Myosin‐binding protein 13 mediates primary seed dormancy via abscisic acid biosynthesis and signaling in Arabidopsis.

SUMMARY Dormancy is an essential characteristic that enables seeds to survive in unfavorable conditions while germinating when conditions are favorable. Myosin‐binding proteins (MyoBs) assist in the movement of organelles along actin microfilaments by attaching to both organelles and myosins. In contrast to studies on yeast and metazoans, research on plant MyoBs is still in its early stages and primarily focuses on tip‐growing cells. In this study, we found that Arabidopsis <italic>MyoB13</italic> is highly expressed in dry mature seeds. The <italic>m</italic><italic>yob13</italic> mutant, created using CRISPR/Cas9, exhibits a preharvest sprouting phenotype, which can be mitigated by after‐ripening treatment, indicating that MyoB13 plays a positive role in primary seed dormancy. Furthermore, we show that MyoB13 negatively regulates ABA biosynthesis and signaling pathways. Notably, the expression of MyoB13 orthologs from maize and soybean can completely restore the phenotype of the Arabidopsis <italic>myob13</italic> mutant, suggesting that the function of MyoB13 in ABA‐induced seed dormancy is evolutionarily conserved. Therefore, the functional characterization of MyoB13 offers an additional genetic resource to help prevent vivipary in crop species. [ABSTRACT FROM AUTHOR]