| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Rmet_4240 |
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| Symbol | acnA3 |
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| ID | 4041098 |
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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_007974 |
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| Strand | - |
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| Start bp | 825985 |
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| End bp | 828639 |
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| Gene Length | 2655 bp |
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| Protein Length | 884 aa |
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| Translation table | 11 |
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| GC content | 64% |
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| IMG OID | 637979663 |
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| Product | aconitate hydratase 1 |
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| Protein accession | YP_586376 |
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| Protein GI | 94313167 |
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| COG category | [C] Energy production and conversion |
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| COG ID | [COG1048] Aconitase A |
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| TIGRFAM ID | [TIGR01341] aconitate hydratase 1 |
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Plasmid Coverage information |
| Num covering plasmid clones | 24 |
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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 | 16 |
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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 | GTGTCCATCA GAGAGACTGC GCTCAAGGCG CTTGAACCGG TTGAATCCCG TGCCCCAGTG
CACTCTGGCA CGCATATCTA CAGCATTGCC TCCGCAACTG CGGGCGGTGC GGAGGCCATC
GCCAGACTGC CGTACTGCCT GCGCGTGCTG GCCGAGAATG TGTTGCGCCA CATCGGGACC
AACGACGTGG AAGAGGCGGA CTTCTGCCGC TTGCTTGCCT GGCACCCGAG TTCTGGCGAT
GTGATCCCCG TACCGTTCCA TCCTGCTCGT GTGCTGATGC AGGACTACAC GGGGATTCCA
GCGTTAGTTG ACCTGGCAGC GTTGCGCGAT GCGATAGCTG ATCTTGGCCA GCCCGCCACG
CGGATCAACC CACGGATTCC TGTCGATCTC GTCATTGATC ATTCGCTCAT CGTGGACCAG
GCAGGTCACC CGGGGGCGCT GACCTACAAT CTTGGCCGCG AATTCGAGCG CAACACGGAG
CGTTACCGGC TGGCGAAATG GGCCACCGCG GCACTGAGCA ATGTGCGCGT CGTACCGCCT
GGCAATGGAA TACTGCACCA GATCAACCTT GAGCATATCG CCGGGGTCGT CTGTACTCAG
CAAGCGGGCT TACATGTTGT CGCCTTTGCC GACACGATGG TCGGCACTGA CAGCCATAGC
ACCATGGTCA ACGGCATCGG CGTGCTCGGC TGGGGCGTGG GTGGCATTGA AGCCGAAGCG
GCAATGCTCG GGCTACCAAT GACTGTGCCG CTGCGCCGCG TTGTGGGTGT TCGCCTCAGC
GGCAGTCTGC AGGCCGGCGT GACGGCCACC GACCTCGTCC TCACGCTCAC GCAGCGCTTG
CGCGCATTCA ACGTGGTCGA TACCCTGGTC GAGTTCTTCG GGCCGTCGCT CGCGGCGCTT
GCCGTGACGG ACCGCGCCAC GATTGCCAAC ATGGCACCCG AGTACGGTTC CACCGCAGCT
TTCTTCCCGA TCGACGCGGA AACCCTGCGT TACCTGGCAG CAAGCGGCCG GGATGCTGCG
