Methyl viologen can affect mitochondrial function in Arabidopsis

Author:

Cui FuqiangORCID,Brosché MikaelORCID,Shapiguzov AlexeyORCID,He Xin-QiangORCID,Vainonen Julia P.ORCID,Leppälä JohannaORCID,Trotta AndreaORCID,Kangasjärvi SaijaliisaORCID,Salojärvi JarkkoORCID,Kangasjärvi JaakkoORCID,Overmyer KirkORCID

Abstract

AbstractReactive oxygen species (ROS) are key signalling intermediates in plant metabolism, defence, and stress adaptation. The chloroplast and mitochondria are centres of metabolic control and ROS production, which coordinate stress responses in other cell compartments. The herbicide and experimental tool, methyl viologen (MV) induces ROS generation in the chloroplast under illumination, but is also toxic in non-photosynthetic organisms. We used MV to probe plant ROS signalling in compartments other than the chloroplast. Taking a genetic approach in Arabidopsis thaliana, we used natural variation, QTL mapping, and mutant studies with MV in the light, but also under dark conditions, when the chloroplast electron transport is inactive. These studies revealed a light-independent MV-induced ROS-signalling pathway, suggesting mitochondrial involvement. Mitochondrial Mn SUPEROXIDE DISMUTASE was required for ROS-tolerance and the effect of MV was enhanced by exogenous sugar, providing further evidence for the role of mitochondria. Mutant and hormone feeding assays revealed roles for stress hormones in organellar ROS-responses. The radical-induced cell death1 mutant, which is tolerant to MV-induced ROS and exhibits altered mitochondrial signalling, was used to probe interactions between organelles. Our studies implicate mitochondria in the response to ROS induced by MV.

Publisher

Cold Spring Harbor Laboratory

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