| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Rmet_2761 |
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| Symbol | |
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| ID | 4039587 |
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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 | Cupriavidus metallidurans CH34 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_007973 |
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| Strand | - |
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| Start bp | 3001078 |
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| End bp | 3004155 |
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| Gene Length | 3078 bp |
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| Protein Length | 1025 aa |
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| Translation table | 11 |
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| GC content | 65% |
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| IMG OID | 637978160 |
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| Product | twin-arginine translocation pathway signal |
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| Protein accession | YP_584903 |
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| Protein GI | 94311693 |
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| COG category | [C] Energy production and conversion |
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| COG ID | [COG0243] Anaerobic dehydrogenases, typically selenocysteine-containing |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 10 |
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| Plasmid unclonability p-value | 0.297303 |
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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 | 17 |
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| Fosmid unclonability p-value | 1 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGACCCCCC TGACCCGCAA ACGTGCGAAC AACGGCGCGA ACGACGGCGC CAACCATCGC
GCGGACCACG GCCAGACCGG CCGGCTCACC AGCCGGCTCG CTGATTCCAG TTCGCAATCC
CAGTCCCAGT CCCAGTCATC CGGACGTCTG TCCGCGCGCC TTGCCGCAGG CCTGGCCGGC
GCCATGCCGA CCATGGACCG TCGCAGCTTC CTCAAGCGTT CGGGCATCGG CGTGGGCGCG
GGGCTGGCCG CCACGCAACT GACGATGATG CGTCGCGCCG ATGCCGACGA CGGCAAGGGC
GGCGCAGGCG GCAAGGGCGA TATTGTCGTG CGCCGCACTG TCTGCGGCCA TTGCTCGGTG
GGTTGCGCGG TCGACGCGGT GGTGCAGAAC GGCGTGTGGG TGCGGCAGGA GCCTGTGTTC
GATTCGCCGA TCAACCTGGG CGCGCATTGC GCCAAGGGCG CCGCGCTGCG CGAGCATGGT
CACGGCGAAT ACCGGCTGAA GTACCCGATG AAGCTGGTCA ACGGCAAGTA CCAGCGCATC
TCCTGGGATC AGGCGCTCGA CGAGATCAGC GCGAAGCTCA AGCAGATCCG CCAGGAAACC
GGACCGGATT CGTTGTTCTT CATCGGCTCG TCCAAGCACA GCAACGAGCA GTCCTACCTG
CTGCGCAAGT GGGTCTCGTT CTTCGGCACC AACAATACCG ACCACCAGGC GCGCATCTGC
CACTCGACCA CCGTGGCCGG CGTGGCGAAC ACCTGGGGCT ACGGTGCGAT GACCAATTCG
TACAACGACA TGCAGAACGC CAAGGCGGCG CTGTATATCG GTTCGAATGC GGCCGAGGCG
CATCCGGTGT CGATGCTCCA CCTGCTCCAC GCCAAGGAGA GCGGCTGCAA GGTGATCGTG
GTCGACCCGC GCTATACGCG CACGGCGGCC AAGTCCGATC ACTACGTCCG TATCCGCTCG
GGCACCGATA TCGCGTTCCT GTTCGGCGTG CTGTACCACA TCTTCCAGAA CGGCTGGGAA
GACAAGAAGT ACCTGTCCGA CCGCGTCTAC GGCATGGACA AGGTCAAGGA GGAAGTGCTG
GCCAAGTGGA CGCCGGACAA GGTCGAGGAA GTCTGCGGCG TGCCCGAGGC CGAAGTCCGG
TACGTGGCCG AGACGATGGC GAAGAACCGT CCGTCCACGC TGGTCTGGTG CATGGGCCAG
