The redox code of plants

Author:

Mittler Ron12ORCID,Jones Dean P.3ORCID

Affiliation:

1. Division of Plant Science and Technology, College of Agriculture Food and Natural Resources and Interdisciplinary Plant Group University of Missouri Columbia Missouri USA

2. Department of Surgery University of Missouri School of Medicine, Christopher S. Bond Life Sciences Center, University of Missouri Columbia Missouri USA

3. Department of Medicine Emory University Atlanta Georgia USA

Abstract

AbstractCentral metabolism is organised through high‐flux, Nicotinamide Adenine Dinucleotide (NAD+/NADH) and NADP+/NADPH systems operating at near equilibrium. As oxygen is indispensable for aerobic organisms, these systems are also linked to the levels of reactive oxygen species, such as H2O2, and through H2O2 to the regulation of macromolecular structures and activities, via kinetically controlled sulphur switches in the redox proteome. Dynamic changes in H2O2 production, scavenging and transport, associated with development, growth and responses to the environment are, therefore, linked to the redox state of the cell and regulate cellular function. These basic principles form the ‘redox code’ of cells and were first defined by D. P. Jones and H. Sies in 2015. Here, we apply these principles to plants in which recent studies have shown that they can also explain cell‐to‐cell and even plant‐to‐plant signalling processes. The redox code is, therefore, an integral part of biological systems and can be used to explain multiple processes in plants at the subcellular, cellular, tissue, whole organism and perhaps even community and ecosystem levels. As the environmental conditions on our planet are worsening due to global warming, climate change and increased pollution levels, new studies are needed applying the redox code of plants to these changes.

Publisher

Wiley

Subject

Plant Science,Physiology

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