Mitochondrial NAD(P)H oxidation pathways and nitrate/ammonium redox balancing in plants

Abstract

Plant mitochondrial oxidative phosphorylation is characterised by alternative electron transport pathways with different energetic efficiencies, allowing turnover of cellular redox compounds like NAD(P)H. These electron transport chain pathways are profoundly affected by soil nitrogen availability, most commonly as oxidized nitrate (NO₃^-) and/or reduced ammonium (NH₄⁺). The bioenergetic strategies involved in assimilating different N sources can alter redox homeostasis and antioxidant systems in different cellular compartments, including the mitochondria and the cell wall. Conversely, changes in mitochondrial redox systems can affect plant responses to N. This review explores the integration between N assimilation, mitochondrial redox metabolism, and apoplast metabolism.

Keywords: Ammonium; Apoplast; Cell wall; Mitochondrial electron transport; Nitrate; Oxidative stress; Reactive oxygen species.