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Stress-triggered redox signalling: what's in pROSpect?
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International audience. Reactive oxygen species (ROS) have a profound influence on almost every aspect of plant biology. Here, we emphasize the fundamental, intimate relationships between light-driven reductant formation, ROS, and oxidative stress, together with compartment-specific differences in redox buffering and the perspectives for their analysis. Calculations of approximate H2O2 concentrations in the peroxisomes are provided, and based on the likely values in other locations such as chloroplasts, we conclude that much of the H2O2 detected in conventional in vitro assays is likely to be extracellular. Within the context of scant information on ROS perception mechanisms, we consider current knowledge, including possible parallels with emerging information on oxygen sensing. Although ROS can sometimes be signals for cell death, we consider that an equally important role is to transmit information from metabolism to allow appropriate cellular responses to developmental and environmental changes. Our discussion speculates on novel sensing mechanisms by which this could happen and how ROS could be counted by the cell, possibly as a means of monitoring metabolic flux. Throughout, we place emphasis on the positive effects of ROS, predicting that in the coming decades they will increasingly be defined as hallmarks of viability within a changing and challenging environment. The multifaceted roles of reactive oxygen species (ROS) in plants and animals continue to fascinate biologists, not least because of the dynamic relationships between reduction/oxidation (redox) signalling leading to growth and defence responses and oxidative stress leading to cell suicide programmes. We propose that ROS production is a hallmark of viable cells within a changing and challenging environment. We discuss compartment-specific differences in redox buffering capacity, the transition from hypoxia to oxidative metabolism and ROS sensing and signalling mechanisms as central future research directions.
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