| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Rmet_1596 |
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| Symbol | |
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| ID | 4038399 |
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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 | 1719121 |
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| End bp | 1722492 |
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| Gene Length | 3372 bp |
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| Protein Length | 1123 aa |
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| Translation table | 11 |
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| GC content | 69% |
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| IMG OID | 637976980 |
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| Product | DNA translocase FtsK |
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| Protein accession | YP_583748 |
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| Protein GI | 94310538 |
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| COG category | [D] Cell cycle control, cell division, chromosome partitioning |
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| COG ID | [COG1674] DNA segregation ATPase FtsK/SpoIIIE and related proteins |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 8 |
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| Plasmid unclonability p-value | 0.262939 |
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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 | 13 |
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| Fosmid unclonability p-value | 0.732523 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGGGTCTGG GCTGGTTCGG ATTGTCGACC TTGTGGCTGT TGCCGCTCGT ATGGCAAACA
GTGGGGCGTG TGCTGGCTGG CGAGCGGCGG CTGCTTGGTC GTGGCTCGCT GCGCGTGCTG
CTTGGCACGG TACTCGTGCT GGGTGCCAGC GCCACGCTTG AATCGCTGAC TGGCGGCGAA
GGCGAGACCG CGGGCGGTGC CGTCGGGCAC GCGCTGGCCG GCGTGGTGTC CGGAATGCTC
GGCTGGACCG GCGCGCTGCT GATGATGCTG GCGGTGCTGG GCCTGACCGC GCCCATGGTG
TTCGGCGAGA CATGGCGCAG CCTGTTCCTG CTGCGCAAGC CGCGCGTGGA AAGTGACGAG
GACCGGGGCG ACACCCGGAC GAAGTCGCGC GCCGATTCCC GATTCGAATC ACGAGGCAGC
GCCCGTACAA CAGATTCCCG TCACGACGCG CGTAGCGAAC CGCGCGGCGA TTTCCGTAGC
