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Stimulation of Malate Synthesis by Glycolate in Tomato Leaves in Relation to CO2 Concentration
Authors:Yamauchi, Minoru   Yamada, Yoshio
Affiliation:Department of Agricultural Chemistry, Kyushu University Fukuoka 812, Japan
Abstract:The mechanism by which malate synthesis from CO2 is increasedunder low concentrations of CO2 was investigated in C3 plants.A number of metabolites were administered to illuminated tomatoleaves, and their effects on the incorporation of 14CO2 intomalate were determined. Compared with water as a control, glycolate,glyoxylate, D,L-glycerate, glycine, phosphoglycolate and L-serineincreased malate synthesis by factors of 6.8, 3.8, 3.3, 2.5,2.3 and 2.2, respectively. The effect of exogenous glycolateon malate synthesis from CO2 was dependent on its concentrationup to 100 mu, but was independent of ambient CO2 concentration.The feeding of l-14C-glycolate in the light indicated that glycolatestimulated the carbon flow from CO2 to malate. The analysis of the products of 14CO2 fixation in illuminatedleaves supplied with glycolate showed increases in malate andsugar and decreases in serine and phosphate esters. However,this stimulated malate synthesis ceased when malonate was suppliedsimultaneously with glycolate. Treatment with glycolate didnot affect the dark 14CO2-fixation, but increased the 14C-malatesynthesis, with a corresponding decrease in 14C-aspartate and14C-glutamate. These results suggest that exogenous glycolateactivates malate dehydrogenase in leaves, and that the increasedglycolate formation at low CO2 concentrations is associatedwith the increased malate synthesis from CO2. (Received January 12, 1981; Accepted May 20, 1981)
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