Metabolic Reprogramming in Chloroplasts under Heat Stress in Plants

Abstract

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Increases in ambient temperatures have been a severe threat to crop production in many countries around the world under climate change. Chloroplasts serve as metabolic centers and play a key role in physiological adaptive processes to heat stress. In addition to expressing heat shock proteins that protect proteins from heat-induced damage, metabolic reprogramming occurs during adaptive physiological processes in chloroplasts. Heat stress leads to inhibition of plant photosynthetic activity by damaging key components functioning in a variety of metabolic processes, with concomitant reductions in biomass production and crop yield. In this review article, we will focus on events through extensive and transient metabolic reprogramming in response to heat stress, which included chlorophyll breakdown, generation of reactive oxygen species (ROS), antioxidant defense, protein turnover, and metabolic alterations with carbon assimilation. Such diverse metabolic reprogramming in chloroplasts is required for systemic acquired acclimation to heat stress in plants.

Keywords

• heat stress
• metabolic reprogramming
• chloroplasts
• chlorophyll breakdown
• reactive oxygen species (ROS)
• antioxidant defense
• protein turnover
• Photosystem II (PSII) core subunit
• PSII repair cycle
• carbon assimilation