ACGCAGCACA CGATCGGCAA CGCCATCGTG CGTGCGTCGT GTATCGTGCA ACTGGCGCTC
GGCAACATCG GTGTGTCGGG CGGCGGCGCC AACATCTTCC GTGGTCACGA CAACGTGCAG
GGCGCCACCG ACGTGGGGCC GAACCCGGAT TCGCTGCCGG GCTACTACGG CCTGGCTGCC
GGCGCGTGGA AGCACTTCGC GGCGGTCTGG GGCGTGGACT ACGAATGGAT CAAGAAGCAG
TTCGCCTCGC AGGCGATGAT GGAGAAGTCC GGCACCACGG TGTCGCGCTG GATCGACATC
GTCACCGAGA AGCCGGAACT GATCGACCAG GACCACAACG TGCGTGGCGT GTTCTTCTGG
GGCCATGCGC CGAACTCGCA GACGCGCGGC CTGGAGATGA AGCGCGCGCT CGACAAGCTC
GACCTGCTGG TCGTGATCGA CCCGTATCCG TCGGCCACGG CCGCCATGGC CAACATGCCG
GCGACCGAAG GCGATACCCC CAACCCGAAC CGTGCCGTGT ACCTGCTGCC GGCCTGCACC
CAGTTCGAGA CCTCGGGTTC GTGCACGGCG TCGAACCGTT CGCTGCAATG GCGTGAGAAG
GTGATCGAGC CGCTGTTCGA GTCGATGCCC GACCACGCGA TCATGCAGGC GTTCGCCGAG
AAGCTGGGCT TTGCCAACGA ACTGTCGAAG AACTACAAGC TGGTTGAGGT CAAGCGCGCC
GGGCGCACGT GGCGGGAGCC CGAGACCGAA TCGATCCTGC GCGAGATCAA CGCCGGCAAC
TGGACCATCG GCTACACGGG CCAGTCACCC GAGCGGCTGA AGGCCCACAT GCGCAACATG
CACATGTTCG ATGTGCGCTC GTTGCGCTGC AAGGGGGGCA AGGACCCGGT CACCGGCTAT
GACATCACCG GTGATTACTT CGGCCTGCCA TGGCCGTGCT ACGGCACGCC GGAGCTGAAG
CACCCGGGCT CGCCCAACCT CTACGACACC AGCAGGAACG TGATGGACGG CGGCGGCAAT
TTCCGCGCCA ACTTCGGTGT GGAGCGTGAC GGCGTGAGCC TGCTGGCGGC CGACGGATCG
CACTCGCTGG GCGCGGACAT CACTACCGGG TATCCGGAAT TCGACGCGGT GCTGCTCAAG
AAGCTCGGGT GGTGGGACGA ACTGACCGAC GCCGAAAAGA AGGCGGCCGA TGGCAAGAAC
TGGAAGACCG ACCTGTCGGG CGGCATCCAG CGCGTGGTGA TGAAGAACCA CGGCTGCCAC
CCGTTCGGCA ACGCCCGCGC GCGGGCCGTG GTCTGGAACT TCCCGGACCC GATCCCGCAA
CACCGCGAGC CGCTGTACTC GACGCGCCCG GACATGGTCG CCAAGTACCC GACCCACGAC
GACAAGATGG CCTTCTGGCG CCTGCCCACG CTCTACAAGA CCGTGCAGCA GCGCAACATC
GAGAACAAGG TCTACGAGAA ATTCCCGATC ATCCTGACCT CCGGCCGTCT GGTCGAGTAC
GAGGGCGGTG GCGAGGAAAC GCGCTCGAAC CCGTGGCTGG CCGAATTGCA GCAGGAGAAC
TTCGTCGAGA TCAACCCGAA GGCGGCATCG GAACGCGGCA TCCGCAACGG TGACTACTGC
TGGGTCAAGA CGCCGACCGG CGCCAGGATC AAGGTGCGCG CGCTGGTGAC CGAGCGCGTG
GGCGTGGATA CGGCGTTCAT CCCGTTCCAT TTCTCTGGCT GGTGGCAGGG CAAGGATCTC
AAGCCCTACT ACCCGGAGGG CGCCATGCCG ATCGTGCGCG GGGAGGCGGT GAACACCGCC
ACCACCTACG GCTATGACTC GGTGACGATG ATGCAGGAAA CCAAGACCAC CGTTTGCCAG
ATCGAGCGGT TCGCATAA
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| Protein sequence | MTPLTRKRAN NGANDGANHR ADHGQTGRLT SRLADSSSQS QSQSQSSGRL SARLAAGLAG
AMPTMDRRSF LKRSGIGVGA GLAATQLTMM RRADADDGKG GAGGKGDIVV RRTVCGHCSV
GCAVDAVVQN GVWVRQEPVF DSPINLGAHC AKGAALREHG HGEYRLKYPM KLVNGKYQRI
SWDQALDEIS AKLKQIRQET GPDSLFFIGS SKHSNEQSYL LRKWVSFFGT NNTDHQARIC
HSTTVAGVAN TWGYGAMTNS YNDMQNAKAA LYIGSNAAEA HPVSMLHLLH AKESGCKVIV
VDPRYTRTAA KSDHYVRIRS GTDIAFLFGV LYHIFQNGWE DKKYLSDRVY GMDKVKEEVL
AKWTPDKVEE VCGVPEAEVR YVAETMAKNR PSTLVWCMGQ TQHTIGNAIV RASCIVQLAL
GNIGVSGGGA NIFRGHDNVQ GATDVGPNPD SLPGYYGLAA GAWKHFAAVW GVDYEWIKKQ
FASQAMMEKS GTTVSRWIDI VTEKPELIDQ DHNVRGVFFW GHAPNSQTRG LEMKRALDKL
DLLVVIDPYP SATAAMANMP ATEGDTPNPN RAVYLLPACT QFETSGSCTA SNRSLQWREK
VIEPLFESMP DHAIMQAFAE KLGFANELSK NYKLVEVKRA GRTWREPETE SILREINAGN
WTIGYTGQSP ERLKAHMRNM HMFDVRSLRC KGGKDPVTGY DITGDYFGLP WPCYGTPELK
HPGSPNLYDT SRNVMDGGGN FRANFGVERD GVSLLAADGS HSLGADITTG YPEFDAVLLK
KLGWWDELTD AEKKAADGKN WKTDLSGGIQ RVVMKNHGCH PFGNARARAV VWNFPDPIPQ
HREPLYSTRP DMVAKYPTHD DKMAFWRLPT LYKTVQQRNI ENKVYEKFPI ILTSGRLVEY
EGGGEETRSN PWLAELQQEN FVEINPKAAS ERGIRNGDYC WVKTPTGARI KVRALVTERV
GVDTAFIPFH FSGWWQGKDL KPYYPEGAMP IVRGEAVNTA TTYGYDSVTM MQETKTTVCQ
IERFA
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