N-6-methyladenosine (m(6)A) modification of mRNAs affects many biological processes. However, the function of m(6)A in plant photosynthesis remains unknown. Here, we demonstrate that m(6)A modification is crucial for photosynthesis during photodamage caused by high light stress in plants. The m(6)A modification levels of numerous photosynthesis-related transcripts are changed after high light stress. We determine that the Arabidopsis m(6)A writer VIRILIZER (VIR) positively regulates photosynthesis, as its genetic inactivation drastically lowers photosynthetic activity and photosystem protein abundance under high light conditions. The m(6)A levels of numerous photosynthesis-related transcripts decrease in vir mutants, extensively reducing their transcript and translation levels, as revealed by multi-omics analyses. We demonstrate that VIR associates with the transcripts of genes encoding proteins with functions related to photoprotection (such as HHL1, MPH1, and STN8) and their regulatory proteins (such as regulators of transcript stability and translation), promoting their m(6)A modification and maintaining their stability and translation efficiency. This study thus reveals an important mechanism for m(6)A-dependent maintenance of photosynthetic efficiency in plants under high light stress conditions. Efficient photoprotection is vital for the maintenance of photosynthetic efficiency during photodamage. Here, the authors reveal that m(6)A writer VIRILIZER acts as a molecular switch of photoprotection by post-transcriptional regulation in plants.

• Institution
  6; 广州中医药大学; 河北医科大学; 广东省农业科学院; 中山大学