Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Rmet_1585 |
Symbol | |
ID | 4038388 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Cupriavidus metallidurans CH34 |
Kingdom | Bacteria |
Replicon accession | NC_007973 |
Strand | - |
Start bp | 1706153 |
End bp | 1708750 |
Gene Length | 2598 bp |
Protein Length | 865 aa |
Translation table | 11 |
GC content | 66% |
IMG OID | 637976969 |
Product | aconitate hydratase |
Protein accession | YP_583737 |
Protein GI | 94310527 |
COG category | [C] Energy production and conversion |
COG ID | [COG1048] Aconitase A |
TIGRFAM ID | [TIGR01341] aconitate hydratase 1 [TIGR02333] 2-methylisocitrate dehydratase, Fe/S-dependent |
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Plasmid Coverage information |
Num covering plasmid clones | 9 |
Plasmid unclonability p-value | 0.0614327 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 14 |
Fosmid unclonability p-value | 0.918701 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGAACACTG CATTCCGCAA GCCGCTACCC GGCACCAAGC TCGACTACTT CGATGCGCGT GCCGCGGTCG AAGCCATCTC CCCGGGCGCC TATGACAAGC TGCCCTACAC GTCGCGCGTG CTGGCCGAGA ACCTCGTGCG CCGCTGCGAC CCCGCCACGC TGACCGCATC GCTCAAGCAA CTGATCGAAC GCAAGCGTGA GCTCGATTTC CCGTGGTTCC CGGCCCGCGT GGTCTGCCAC GACATCCTGG GCCAGACCGC GCTGGTGGAC CTGGCCGGCC TGCGCGACGC CATCGCCGAT CAGGGCGGCG ACCCCGCCAA GGTCAATCCG GTGGTGCCGG TGCAACTGAT CGTCGACCAC TCGCTGGCCG TTGAATGCGG TGGTTTCGAC CCCGATGCGT TCACGAAGAA CCGCGCCATC GAGGATCGCC GTAACGAAGA CCGCTTCGAT TTCATCAACT GGACCAAGAA GGCGTTCCGC AACGTCGACG TGATCCCGCC GGGCAACGGC ATCATGCACC AGATCAATCT GGAGAAGATG TCGCCCGTGA TCCACGCCGA CCACGGCGTA GCCTACCCCG ACACCTGCGT CGGCACCGAC AGCCACACGC CGCACGTCGA CGCGCTCGGC GTGATCGCGA TTGGCGTGGG CGGCCTGGAA GCCGAAAACG TGATGCTCGG CCGCGCCTCG TGGATGCGCC TGCCGGACAT CGTCGGCGTG GAGCTGACCG GCCGTCGCCA GCCTGGCATC ACCGCCACCG ACATCGTGCT GGCCCTGACC GAATTCCTGC GCAAGGAAAA GGTGGTCGGC GCGTACCTGG AATTCCGTGG CGAAGGCGCT TCGTCGCTGA CGCTCGGCGA CCGCGCGACG ATCTCGAACA TGGCCCCCGA GTACGGCGCC ACCGCCGCCA TGTTCTTCAT CGACAACCAG ACCACCGAAT ACCTGCGACT GACCGGCCGC GACGAGGCAC AGGTCCAGCT CGTGGAAACC TACGCCAAGA CCGCCGGCCT GTGGGCCGAC GCGCTGACGA AGGCCGAGTA CGAGCGCGTG CTCCACTTCG ACCTGTCCAC GGTCGTGCGC AACATGGCCG GCCCGTCGAA CCCGCACAAG CGTCTGCCGA CCTCCGACCT GGCTGCCCGC GGCATCGCCG GCAAGTGGGA AGAAGTGCCG GGCCAGATGC CCGACGGCGC CGTGATCATC GCCGCCATCA CCAGCTGCAC GAACACCAGC AACCCGCGCA ACGTGATTGC CGCCGCCCTG CTGGCGCGCA ACGCCAACGC ACGCGGCCTG ACGCGCAAGC CTTGGGTCAA GTCGTCGCTG GCACCGGGAT CGAAGGCAGT