Plasma membrane-generated ROS and their possible contribution to leaf cell growth of cucumber (Cucumis sativus) MSC16 mitochondrial mutant

Reactive oxygen species (ROS) generally regarded as harmful products of oxygenic metabolism causing oxidative stress and cell damage are also important for control and regulation of biological processes. ROS can be generated by various enzymatic activities and removed by an array of ROS-scavenging molecules in the cell. In plants, the generation of ROS initiated by the plasma membrane NADPH oxidase can be used for controlled polymer breakdown leading to cell wall loosening during extension growth. The mosaic (MSC16) mitochondrial mutant of cucumber (Cucumis sativus L.) has marked phenotypic changes, including a slower growth rate which partially may result from disturbed leaf carbon and energy metabolism and ROS/antioxidants equilibrium. Cytochemical localization of H2O2 in leaf cells showed lower total level of H2O2 particularly in the apoplast of MSC16 leaf cells as compared to WT. The activity of plasma membrane NADPH oxidase (EC 1.6.3.1) was about 30% lower in plasmalemma vesicles isolated from MSC16 leaf tissue as compared to WT. The total foliar ascorbate pool (reduced and oxidized) was about 35% higher in MSC16 compared to WT leaves due to an increased content of the oxidized form. About 3% of the whole-leaf ascorbate was localized in the apoplast but in MSC16 it was considerably more reduced. We conclude that the lower apoplastic ROS content caused by decreased activity of plasma membrane NADPH oxidase and lower amounts of H2O2 in the apoplast may also contribute to altered growth of the MSC16 cucumber mutant.