Kate of oxalate biosynthesis from glycolate and ascorbic acid in spinach leaves

Abstract

The contribution of glycolate as a precursor of oxalate in newly expanding spinach leaves was compared with that of L-ascorbic acid (ASA). Detached spinach leaves were fed with [2-¹⁴C]glycolate and [1-¹⁴C]ASA. Using the values of the rate of photorespiratory glycolate synthesis and the incorporation of glycolate-¹⁴C into oxalate, the rate of oxalate biosynthesis via glycolate amounted to 34 μg g^-1 fr wt h^-1 under light conditions. When the values of incorporation of ASA-¹⁴C into oxalate and the turnover rate of ASA were used, the rate of oxalate biosynthesis via ASA in light and darkness, amounted to 1.6 and 2.9 μg g^-1 fr wt h^-1, respectively. Glycolate was found to be more efficient as a precursor of oxalate than ASA in newly expanding spinach leaves.