Hydrogen peroxide production and the release of carbon dioxide during glycollate oxidation in leaf peroxisomes

Abstract

The rate at which H₂O₂ becomes available during glycollate oxidation for further oxidation reactions, especially that of glyoxylate to formate and CO₂, in peroxisomes from spinach-beet (Beta vulgaris L., var. vulgaris) leaves has been determined by measuring O₂ uptake in the presence and absence of added catalase. The rates observed under air and pure O₂ were sufficient to account for the ¹⁴CO₂ released from [l-¹⁴C]glycollate under these conditions; the two reactions showed similar characteristics. In the course of the reaction, a fall in catalase activity was observed concomitant with an increase in ¹⁴CO₂ release. There is no evidence that catalase was disproportionately lost from the peroxisomes during isolation, and it is argued that the CO₂ release observed contributes to the photorespiratory CO₂ loss in intact leaves.