| Entry |
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| Definition |
aconitate hydratase
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| Orthology |
| aconitate hydratase 1 / homoaconitase [EC: 4.2.1.3 4.2.1.-] |
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| Organism |
mrs Muricauda ruestringensis
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| Pathway |
| Citrate cycle (TCA cycle) | | Lysine biosynthesis | | Glyoxylate and dicarboxylate metabolism | | Metabolic pathways | | Biosynthesis of secondary metabolites | | Microbial metabolism in diverse environments | | 2-Oxocarboxylic acid metabolism | | Biosynthesis of amino acids |
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| Module |
| Citrate cycle, first carbon oxidation, oxaloacetate => 2-oxoglutarate |
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| Class |
Metabolism; Carbohydrate metabolism; Citrate cycle (TCA cycle) [PATH: mrs00020]
Metabolism; Carbohydrate metabolism; Glyoxylate and dicarboxylate metabolism [PATH: mrs00630]
Metabolism; Amino acid metabolism; Lysine biosynthesis [PATH: mrs00300]
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| SSDB |
    |
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| Motif |
 |
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| Other DBs |
NCBI-GI: NCBI-GeneID: UniProt: |
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| Position |
2431622..2433889
 |
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| AA seq |
755 aa  
MAFDIDMIKGVYASIGERVEKARELVGKPLTLSEKILYSHLWDGKPEKAFVRGKDYVDFA
PDRIACQDATAQMALLQFMQAGKDKVAVPTTVHCDHLIQAKDGAASDLKHANETSKEVFD
FLGSVSNKYGIGFWKPGAGIIHQVVLENYAFPGGMMIGTDSHTVNAGGLGMVAIGVGGAD
AVDVMAGMAWELKFPKLIGVKLTGKLSGWTAPKDVILKVAEILTVKGGTGAIVEYFGPGA
TSMSCTGKGTICNMGAEIGATTSTFGYDESMERYLRATDREDVADEANKVKEHLTADPEV
YANPEQYFDQVIEINLTELKPLLNGPFTPDLATEVGTMREKAEKNDWPLAVEWGLIGSCT
NSSYEDLSRASSIAQQALDKKLKTKAEFGINPGSEQVRYTTERDGILEIFEKLDAKIFTN
ACGPCIGQWARYKDPKNAPKNSIVHSFNRNFAKRADGNPNTHAFVASPEMTAAIAIAGRL
DFNPLTDKLINEDGEEVMLDEPTGWELPPKGFEVKENGYEDPLEDGSGVEVKVATDSERL
QLLEPFVPIKASDLQGMKLLIKAFGKCTTDHISMAGPWLRFRGHLDNIANNTLIGAVNAF
NQKTNFVKNQITGEYGGVPDTQREYKKKGIKTVVVGDHNYGEGSSREHAAMQPRHLGVAV
VLVKSFARIHETNLKKQGMLALTFANEDDYDLIQEDDTFNIVDAAEFAPDKPLTIEVVHA
DGSKDTIVTNHTYNDAQIKWFNEGSALNLIKKQNA |
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| NT seq |
2268 nt  +upstreamnt +downstreamnt
atggcatttgatatagacatgattaagggtgtttacgcttccataggggaacgtgtagaa
aaagcccgtgaattggtgggcaagccccttacactttccgaaaaaatcttatactcccac
ctttgggacggtaaacccgaaaaagcatttgtaagaggcaaggattacgttgactttgca
cccgatagaatcgcttgtcaagatgcaacggcacaaatggccttgcttcaatttatgcag
gcgggcaaggataaagtagcggtgcctacaacggttcactgtgatcacttgatccaagcc
aaggatggtgcagcatcagatttgaagcatgccaacgaaaccagtaaagaggtttttgac
ttcttggggtctgtatcgaacaaatatggaattggattttggaaaccaggtgcaggtatt
attcaccaagtagtcttggaaaattatgcatttcctggaggtatgatgatcggaaccgat
tcccacaccgtaaacgccggtggattgggaatggtggccattggtgttggtggggccgat
gccgtggatgtaatggccggaatggcctgggagctcaaattccccaagttgatcggtgta
aaattgaccggtaagctatccggttggacagcccctaaagatgttattctaaaagtggcc
gaaatccttaccgtaaaaggaggaacaggtgccattgtggaatattttggcccaggagca
acttccatgtcctgtaccggtaaaggaaccatctgtaacatgggtgcggaaattggagct
accacttccacatttggttacgacgaatccatggagcgctatttaagggcaaccgatagg
gaagatgttgcggatgaggcaaacaaggtaaaagaacatttgacagccgacccagaggtg
tacgccaaccctgagcaatattttgatcaagtaatcgaaatcaacttgacggaattgaaa
cctctattgaacggtccctttacccctgacttggctacggaagtagggacaatgagggaa
aaagccgagaaaaacgattggcctttggctgtggagtggggattgataggttcctgtacc
aactcgtcctatgaagatttgtcgagagcatcgtccatcgcacaacaagccttggacaaa
aaattgaagacaaaagctgaatttggtatcaacccaggttcggaacaagtaagatatact
acggagcgtgatggtatcctagagatattcgaaaaactggatgccaagatttttacgaac
gcctgcggaccatgtataggtcaatgggcacgttacaaagatccgaagaacgctccaaag
aacagtattgtacattcctttaaccgaaacttcgcaaagcgtgccgatgggaaccccaat
acacacgcattcgtggcttcgccggaaatgaccgctgcaatcgcaattgcgggtcgtttg
gactttaaccccttgacagataagttgatcaacgaagatggcgaggaagttatgttggac
gagccaacaggatgggaactgccaccgaaaggatttgaagttaaagagaacggttacgaa
gacccacttgaagatggtagtggagtagaggtgaaggtagctacggactctgagcgttta
caattgttggagccatttgtgccaatcaaagcaagtgaccttcagggtatgaaattgttg
atcaaggcctttggaaaatgtactactgaccatatttccatggcaggaccatggttgcgt
ttcagggggcatttggacaatattgccaataatactttgattggagcagtaaatgccttc
aaccaaaaaaccaacttcgttaaaaaccaaatcacaggtgagtacggaggtgttccggat
acgcagcgcgaatacaagaaaaaaggtattaagacggttgttgtgggagaccataactac
ggtgaaggttcatcaagggagcatgcggccatgcaaccaagacacttgggtgttgccgtt
gtattggtaaaatccttcgcaaggatccacgagaccaaccttaagaaacaagggatgttg
gcgttgacctttgccaatgaggacgattacgatttgattcaggaagacgatacgttcaat
attgttgatgccgctgagtttgccccggataaacctttgaccatcgaagtagtgcatgcc
gatggaagtaaggataccatcgtaacaaaccatacatacaacgatgcgcagatcaagtgg
ttcaacgaaggttcggccttgaacttgatcaagaaacagaatgcttaa |
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