4.2.1.148: 2-methylfumaryl-CoA hydratase
This is an abbreviated version!
For detailed information about 2-methylfumaryl-CoA hydratase, go to the full flat file.
Reaction
Synonyms
erythro-beta-methylmalonyl-CoA hydrolyase, Hah_1340, MCD, Mch, mesaconyl-C1-CoA hydratase, mesaconyl-CoA hydratase, mesaconyl-coenzyme A hydratase, More
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General Information
General Information on EC 4.2.1.148 - 2-methylfumaryl-CoA hydratase
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evolution
metabolism
physiological function
the mch gene is mainly transmitted vertically among haloarchaea
evolution
the methylaspartate cycle is discovered in Haloarcula spp. and operates in about 40% of sequenced haloarchaea. Mesaconate CoA-transferase and mesaconyl-CoA hydratase are the characteristic enzymes of this cycle. Phylogenetic analysis
evolution
Haloarcula hispanica ATCC 33960 / DSM 4426 / JCM 8911 / NBRC 102182 / NCIMB 2187 / VKM B-1755
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the mch gene is mainly transmitted vertically among haloarchaea
-
evolution
Haloarcula hispanica ATCC 33960 / DSM 4426 / JCM 8911 / NBRC 102182 / NCIMB 2187 / VKM B-1755
-
the methylaspartate cycle is discovered in Haloarcula spp. and operates in about 40% of sequenced haloarchaea. Mesaconate CoA-transferase and mesaconyl-CoA hydratase are the characteristic enzymes of this cycle. Phylogenetic analysis
-
evolution
-
the mch gene is mainly transmitted vertically among haloarchaea
-
evolution
-
the methylaspartate cycle is discovered in Haloarcula spp. and operates in about 40% of sequenced haloarchaea. Mesaconate CoA-transferase and mesaconyl-CoA hydratase are the characteristic enzymes of this cycle. Phylogenetic analysis
-
mesaconate (methylfumarate) that needs to be activated to mesaconyl-C1-CoA and hydrated to beta-methylmalyl-CoA in the methylaspartate cycle as part of the anaplerotic pathway for the conversion of acetyl-CoA into cellular building blocks. The cleavage of beta-methylmalyl-CoA results in the formation of propionyl-CoA and glyoxylate. The carboxylation of propionyl-CoA and the condensation of glyoxylate with another acetyl-CoA molecule give rise to two C4-dicarboxylic acids, thus regenerating the initial acetyl-CoA acceptor and forming malate, its final product. The methylaspartate cycle, overview
metabolism
the enzyme catalyzes a reaction in the methylaspartate cycle
metabolism
Haloarcula hispanica ATCC 33960 / DSM 4426 / JCM 8911 / NBRC 102182 / NCIMB 2187 / VKM B-1755
-
mesaconate (methylfumarate) that needs to be activated to mesaconyl-C1-CoA and hydrated to beta-methylmalyl-CoA in the methylaspartate cycle as part of the anaplerotic pathway for the conversion of acetyl-CoA into cellular building blocks. The cleavage of beta-methylmalyl-CoA results in the formation of propionyl-CoA and glyoxylate. The carboxylation of propionyl-CoA and the condensation of glyoxylate with another acetyl-CoA molecule give rise to two C4-dicarboxylic acids, thus regenerating the initial acetyl-CoA acceptor and forming malate, its final product. The methylaspartate cycle, overview
-
metabolism
Haloarcula hispanica ATCC 33960 / DSM 4426 / JCM 8911 / NBRC 102182 / NCIMB 2187 / VKM B-1755
-
the enzyme catalyzes a reaction in the methylaspartate cycle
-
metabolism
-
mesaconate (methylfumarate) that needs to be activated to mesaconyl-C1-CoA and hydrated to beta-methylmalyl-CoA in the methylaspartate cycle as part of the anaplerotic pathway for the conversion of acetyl-CoA into cellular building blocks. The cleavage of beta-methylmalyl-CoA results in the formation of propionyl-CoA and glyoxylate. The carboxylation of propionyl-CoA and the condensation of glyoxylate with another acetyl-CoA molecule give rise to two C4-dicarboxylic acids, thus regenerating the initial acetyl-CoA acceptor and forming malate, its final product. The methylaspartate cycle, overview
-
metabolism
-
the enzyme catalyzes a reaction in the methylaspartate cycle
-
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the enzyme is part of the 3-hydroxypropanoate cycle for carbon assimilation
physiological function
the enzyme is part of the 3-hydroxypropanoate cycle for carbon assimilation