PENTOSE PHOSPHATE AND CO2 FIXATION WITH SPINACH

PENTOSE PHOSPHATE AND CO2 FIXATION WITH SPINACH EXTRACTS. A. Weissbach, P. Z. Smyrniotis, and B. L. Horecker. J. Am. Chem. Soc. , 1954, 76 ...
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July 5 , 1954

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PGA formed in various incubation mixtures was isolated, following addition of carrier PGA, by precipitation of the water-insoluble barium salts and subsequent purification of the barium fraction by weak acid hydrolysis to decompose hexose and heptose diphosphates, followed by ion exchange chromatography on Dowex-1. The PGA recovered, after removal of the phosphate group with potato phosphatase, was degraded with periodate in a manner similar to that described for the degradation of ~ e r i n e .The ~ distribution of label in the PGA isolated from incubation mixtures with either C 1 4 0or~ l-C14-ribose-5-phosphateis shown in Table 11. With CI4O2as the precursor, essentially all of the radioactivity is found in the carboxyl group of is the prePGA. When l-C14-ribose-5-phosphate cursor, over 70% of the CI4 is in the ,&carbon atom with most of the remaining activity found in the carboxyl carbon atom. The appreciable incorporation of the 1 carbon of ribose into the carboxyl car(3) We wish t o thank Dr. J . A. Basaham of this laboratory for doing bon atom of PGA may be explained by reactions t h e degradations of glyceric acid samples. RADIATION LABORATORY AND T. R. QUAYLE which form 1,3 labeled triose phosphate from l-C'*R . C. FULLER ribose-5-phosphate in leaf extracts5 DEPARTMENT OF CHEMISTRY

limiting its availability for carboxylation. Similarly, labeled phosphoglycerate was largely converted to alanine in times longer than five minutes a t room temperature. Phosphoglycerate was identified by its chromatographic coordinates and cochromatography of the phosphatased compounds with authentic glyceric acid in four solvent systems. The degradation of the labeled glyceric acid showed 100% radioactivity in the carboxyl ~ a r b o nand , ~ no (