GATAGCGCCG CGCCGCAGGC TTCGCCGCGT GATTCCGTCG AGCGCTGGGA GACCACTTCG
CTGCCGGCGC AGTCGGCCGG CGGCTGGCAG GCCACGCAGA CGCGCCAGAA AGGTATCGAG
GCGGTTTCCG CCCGCCGTCA GCCCGCGTGG CAACCGCCGC CCCGCACGCG TGAGTCGCCC
CCGCAACCGG GCGAGATCTG GCTGCATCAT GCCGAGGCGC CAGGCGCGGT GAAGCCGGTG
ACGCCGAAGC CTGCTCCGTC TTCCGCCCAG AAGCCTTCCT CGACGCCACC CACGCCTCGC
GCGGCCAACC CTGTGCCGAC GGCCGCCCGT CCCGCCGCTG CCGCACCGGT CCAGGCGAAG
GCGGAAGCCA CGGTTGCGCC GAAGCCGGCA GCACCGCGCG CGACGGTGGT CAGCAGCCCG
TTCCGTAATC CGCAGCTCGG CCTGCGCTCG GCAATTACCA CGCTGCCCGA GCCTGCGGTT
GCGACCACGG TGGCCGCGTC GGCAGCTACC GTCGCCCCGG CTGCCACGGC GGAGGTTGTC
GAACAGGCGA TAGATATTGC GGCTGTCGCG GCTGTTGCGA CTGTGGCGGA CGACCTTGCC
GTCGAACGTC AGGATGCGCC CGCTGCGTTG GAAACGTCCG CTGCGTTGGA AACGTCCGCA
GTGGACGGCC AATCCGAGGC GTCTGGCGAA ATGCCGGAAT CGTCAGTGAC GATGGACGCG
ATTCGCGACG AGGCGCTGGC CCTGTTGGCG GAATTGCAGG CGCTGGCCGG CCGGCACGTG
CAGCCATCGG TGGCAGTGGA GCCTTCGCCG GTGGCAGAGG CAGTGGCCGA GGCCGCGCCG
ATGGAAGCCG AGGCGCTGCC GGCACCGATC GCGGAGTCGG TATTGGCTGA CGTCCCGGAC
GTGCCAGCCG AGCAGGGCGA TGCCGACGAC ATGGCGATCC AGTTGGCCGT GGCGGCTTCA
ATGGCCGAGG CGGAGATCGC CCAAGCGGAA GCCATCGATG AGGCGCCAGC CGAAGCCGAA
GCCGAAGCCG CAACTGCAAC CGCAGAACAA GAGACCACCG AAGCGATCCT CGCCGAGGCC
GTCCCGGCCA GCGACAAAGC CAGCAGGCCG GTGGTCGATG CCGGCGATCC CGAGTCTGAC
GAATCCCGAA TCGAATTGCA GGCGGAAGCG GAGGAAGCAG GGGAGGGCGA AGATCAGGCC
GACGACAGCC AGACCGACGA CCCGTCCGCC GTGGTGGATG CCAACACCTT CGTCCAGCCA
ACGCCCAAGC CACGCATCGT CCTGCCGGCC GTAGTCGGGC GGACGGTGGC ACTTGGCGCC
CAGGCGCCGG CGACGGTTGC CCCGGTGATG GCCGCGCCTG TGCCGCCGTC ACCCCCGGCA
GCGCCCCCTG CGCCGCCAGC GCCGCGAATC GTCGACTACC GCCTGCCGGG CGCCAGCCTG
CTGGAAGCGG CCGACGAGAA CGCCGAGCAG GTGTCCGAGG AACGGCTAGA GCAGACCGGC
GAGCTGATCG CCCAGCGCCT GGCCGAGTTC AAGGTGCCGG TGTCCGTGGT CGGAGCCAGC
GCGGGTCCGG TCATCACACG ATTTGAAGTA GACCCGGCGA TGGGCGTGCG CGGCGCGCAG
GTGGTGGGCC TGATGAAGGA TCTGGCCCGC GCGCTGGGCG TGACATCGAT CCGCGTGGTC
GAGACGATTC CAGGCAAGAC CTGCATGGGT CTGGAACTGC CGAACGCGAA GCGGCAGATG
ATCCGCCTGT CCGAAATCGT CAATGGCGGA GCTTTCCAGG CGCACGCGTC GAAGCTCGTG
CTGGCCATGG GCAAGGACAT CACCGGCAAC CCGGTGGTGA CCGATCTGGC GCGCGCGCCG
CACCTGCTGG TGGCCGGCAC GACCGGCTCG GGCAAGTCGG TGGCCGTCAA CGCCATGATC
CTGTCGATGC TGTACAAGGC CACGCCGGAA GACGTGCGCC TGATCATGAT CGACCCGAAG
ATGCTCGAGT TGTCGGTCTA CGAGGGCATT CCGCACCTGC TGGCGCCCGT GGTCACGGAC
ATGAAGCAGG CCGCGCACGC GCTCAACTGG TGCGTCGGGG AAATGGAAAA GCGCTACCGG
