Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Rmet_1596 |
Symbol | |
ID | 4038399 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Cupriavidus metallidurans CH34 |
Kingdom | Bacteria |
Replicon accession | NC_007973 |
Strand | + |
Start bp | 1719121 |
End bp | 1722492 |
Gene Length | 3372 bp |
Protein Length | 1123 aa |
Translation table | 11 |
GC content | 69% |
IMG OID | 637976980 |
Product | DNA translocase FtsK |
Protein accession | YP_583748 |
Protein GI | 94310538 |
COG category | [D] Cell cycle control, cell division, chromosome partitioning |
COG ID | [COG1674] DNA segregation ATPase FtsK/SpoIIIE and related proteins |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 8 |
Plasmid unclonability p-value | 0.262939 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 13 |
Fosmid unclonability p-value | 0.732523 |
Fosmid Hitchhiker | No |
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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