| Entry |
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| Name |
(RefSeq) probable aconitate hydratase, mitochondrial
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| KO |
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| Organism |
hmg Hydra vulgaris (swiftwater hydra)
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| Pathway |
| hmg00630 | Glyoxylate and dicarboxylate metabolism |
| hmg01210 | 2-Oxocarboxylic acid metabolism |
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| Module |
| hmg_M00010 | Citrate cycle, first carbon oxidation, oxaloacetate => 2-oxoglutarate |
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| Brite |
KEGG Orthology (KO) [BR:hmg00001]
09100 Metabolism
09101 Carbohydrate metabolism
00020 Citrate cycle (TCA cycle)
100203396
00630 Glyoxylate and dicarboxylate metabolism
100203396
Enzymes [BR:hmg01000]
4. Lyases
4.2 Carbon-oxygen lyases
4.2.1 Hydro-lyases
4.2.1.3 aconitate hydratase
100203396
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| SSDB |
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| Motif |
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| Other DBs |
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| LinkDB |
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| Position |
11:23196489..23232915
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| AA seq |
778 aa
MLRLLNSKPQTFLNQIRNTKVVARDASQKVAISKFDPNIYLPYEKLNNNLKIVKDRLKRP
LTTAEKVLYSHLDDPKNQDIKRGVSYLKLRPDRVAMQDATAQMAMLQFISSGLPKVAVPS
TIHCDHLIEAQLGGDKDLARAKDINKEVYDFLSSASKKYGVGFWKPGSGIIHQIILENYA
FPGILLIGTDSHTVNGGGLGGVTIGVGGADAVDVMAGIPWELKCPKIIGVKLTGKLGGWT
SPKDVILKVADILTVKGGTGAIIEYYGPGVNSISCTGMGTICNMGAEIGATTSIFPFNER
MTRYLNATGRKDIALLAEQYKSLLEADNGAEYDQQFEIDLSTLEPLVNGPFTPDLAHPIS
KLGQNAKSNGWPTEVKVGLIGSCTNSSYEDMGRSASIAKQALSHGVKAKSIFTITPGSEQ
IRATIERDGIAQTLRDLGGIVLANACGPCIGQWDRKDVPKGSKNTIVSSYNRNFTGRNDA
NNNTHAFVTSPELVTALAIAGDLTFNPITDELTGSDGKKFKLKSPFGEELPAKGFDPGQD
TYQSPPNDGSKLTVVVDPKSDRLQLLAPFEPFDGKDLIDVPILIKAKGKCTTDHISMAGP
WLKYRGHLDNISNNMLIGAINEENGEANKVKNQLTGKYGTVPDTARSYKAAGVSWVVIGD
ENYGEGSSREHAALEPRHLGGKAIIVKSFARIHETNLKKQGMLPLTFENSSDYAKIKPSD
RISLIDLAAIAPGKPIKCVVKHSDGSRETINLLHTMNLGQIEWFKAGSALNKMANDAK |
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| NT seq |
2337 nt +upstreamnt +downstreamnt
atgcttcggttgttaaattcaaaaccacagacatttctcaaccaaattcgcaatacaaaa
gtagtggcaagagatgcttctcaaaaggttgcaatcagtaagtttgatccaaatatttac
ctgccttatgaaaagcttaataacaatcttaaaatagtaaaagacagattaaagcgacca
cttactacagctgaaaaagttctttacagtcacttagatgaccctaaaaatcaagatatt
aaacgtggagtatcttacttaaaattacgccctgatcgtgttgctatgcaggatgctact
gcacaaatggcaatgctccagtttatttcaagtggtttaccaaaagtagcagtaccatct
actattcattgtgatcatctgattgaagcacaactaggaggagacaaggatttggcacga
gcaaaggacatcaataaagaagtatatgattttctttcatctgcaagtaaaaagtatggt
gttggcttctggaaacctggatcaggaatcattcatcaaattattcttgaaaactatgct
ttccctggtatactgctgattggtacagatagccatacagttaatggtggaggactgggt
ggtgtaactattggtgtaggtggtgctgatgcagtagatgtgatggctggaataccttgg
gaattaaaatgccctaaaataattggtgtaaaattaacaggaaaacttggtggttggact
tctcctaaagatgttattttaaaagtagctgatatacttactgttaaaggaggaacagga
gctattattgagtactatggtcctggtgtcaactctatatcatgcactggtatgggaact
atttgtaacatgggtgcagaaataggagcaacaacttctatttttccattcaatgaaaga
atgacccgttacttaaatgctactggtcgtaaagatatagctttgcttgcagagcaatat
aaaagtttgttagaagctgataatggagctgaatatgatcaacaatttgaaattgattta
tcaacattagagccccttgtcaatggaccatttacaccagatctagctcatcctatctcc
aagcttggccagaatgctaaaagtaatggttggcctacagaagttaaagttggtttaatt
ggaagctgcacaaacagtagctatgaagatatgggaaggtctgcaagtattgccaaacaa
gctcttagtcacggagtcaaagctaaatcaatatttacgattactcctggatctgaacaa
attcgtgctacaatagaacgtgatggaatagcacaaacattaagagatttaggtggtata
gttttagcaaatgcttgtggtccttgcattggtcaatgggacagaaaagatgttccaaaa
ggttctaaaaacactatcgtgtcatcttacaatcgaaatttcacaggaagaaatgatgct
aacaacaacacacatgcatttgttacatcaccagaattagttacagcattagcgattgca
ggagatttaacttttaatccaattactgatgagcttacaggttcagatgggaaaaagttt
aaattaaaaagtccttttggagaagagttacctgcaaaaggctttgatccaggtcaggat
acatatcaatctcctccaaatgatggttcaaaactcacagttgttgttgatccaaaaagt
gataggttgcaacttttagcaccatttgagccatttgatggaaaagacttaattgatgtc
cctattttaattaaggctaaaggaaagtgcacaactgatcatattagtatggctggacca
tggttaaaatacagaggacatctagacaatatttcaaacaacatgcttattggagcaata
aatgaagaaaatggtgaagcaaataaagtcaaaaatcagttgactggaaaatatggtact
gtaccagatactgcaagaagctataaggctgcaggtgtaagttgggttgttattggagat
gaaaactatggagagggcagcagtagagagcatgctgcccttgaaccaagacatttgggt
ggaaaagcaattattgttaaaagttttgctcgtattcatgaaactaatctaaagaaacaa
ggtatgcttccattgacgtttgaaaatagctcagattatgcaaaaataaaaccaagcgac
agaatatcacttattgatttagccgctattgcaccaggaaaaccaattaaatgcgtggtg
aaacactctgatggttctcgtgaaacaatcaatcttctccatacaatgaaccttggacaa
attgaatggtttaaagctggaagtgctcttaataaaatggcaaacgatgcaaaataa |
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