Phosphogluconic Dehydrogenase in Higher Plants

Open Access

1 January 1953

journal article
research article
Published by Oxford University Press (OUP) in Plant Physiology

Vol. 28 (1) , 115-122
https://doi.org/10.1104/pp.28.1.115

Abstract

A phosphogluconic dehydrogenase dependent on TPN has been demonstrated in wheat germ, cantaloupe and cucumber fruits, parsley and spinach leaves, and parsnip and turnip roots. Since all plant sources tested contained glutathione reductase, the oxidation of phosphogluconate was coupled with the reduction of GSSG, and pentose orcinol-reacting material and CO2 were shown to be formed as products of such reactions. The stoichiometry indicated the occurrence of other reactions in addition to the oxidation of phosphogluconate to pentose and CO2. A prepn. from parsley leaves caused a disappearance of ribose-5-phosphate, with an appearance of the qualitative test for 7-carbon ketoses and an unidentified TPN dependent oxidative step.

This publication has 9 references indexed in Scilit:

THE DISTRIBUTION IN HIGHER PLANTS OF TRIPHOSPHOPYRIDINE NUCLEOTIDE-LINKED ENZYME SYSTEMS CAPABLE OF REDUCING GLUTATHIONE
Plant Physiology, 1952
Triosephosphate Dehydrogenase and Glucose-6-Phosphate Dehydrogenase in the Pea Plant
Nature, 1952
Carbohydrate Metabolism
Annual Review of Biochemistry, 1952
Pentose metabolism in extracts of yeast and mammalian tissues
Biochimica et Biophysica Acta, 1952
Direct oxidation of glucose-6-phosphate, 6-phosphogluconate and pentose-5-phosphates by enzymes of animal origin
Biochemical Journal, 1951
Further evidence indicating the specificity of the orcinol spray reagent for ketoheptoses on paper chromatograms
Archives of Biochemistry and Biophysics, 1951
GLUTATHIONE REDUCTASE OF WHEAT GERM
Journal of Biological Chemistry, 1951
THE SYNTHESIS OF GLUCOSE-6-PHOSPHATE AND 6-PHOSPHOGLUCONATE
Journal of Biological Chemistry, 1951
BIOSYNTHESIS OF DICARBOXYLIC ACIDS BY CARBON DIOXIDE FIXATION .5. FURTHER STUDY OF THE MALIC ENZYME OF LACTOBACILLUS-ARABINOSUS
1951