Seed dormancy is an important adaptive trait in plants. Proper seed dormancy enables the avoidance of preharvest sprouting in the undesirable conditions like rainfall frequently. In this study, qPSR8, a major QTL for preharvest sprouting, was isolated, and a previously reported heading-date gene, CCT30, was verified as the candidate gene. The CCT30 knockout mutants (CCT30-CR) enhanced seed dormancy and ABA sensitivity as compared with the wild-type ZH11. Conversely, CCT30 overexpressing plants had opposite phenotype changes and had a decreased ABA content. The expression of ABA synthesis genes such as OsNCEDs and ABA signalling genes such as ABI3 and ABI5 were upregulated and sugar metabolism-related genes such as amylase genes were downregulated in CCT30-CR. Correspondingly, fewer free sugars, such as monosaccharides and oligosaccharides, accumulated in CCT30-CR. The freshly harvested seeds from CCT30-CR had no ability to transmit sugar signals when treated with 1% exogenous glucose. In addition, CCT30 interacted with the transcription factor OsbZIP37, which negatively regulates seed dormancy. Overall, CCT30 promotes preharvest sprouting by enhancing sugar signals that inhibit the ABA-mediated pathway, and CCT30 is a good gene for breeding rice varieties resistant to preharvest sprouting.
Keywords: ABA‐mediated pathway; CCT30; OsbZIP37; preharvest sprouting; sugar signalling.
© 2024 The Author(s). Plant Biotechnology Journal published by Society for Experimental Biology and The Association of Applied Biologists and John Wiley & Sons Ltd.