An mRNA methylase and demethylase regulate sorghum salt tolerance by mediating N6-methyladenosine modification.

Zheng H, Dang Y, Gao Y, Li S, Wu F, Zhang F, Wang X, Du X, Wang L, Song J, Sui N

Published: 15 October 2024 in Plant physiology
Keywords: N 6-methyladenosine, SbALKBH10B, SbMTA, Epitranscriptomic regulation, salt tolerance, sorghum
Pubmed ID: 39405192
DOI: 10.1093/plphys/kiae529

N 6-methyladenosine (m6A) modification is a crucial and widespread molecular mechanism governing plant development and stress tolerance. The specific impact of m6A regulation on plants with inherently high salt tolerance remains unclear. Existing research primarily focuses on the overexpression or knockout of individual writer or eraser components to alter m6A levels. However, a comprehensive study simultaneously altering overall m6A modification levels within the same experiment is lacking. Such an investigation is essential to determine whether opposing changes in m6A modification levels exert entirely different effects on plant salt tolerance. In this study, we identified the major writer member mRNA adenosine methylase A (SbMTA) in sorghum (Sorghum bicolor) as critical for sorghum survival. The sbmta mutant exhibits a phenotype characterized by reduced overall m6A, developmental arrest, and, ultimately, lethality. Overexpression of SbMTA increased m6A levels and salt tolerance, while overexpression of the m6A eraser alkylated DNA repair protein AlkB homolog 10B (SbALKBH10B) in sorghum showed the opposite phenotype. Comparative analyses between sorghum with different m6A levels reveal that SbMTA- and SbALKBH10B-mediated m6A alterations significantly impact the stability and expression levels of genes related to the ABA signaling pathway and growth under salt stress. In summary, this study unveils the intricate relationship between m6A modifications and salt tolerance in sorghum, providing valuable insights into how m6A modification levels on specific transcripts influence responses to salt stress.

National Key R&D Program of China 022YFD1201702
National Natural Science Research Foundation of China 32272040
Natural Science Research Foundation of Shandong Province ZR2023QC19
Shandong Province - Agricultural Fine Seed Project 2021LZGC00
Shandong Province - Modern Agriculture Industrial Technology Systems Project SDAIT-15-04
TaiShan Scholars - special fun No.tsqn202211106