GGAGCTTTAT CTGGAAGAAG CCAACCTGCT GCCCGACCTG GAAAAGCTCG GCTTCGGCAT CGTGGCGTTC GCCTGCACGA CCTGCAACGG CATGTCCGGC GCGCTCGATC CGAAGATCCA GCAGGAAATC ATCGACCGTG ACCTCTACTC CACGGCCGTG CTCTCCGGCA ACCGCAACTT CGATGGCCGT ATCCACCCGT ACGCGAAACA GGCCTTCCTG GCATCGCCGC CGCTGGTGGT GGCCTACGCC ATCGCCGGCA CGATCCGCTT CGACATCGAA CGCGACGCGC TGGGCACCGA TGCCGACGGC AAGCCGGTGT ACCTGAAGGA CATCTGGCCG ACCGACGAAG AGATCGACCT CATCGTCAAG CAGAGCGTGA AGCCCGAGCA GTTCCGCAAG GTCTACGAGC CGATGTTCGC GCTGCAAGCG GAAAACGACA CGTCGATCAG CCCGCTCTAC GACTGGCGCC CGCAAAGCAC GTACATCCGC CGCCCGCCGT ACTGGGAAGG CGCGCTGGCC GGCGAGCGCA CGCTGCGCGG CATGCGTCCG CTGGCGGTGC TCGGTGACAA CATCACCACC GATCACCTCT CGCCGTCGAA CGCGATCCTG CTGAACAGCG CAGCCGGCGA GTATCTGGCC AAGATGGGCC TGCCGGAAGA AGACTTCAAC TCGTACGCAA CGCACCGCGG CGACCACCTG ACCGCGCAAC GCGCCACATT CGCCAACCCG ACGCTGATCA ACGAGATGGC CGTGGTCGAA GGTGCGGTCA AGAAGGGTTC GCTGACGCGG ATCGAGCCGG AAGGCAAGGT CGTGCGCATG TGGGAAGCGA TCGAGACGTA CATGAACCGC AAGCAGCCGC TGATCGTGGT GGCCGGGGCC GACTATGGCC AGGGCTCGTC ACGTGACTGG GCCGCCAAGG GCGTGCGTCT GGCCGGCGTG GAAGCCATCG TCGCCGAAGG CTTCGAGCGC ATTCACCGCA CCAACCTGAT CGGCATGGGC GTACTGCCCG TGGAGTTCAA GCCCGGTGAG AACCGCGCCA CGTACGGCAT CGACGGCACG GAATCCTTCG ACATCATCGG CGCACGCAAG CCGCGCGCGG AACTGACGCT GGTCATCCAC CGCAAGAACG GCGAGCGCGT GGAAGTACCG GTGCTGTGCC GCCTGGACAG CGACGAGGAA GTTTCGATCT ACGAAGCAGG CGGCGTGCTG CAGCGCTTTG CGCAGGACTT CCTCGAGTCC TCGCGCGCGG CGGCCTGA
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Protein sequence | MNTAFRKPLP GTKLDYFDAR AAVEAISPGA YDKLPYTSRV LAENLVRRCD PATLTASLKQ LIERKRELDF PWFPARVVCH DILGQTALVD LAGLRDAIAD QGGDPAKVNP VVPVQLIVDH SLAVECGGFD PDAFTKNRAI EDRRNEDRFD FINWTKKAFR NVDVIPPGNG IMHQINLEKM SPVIHADHGV AYPDTCVGTD SHTPHVDALG VIAIGVGGLE AENVMLGRAS WMRLPDIVGV ELTGRRQPGI TATDIVLALT EFLRKEKVVG AYLEFRGEGA SSLTLGDRAT ISNMAPEYGA TAAMFFIDNQ TTEYLRLTGR DEAQVQLVET YAKTAGLWAD ALTKAEYERV LHFDLSTVVR NMAGPSNPHK RLPTSDLAAR GIAGKWEEVP GQMPDGAVII AAITSCTNTS NPRNVIAAAL LARNANARGL TRKPWVKSSL APGSKAVELY LEEANLLPDL EKLGFGIVAF ACTTCNGMSG ALDPKIQQEI IDRDLYSTAV LSGNRNFDGR IHPYAKQAFL ASPPLVVAYA IAGTIRFDIE RDALGTDADG KPVYLKDIWP TDEEIDLIVK QSVKPEQFRK VYEPMFALQA ENDTSISPLY DWRPQSTYIR RPPYWEGALA GERTLRGMRP LAVLGDNITT DHLSPSNAIL LNSAAGEYLA KMGLPEEDFN SYATHRGDHL TAQRATFANP TLINEMAVVE GAVKKGSLTR IEPEGKVVRM WEAIETYMNR KQPLIVVAGA DYGQGSSRDW AAKGVRLAGV EAIVAEGFER IHRTNLIGMG VLPVEFKPGE NRATYGIDGT ESFDIIGARK PRAELTLVIH RKNGERVEVP VLCRLDSDEE VSIYEAGGVL QRFAQDFLES SRAAA
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