisubunit Na+/H+ antiporter, MnhB subunit |
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| TIGRFAM ID | [TIGR00940] Tmonovalent cation:proton antiporter
[TIGR00943] monovalent cation:proton antiporter
[TIGR01974] proton-translocating NADH-quinone oxidoreductase, chain L |
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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 | ATGACGATGG ACGGCAGAAT GCTTTTCCTG CTTGTCCTTC TACCATTTCT TGGCAGCGCC
ATAACCGGCT TATTCAGGGG GGCGGATCGT AGCGGTTCGG CCTGGTTTAC GGCAGCGATT
GCGCTTGTTG CCTTTATTGT CACCGCCAGC CTTTATCCCA TCGTGTCGGA CGGCAAGGTG
CTTCATGGCA CTGTGGAATG GCTTCCGGCC TATGGCCTCA ATGTCACCTT CCGAATGGAT
GGCTTCGCCT GGCTTTTCGC GATGCTCATC ACGGGTATCG GCCTGCTGGT CGTCATTTAT
GCGCGTTATT ACATGTCGCC CGAAGATCCC GTGCCGAGGT TCTTCTCGTT CCTGCTGTCC
TTTATGGGAT CGATGCTCGG CGTAGTTCTA TCCGGCAATC TGATATTGCT CGCCGTGTTC
TGGGAGCTGA CCAGCATCTT CTCGTTCCTG CTGATCGGCT ATTGGTATCA TAATGCCAGT
GCCCGCGACG GCGCACGCAT GGCGCTGACC GTGACGGGTA TCGGTGGTTT CTGTCTGCTG
GCAGGCGTTC TGATCCTCGG CCATATTGTC GGAAGCTACG ATCTCGACAC AGTTCTGGCA
GCGGGGAACA TCGTTCGGAC ACATCCGCTT TATAGCGTGG CGCTCATTCT GATCCTGCTC
GGAGCATTCA CGAAAAGCGC GCAGTTTCCG TTCCACTTCT GGCTTCCCAA TGCGATGGCA
GCGCCAACGC CCGTTTCGGC CTATCTGCAT TCGGCCACCA TGGTGAAGGC CGGAGTCTTC
CTGCTGGCGC GCCTGTGGCC GGTTCTCAGC GGAACGGAAG AGTGGTTCTG GATCGTCGGT
TCGGCAGGGC TGATCACGCT TCTGATTGCC AGCTTCTTCG CAGTTTTCCA GCAGGACCTC
AAAGGGTTGC TTGCCTATTC GACCATCAGT AACCTTGGTC TGATTACCGT TCTGCTTTCT
CTTGGCAGCC CACTTGCTGC GGTTGCCGCG ATCTTTCACA TGGTCAACCA TGCGATTTTC
AAGGCATCGC TGTTCATGGC TGCGGGCATC ATCGATCATG AGACCGGCAC GCGCGACATG
CGAAAGTTGA GCGGGCTGTT GCGTCCCATG CCCTATACAG CAACGCTCGC CATGGTCGCG
AGTGCGGCAA TGGCAGGCGT ACCGTTGCTC AACGGCTTTA TTTCCAAGGA AATGTTCTTC
GCTGAGGCGG TGGAAACGCA CATGGCGTCG TGGCTCGATA CGATCACGCC CTATGTCGCC
ACGATTGCCG GTATCTTCAC GGTCGCCTAT TCGGTGCGCT TTATTTATTC GACGTTCTTC
GGACCACCAC CGCATGACCT GCCACATGAG CCACACGAGC CGCCGCACTG GATGCGCCGT
CCTATCGAGC TTCTGGTTCT GCTTTGCCTG TTGATCGGCA TCATTCCTGG CCTTTCCATC
GGACCGTTTC TGCATTCGGC TGTTCTGTCG GTGCTGGGCA CGGCGACGCC TGAATATAGT
CTCTCGGTCT GGCACGGCTT CAACCTGCCG CTGATGATGA GTATCGTCGC CATGATCGGC
GGTATTCTTC TGCACTGGAT GCTGAAAAAC TACCTTGCCA CCAGTGAAGA CGGCCCCCCC
TTATTCCGGC ATTTGCAAGG GCAGCGCATT TTCGAACGTG TTCTCGTGAC CTTGTCATGG
AACTGGGCAC GTAAGGCAGA ATCCTTCCTC AGCACGCGTC GTCTGCAGCC GCAGCTCCGT
ATCGTGGTTG CGGTGGCCGT CCTTGCAGCT GCCTGGCCGA TTTTCGTTTC CGGCTTGCAG
