|1.||Ose, Toyoyuki: 1 article (07/2004)|
|2.||Honma, Mamoru: 1 article (07/2004)|
|3.||Watanabe, Kenji: 1 article (07/2004)|
|4.||Oikawa, Hideaki: 1 article (07/2004)|
|5.||Yao, Min: 1 article (07/2004)|
|6.||Tanaka, Isao: 1 article (07/2004)|
|7.||Watanabe, K: 1 article (12/2000)|
|8.||Ichihara, A: 1 article (12/2000)|
|9.||Honma, M: 1 article (12/2000)|
|10.||Oikawa, H: 1 article (12/2000)|
|1.||Dehydration (Water Stress)
12/08/2000 - "Macrophomate synthase from the fungus Macrophoma commelinae IFO 9570 is a Mg(II)-dependent dimeric enzyme that catalyzes an extraordinary, complex five-step chemical transformation from 2-pyrone and oxalacetate to benzoate involving decarboxylation, C-C bond formation, and dehydration. "
07/01/2004 - "Macrophomate synthase (MPS) is an enzyme that catalyzes an extraordinarily complex conversion reaction, including two decarboxylations, two carbon-carbon bond formations and a dehydration, to form the benzoate analogue macrophomate from a 2-pyrone derivative and oxalacetate. "
12/08/2000 - "Incubation of the stereospecifically deuterium-labeled malate with 2-pyrones in the presence of malate dehydrogenase provided information for the stereochemical course of the reaction catalyzed by macrophomate synthase, indicating that the first decarboxylation provides pyruvate (Z)-[3-(2)H]enolate and that dehydration at the final step occurs with anti-elimination accompanied by concomitant decarboxylation. "
|2.||Conversion Disorder (Astasia Abasia)
|2.||Pyruvic Acid (Pyruvate)
|3.||Malate Dehydrogenase (Dehydrogenase, Malate)
|6.||malic acid (malate)