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Glyoxylate interconversions

Glyoxylate reductase [EC 1.1.1.26] catalyzes the reversible reaction of glycolate with NAD+ to produce glyoxylate and NADH. The enzyme will also catalyze the NADH-dependent interconversion of hydroxypyruvate to D-glycerate. Glyoxylate reductase (NADPH) [EC... [Pg.322]

Fig. 1. Main routes involved in the synthesis and interconversion of glycine and serine in plants. The various steps are numbered, and the necessary enzymes are as follows 1, glycolate oxidase, E.C. 1.1.3.1 2, aminotransferases, serine, E.C. 2.6.1.45, and glutamate, E.C. 2.6.1.4, glyoxylate aminotransferases 3, enzyme complex in mitochondria (see Fig. 2) 4, serine-glyoxylate aminotransferase, E.C. 2.6.1.45 5, glycerate dehydrogenase, E.C. 1.1.1.29 6, glycerate kinase E.C. 2.7.1.31 7, D-3-phosphoglycerate phosphatase, E.C. 3.1.3.38 8, d-3-phosphoglycerate dehydrogenase, E.C. 1.1.1.95 9, phosphoserine aminotransferase, E.C. 2.6.1.52 10, phosphoserine phosphatase, E.C. 3.1.3.3 11, serine hydroxymethyltransferase E.C. 2.1.2.1 12, nonenzymatic decarboxylation 13, formyl tetrahydrofolate synthetase, E.C. 6.3.4.3 14, isocitrate iyase, E.C. 4.1.3.1. Fig. 1. Main routes involved in the synthesis and interconversion of glycine and serine in plants. The various steps are numbered, and the necessary enzymes are as follows 1, glycolate oxidase, E.C. 1.1.3.1 2, aminotransferases, serine, E.C. 2.6.1.45, and glutamate, E.C. 2.6.1.4, glyoxylate aminotransferases 3, enzyme complex in mitochondria (see Fig. 2) 4, serine-glyoxylate aminotransferase, E.C. 2.6.1.45 5, glycerate dehydrogenase, E.C. 1.1.1.29 6, glycerate kinase E.C. 2.7.1.31 7, D-3-phosphoglycerate phosphatase, E.C. 3.1.3.38 8, d-3-phosphoglycerate dehydrogenase, E.C. 1.1.1.95 9, phosphoserine aminotransferase, E.C. 2.6.1.52 10, phosphoserine phosphatase, E.C. 3.1.3.3 11, serine hydroxymethyltransferase E.C. 2.1.2.1 12, nonenzymatic decarboxylation 13, formyl tetrahydrofolate synthetase, E.C. 6.3.4.3 14, isocitrate iyase, E.C. 4.1.3.1.
Aconitic acid involved in the TCA and glyoxylate cycles and the acid commonly occurring in nature has the c/5-configuration. The trans- om x has also been isolated from some plant materials - for example, sugarcane Saccharum offi-cinarum) juice (17), tomato (Lycopersicon esculentum) (56) or moss (Bryophyta) (34). However, some of the occurrences might be artifacts of the isolation procedures, for an interconversion between two isomers of aconitic acid has been reported (14, 81). In both cycles, cw-aconitic acid is formed upon dehydration of citric acid catalyzed by aconitase (aconitate hydratase) which also catalyzes the rehydration of cw-aconitate to isocitric acid. [Pg.261]

The synthesis and interconversion of these amino acids is intimately related to the photorespiratory pathway in plants (Wallsgrove et ai, 1983b). As illustrated in Fig. 2, glycolate, formed in chloroplasts [(1) and (2)], is oxidized to glyoxylate and converted to glycine in peroxisomes [(3), (4), and (5)]. Glycine is,... [Pg.174]

See other pages where Glyoxylate interconversions is mentioned: [Pg.246]    [Pg.110]    [Pg.60]    [Pg.1397]    [Pg.375]    [Pg.128]    [Pg.331]    [Pg.349]    [Pg.255]    [Pg.9]    [Pg.368]   
See also in sourсe #XX -- [ Pg.366 ]



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