Dynamic chemical modifications in eukaryotic messenger RNAs (mRNAs) constitute an essential layer of gene regulation, among which N6 -methyladenosine (m6 A) was unveiled to be the most abundant. m6 A functionally modulates important biological processes in various mammals and plants through the regulation of mRNA metabolism, mainly mRNA degradation and translation efficiency. Physiological functions of m6 A methylation are diversified and affected by intricate sequence contexts and m6 A machineries. A number of studies have dissected the functional roles and the underlying mechanisms of m6 A modifications in regulating plant development and stress responses. Recently, it was demonstrated that the human FTO-mediated plant m6 A removal caused dramatic yield increases in rice and potato, indicating that modulation of m6 A methylation could be an efficient strategy for crop improvement. In this review, we summarize the current progress concerning the m6 A-mediated regulation of crop development and stress responses, and provide an outlook on the potential application of m6 A epitranscriptome in the future improvement of crops.
Keywords: N6-methyladenosine; crop development; crop improvement; m6A machineries; stress responses.
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