Plants and algae must tightly coordinate photosynthetic electron transport and metabolic activities given that they often face fluctuating light and nutrient conditions. The exchange of metabolites and signaling molecules between organelles is thought to be central to this regulation but evidence for this is still fragmentary. Here, we show that knocking out the peroxisome-located () of results in dramatic alterations not only in peroxisomal fatty acid breakdown but also in chloroplast starch metabolism and photosynthesis. mutants accumulated 50% more storage lipid and 2-fold more starch than the wild type during nitrogen deprivation. In parallel, showed increased photosystem II yield and photosynthetic CO fixation. Metabolite analyses revealed a >60% reduction in malate, together with increased levels of NADPH and HO in Similar phenotypes were found upon high light exposure. Furthermore, based on the lack of starch accumulation in a knockout mutant of the HO-producing peroxisomal and on the effects of HO supplementation, we propose that peroxisome-derived HO acts as a regulator of chloroplast metabolism. We conclude that peroxisomal MDH2 helps photoautotrophs cope with nitrogen scarcity and high light by transmitting the redox state of the peroxisome to the chloroplast by means of malate shuttle- and HO-based redox signaling.
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| http://dx.doi.org/10.1105/tpc.18.00361 | DOI Listing |
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