TCAGGTTCGC TTGGCGCCCA GCCCGTGGAC CCGATTTTTG CCGGACTTTG GATACTTGGT
GGTGCCTGTG CTATCGGCGC GGCCTATCAG GCCAAGTACC ACCGACTTGC GGCGTTGATC
CTCCTCGGAG GGGCGGGGCT CGTTACCTGC ATCACCTTCG TCTGGCTGTC CGCGCCGGAT
CTTGCTGTGA CCCAGTTGCT GGTCGAGATC GTCACCACTG TTCTGCTGCT GCTCGGGCTT
CGCTGGCTGC CGAAGCGTTG GGAAGATCCT GATCCGCTCC CGGTGCAGAT AGGTCCGCGC
ATCCGCCGTT ATCGCGACTT GTTGCTTGCA ATCGGCAGCG GGGCAGGGGT CGCTGTCATC
GCCTATGCTG TTATGACGCG TATTTCGCCC AGCAGCATCG GCGATTATTT CCTCGAAAAC
GCCTATTCAG GCGGCGGTGG CAAGAATGTC GTGAACGTCA TTCTGGTCGA CTTCCGTGCT
TTCGATACGT TTGGTGAAAT TGCCGTCCTC GGCATCGTGG GCCTCACGGT TTTTGCGCTC
CTGCGTCGTT TCCGTCCTGC CCCTGACACA ACCGGATCGA CAGCCCAGCA GAAAATCCAG
GACGCCTATG ACGAGGCAGC GCCTGACCGC AAGGCAGGTG AAACACTGGC CGATTATCTG
GCCGTGCCGT CCGTCATCAT GCAATGGTTG TTCCCGGTTA TCATTGTGCT GGCAGTGCAT
CTGTTCCTGC GCGGTCATGA TCTGCCAGGT GGCGGATTTG CGGCCGGTAT TACGCTCGCA
ATTGCATTTT TGCTGCAATA TCTGGCGTCA GGCGCGCGTG TGGTGGAAGA TCGCTTGCGC
ATTCTGCCCT TGCGCTGGAT CGGGTTGGGT TTGCTGTTTG CAGCGGCAAC AGGCGCGGGG
TCGTGGTTCT TCGGCTATCC GTTCCTCACC ACATTCTTCC AATATACGGA AATACCGCAT
ATCGGAAAAA TGCCGACAGC CAGCGCACTG CTGTTCGATC TTGGCGTCTT CACCCTCGTG
GTTGGCGCTA CCGTGCTGGT TTTAATTGCA CTCGCACACC AATCACTCCG TAAACACCGT
GTCGAGAAGC TCGCCGCAAC GAAGGAGGAG AACTGA
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| Protein sequence | MTMDGRMLFL LVLLPFLGSA ITGLFRGADR SGSAWFTAAI ALVAFIVTAS LYPIVSDGKV
LHGTVEWLPA YGLNVTFRMD GFAWLFAMLI TGIGLLVVIY ARYYMSPEDP VPRFFSFLLS
FMGSMLGVVL SGNLILLAVF WELTSIFSFL LIGYWYHNAS ARDGARMALT VTGIGGFCLL
AGVLILGHIV GSYDLDTVLA AGNIVRTHPL YSVALILILL GAFTKSAQFP FHFWLPNAMA
APTPVSAYLH SATMVKAGVF LLARLWPVLS GTEEWFWIVG SAGLITLLIA SFFAVFQQDL
KGLLAYSTIS NLGLITVLLS LGSPLAAVAA IFHMVNHAIF KASLFMAAGI IDHETGTRDM
RKLSGLLRPM PYTATLAMVA SAAMAGVPLL NGFISKEMFF AEAVETHMAS WLDTITPYVA
TIAGIFTVAY SVRFIYSTFF GPPPHDLPHE PHEPPHWMRR PIELLVLLCL LIGIIPGLSI
GPFLHSAVLS VLGTATPEYS LSVWHGFNLP LMMSIVAMIG GILLHWMLKN YLATSEDGPP
LFRHLQGQRI FERVLVTLSW NWARKAESFL STRRLQPQLR IVVAVAVLAA AWPIFVSGLQ
SGSLGAQPVD PIFAGLWILG GACAIGAAYQ AKYHRLAALI LLGGAGLVTC ITFVWLSAPD
LAVTQLLVEI VTTVLLLLGL RWLPKRWEDP DPLPVQIGPR IRRYRDLLLA IGSGAGVAVI
AYAVMTRISP SSIGDYFLEN AYSGGGGKNV VNVILVDFRA FDTFGEIAVL GIVGLTVFAL
LRRFRPAPDT TGSTAQQKIQ DAYDEAAPDR KAGETLADYL AVPSVIMQWL FPVIIVLAVH
LFLRGHDLPG GGFAAGITLA IAFLLQYLAS GARVVEDRLR ILPLRWIGLG LLFAAATGAG
SWFFGYPFLT TFFQYTEIPH IGKMPTASAL LFDLGVFTLV VGATVLVLIA LAHQSLRKHR
VEKLAATKEE N
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