CAGGTGGCAC TTGTCGAAGC CTATGCCAGG GCGCAAGGCC TGTGGCGTTC GGCTGACGCG
AGGGAACCCG AGTACAGCAG CGTGCTCGAG TTCGACCTGT CGAGCGTCCG TCCGTGTGCC
GCGGGTCCGA AACGCCCTCA GGACCGTGTC GAACTGGACG CCATCGGCGA CAGCTTTCGC
GCGGCCTTTC CGTCGGCAGC CCCTGCGCGG GAAACGCTTT CCGACGGCGC CGTGGCGATT
GCCGCTATCA CGAGCTGCAC AAACACCTCC AATCCCGCGG TCATGATTGC CGCAGGCCTG
CTGGCACGCA AGGCCCGCGC ACGCGGACTG CAAGCGCGCC CATGGACCAA GACGTCGTTG
ACGCCGGGTT CACGCGTGGT CGGCGCGTAT CTGGAAGCCA GCGGCTTGCA GGCGGACCTG
GACGCGCTGG GCTTTCACGT TGCCGGCTAT GGTTGCGCCA CCTGTGGCGG GAACTCGGGC
CAGCTCGATG AGGCGGTCGA GCAGCAGATT CGAGACGAGA ACATCGTCGT CACTGCGGTG
TTGTCCGGCA ACCGCAACTT CGAGGCGCGC ATTCATCCGA TGGCCCGCGC CAACTACCTG
ATGTCACCAC CGCTCGTTGT CGCCTATGCG CTCGCCGGCA ACATTCAGGT TGATCTGACG
CGTGAGTCGC TGGGCAACGG TAACGACGGC CAGCCGGTCT ACCTCCACGA GATTTGGCCG
ACGGACGCAG AGGTGCAGAA CGTTCTCAGA ACCGTCTTGA CCCCTGACCT GTTCGAGACC
CAGTACAGCC AGCTGTTCGA CGGTAGTCCC GCATGGCGCG CACTTGAAGC GCCATCATCG
GCGCTGTTCC CGTGGGACTC CAGCAGTACG TACATCCGCA AGCCACCGTT CCTCGATCAC
TGCGACGGCA GTGCCACCGC GCCTGTGGAA GATATCGTGG ACGCACGAAT CCTGCTGATG
CTCGGCGACA GCACGACCAC CGACCACATT TCGCCCGTCG GCAACATCCC AGCCGACAGC
CCGGCTGGCT TGTACCTGCG CGACCACGGC GTCAAGCCCG TCGATTTCAA TGCATATGGT
TCCCGGCGCG CCAACCACGA GGTCATGGTA CGCGGCACCT TTGCCAACAT CCGACTCAGT
AACGAGCTGG TCCCTGGCGT GCTCGGCGGC CAGACGAAGT GCCTGCCGGG AGGCGAGATC
ATGCCAATCC ATGACGCAGC GACAAGGTAT GCGGCGCAGG GCGTGCCTCT GTTGATCATC
GCCGGCCGCG AGTACGGTAC GGGTTCGTCA CGGGACTGGG CCGCCAAAGG TACGAACTTG
CTTGGCGTGC GTGCAGTCAT TGCCGAGAGC TTCGAGCGCA TCCATCGCTC CAACCTGCTC
ATGATGGGTG TGCTACCGCT CGAGTTTCCA TCCGGTGTCA CGCGCAAAAC CCTGGGCCTC
GACGGCACGG AGACGTTCGG CATTGAAGCG ATCGACGAGC AAGCGCGCCC GGGTGCAACC
GTACGGGCCA CCCTACGCCG CGCTGACGGG TCTTCCGTCG TGTTGGAGCT CGATTGCCGG
ATTGACACGG CAAACGAGTT CAAGGTCTGG CGTGCTGGCG GAATGATGCG CTTCGTGCTG
CACCAGCTGT CATAA
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| Protein sequence | MSIRETALKA LEPVESRAPV HSGTHIYSIA SATAGGAEAI ARLPYCLRVL AENVLRHIGT
NDVEEADFCR LLAWHPSSGD VIPVPFHPAR VLMQDYTGIP ALVDLAALRD AIADLGQPAT
RINPRIPVDL VIDHSLIVDQ AGHPGALTYN LGREFERNTE RYRLAKWATA ALSNVRVVPP
GNGILHQINL EHIAGVVCTQ QAGLHVVAFA DTMVGTDSHS TMVNGIGVLG WGVGGIEAEA
AMLGLPMTVP LRRVVGVRLS GSLQAGVTAT DLVLTLTQRL RAFNVVDTLV EFFGPSLAAL
AVTDRATIAN MAPEYGSTAA FFPIDAETLR YLAASGRDAA QVALVEAYAR AQGLWRSADA
REPEYSSVLE FDLSSVRPCA AGPKRPQDRV ELDAIGDSFR AAFPSAAPAR ETLSDGAVAI
AAITSCTNTS NPAVMIAAGL LARKARARGL QARPWTKTSL TPGSRVVGAY LEASGLQADL
DALGFHVAGY GCATCGGNSG QLDEAVEQQI RDENIVVTAV LSGNRNFEAR IHPMARANYL
MSPPLVVAYA LAGNIQVDLT RESLGNGNDG QPVYLHEIWP TDAEVQNVLR TVLTPDLFET
QYSQLFDGSP AWRALEAPSS ALFPWDSSST YIRKPPFLDH CDGSATAPVE DIVDARILLM
LGDSTTTDHI SPVGNIPADS PAGLYLRDHG VKPVDFNAYG SRRANHEVMV RGTFANIRLS
NELVPGVLGG QTKCLPGGEI MPIHDAATRY AAQGVPLLII AGREYGTGSS RDWAAKGTNL
LGVRAVIAES FERIHRSNLL MMGVLPLEFP SGVTRKTLGL DGTETFGIEA IDEQARPGAT
VRATLRRADG SSVVLELDCR IDTANEFKVW RAGGMMRFVL HQLS
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