CTGATGTCGG CGCTCGGTGT ACGCAATCTG GCGGGCTACA ACCAGAAGAT TCGCGTGGCG
GAAGCCGCCG GGGAGAAGGT GCCGAACCCG TTCTCGCTGA CGCCGGATGC GCCCGAGCCG
CTGTCCACGC TGCCGCTGAT CGTGGTGGTG ATCGACGAGC TGGCCGATCT GATGATGGTG
GCCGGCAAGA AGATTGAGGA ATTGATCGCC CGGCTGGCGC AGAAGGCGCG CGCGGCCGGC
ATCCACCTGA TCCTGGCTAC GCAGCGGCCG TCGGTGGACG TGATCACGGG CCTGATCAAG
GCCAATATCC CGACCCGCGT GGCGTTCCAG GTGTCTTCGA AGATCGACTC GCGCACGATC
CTGGACCAGA TGGGCGCCGA GAGTCTGCTG GGGCAAGGCG ACATGCTGTT CCTGCCGCCG
GGCACAGGCT ATCCTCAGCG TGTGCACGGC GCATTCGTGG CCGACGAGGA AGTGCATCGC
GTGGTCGAAC ACTGGAAGCA GTTCGGCGAG CCTGACTACG ACGAGGCGAT CCTGGCAGGC
GACGCGCCCG AAGGCGCCGC GGATCTGTTC GGCGACAGCG GTGGCGACGG CGAGTCCGAC
CCGCTCTACG ATGAGGCCGC CCAATTCGTG CTGACATCGC GGCGCGCGTC GATTTCCGCC
GTGCAGCGGC AACTGCGCAT CGGCTACAAC CGTGCCGCGC GCCTTATCGA ACAGATGGAA
GCGGCGGGGC TGGTATCCCC GATGGGCCGC AACGGCACGC GCGAAGTGCT GGCGCCGGGG
CCGTCCGACT AA
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| Protein sequence | MGLGWFGLST LWLLPLVWQT VGRVLAGERR LLGRGSLRVL LGTVLVLGAS ATLESLTGGE
GETAGGAVGH ALAGVVSGML GWTGALLMML AVLGLTAPMV FGETWRSLFL LRKPRVESDE
DRGDTRTKSR ADSRFESRGS ARTTDSRHDA RSEPRGDFRS DSAAPQASPR DSVERWETTS
LPAQSAGGWQ ATQTRQKGIE AVSARRQPAW QPPPRTRESP PQPGEIWLHH AEAPGAVKPV
TPKPAPSSAQ KPSSTPPTPR AANPVPTAAR PAAAAPVQAK AEATVAPKPA APRATVVSSP
FRNPQLGLRS AITTLPEPAV ATTVAASAAT VAPAATAEVV EQAIDIAAVA AVATVADDLA
VERQDAPAAL ETSAALETSA VDGQSEASGE MPESSVTMDA IRDEALALLA ELQALAGRHV
QPSVAVEPSP VAEAVAEAAP MEAEALPAPI AESVLADVPD VPAEQGDADD MAIQLAVAAS
MAEAEIAQAE AIDEAPAEAE AEAATATAEQ ETTEAILAEA VPASDKASRP VVDAGDPESD
ESRIELQAEA EEAGEGEDQA DDSQTDDPSA VVDANTFVQP TPKPRIVLPA VVGRTVALGA
QAPATVAPVM AAPVPPSPPA APPAPPAPRI VDYRLPGASL LEAADENAEQ VSEERLEQTG
ELIAQRLAEF KVPVSVVGAS AGPVITRFEV DPAMGVRGAQ VVGLMKDLAR ALGVTSIRVV
ETIPGKTCMG LELPNAKRQM IRLSEIVNGG AFQAHASKLV LAMGKDITGN PVVTDLARAP
HLLVAGTTGS GKSVAVNAMI LSMLYKATPE DVRLIMIDPK MLELSVYEGI PHLLAPVVTD
MKQAAHALNW CVGEMEKRYR LMSALGVRNL AGYNQKIRVA EAAGEKVPNP FSLTPDAPEP
LSTLPLIVVV IDELADLMMV AGKKIEELIA RLAQKARAAG IHLILATQRP SVDVITGLIK
ANIPTRVAFQ VSSKIDSRTI LDQMGAESLL GQGDMLFLPP GTGYPQRVHG AFVADEEVHR
VVEHWKQFGE PDYDEAILAG DAPEGAADLF GDSGGDGESD PLYDEAAQFV LTSRRASISA
VQRQLRIGYN RAARLIEQME AAGLVSPMGR NGTREVLAPG PSD
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