Abstract:
:Isolated soybean leaf mesophyll cells decarboxylated exogenously added [1-(14)C]glycolate and [1-(14)C]glycine in the dark. The rate of CO(2) release from glycine was inhibited over 90% by isonicotinic acid hydrazide and about 80% by KCN, two inhibitors of the glycine to serine plus CO(2) reaction. The release of CO(2) from glycolate was inhibited by less than 50% under the same conditions. This indicates that about 50% of the CO(2) released from glycolate occurred at a site other than the glycine to serine reaction. The sensitivity of this alternative site of CO(2) release to an inhibitor of glycolate oxidase (methyl-2-hydroxy-3-butynoate) but not an inhibitor of the glutamate:glyoxylate aminotransferase (2,3-epoxypropionate) indicates that this alternative (isonicotinic acid hydrazide insensitive) site of CO(2) release involved glyoxylate. Catalase inhibited this CO(2) release. Under the conditions used it is suggested that about half of the CO(2) released from glycolate occurred at the conversion of glycine to serine plus CO(2) while the remaining half of the CO(2) loss resulted from the direct oxidation of glyoxylate by H(2)O(2).The rate of glycine decarboxylation by the glycine to serine reaction was apparently controlled by the amount of NAD in the mitochondria. Mitochondrial electron transport inhibitors, KCN and actinomycin A, inhibited glycine decarboxylation while an uncoupler, 2,4-dinitrophenol, stimulated the reaction. Competition within the mitochondria between the enzymes of dark respiration and glycine decarboxylation for limiting NAD may force substantial amounts of the glycolate formed to be decarboxylated by the direct oxidation of glyoxylate.
journal_name
Plant Physioljournal_title
Plant physiologyauthors
Oliver DJdoi
10.1104/pp.64.6.1048subject
Has Abstractpub_date
1979-12-01 00:00:00pages
1048-52issue
6eissn
0032-0889issn
1532-2548journal_volume
64pub_type
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