Redox in Plants

Dear Colleagues,

Although redox regulation is not restricted to plants, but present in all kingdoms of life, the sessile nature of plants results in a heightening of this regulation. The exposition to an ever-changing environment requires a dynamic adaptation in plant metabolism. Changes in light intensity, temperature, and water availability result in the generation of reactive oxygen or nitrogen species (ROS/RNS) in mitochondria and especially in the chloroplast, leading to stress situations or even cell death. That is, depending on their concentration, ROS/RNS can either play a signaling role or be cell-damaging. The importance of redox regulation in plants is reflected by the diversity of mechanisms controlling ROS/RNS levels, including both non-enzymatic and enzymatic antioxidant systems, as well as the existence of redox signaling pathways adapted to their life styles. The regulation of a great number of metabolic reactions in plants is based on dithiol-disulphide exchange, relying on proteins as thioredoxins and glutaredoxins, which reduce and consequently activate redox-sensitive proteins in the chloroplast under illumination. Moreover, some thioredoxins act as oxidants under darkness conditions. Although, as mentioned, redox regulation is key in organelles such as the chloroplast or mitochondria, plant cells have developed efficient redox-sensing mechanisms which are present in all subcellular compartments. In fact, a connection between chloroplast metabolism and mitochondrial ROS production through malate circulation and chloroplast to cytosol export of citrate under active photosynthesis has been proposed, reflecting the interplay between different organelles to maintain energy homeostasis in the cell.

The aim of this Special Issue on “Redox in Plants” is to gain more insight into plant redox processes, in the broadest sense, including sensing and signaling pathways, post-translational modifications, ROS/RNS scavenging or redox-based activity or gene expression regulation. In addition, novel redox methodologies focused on plant research will also be considered. Full review articles are also welcome.

Prof. Dr. María Cruz González
Prof. Dr. Antonio Jesús Serrato
Guest Editors

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• Reactive oxygen and nitrogen species (ROS/RNS)
• Thioredoxins
• Oxidative stress
• Antioxidant enzymes
• Redox signaling
• Redox sensing
• Glutaredoxins
• Retrograde signaling