摘要
Rice(Oryza sativa) is a major crop that feeds billions of people, and its yield is strongly influenced by flowering time(heading date). Loss of RICE INDETERMINATE1(RID1) function causes plants not to flower;thus, RID1 is considered a master switch among flowering-related genes. However, it remains unclear whether other proteins function together with RID1 to regulate rice floral transition.Here, we revealed that the chromatin accessibilityand H3 K9 ac, H3 K4 me3, and H3 K36 me3 levels at Heading date 3 a(Hd3 a) and RICE FLOWERING LOCUS T1(RFT1) loci were significantly reduced in rid1 mutants. Notably, RID1 interacted with SET DOMAIN GROUP PROTEIN 722(SDG722), a methyltransferase. We determined that SDG722 affects the global level of H3 K4 me2/3 and H3 K36 me2/3, and promotes flowering primarily through the Early heading date1-Hd3 a/RFT1 pathway. We further established that rice DELLA protein SLENDER RICE1(SLR1) interacted with RID1 to inhibit its transactivation activity, that SLR1 suppresses rice flowering, and that messenger RNA and protein levels of SLR1 gradually decrease with plant growth. Furthermore, SLR1 competed with SDG722 for interaction with RID1. Overall, our results establish that interplay between RID1, SLR1, and SDG722 feeds into rice flowering-time control.
基金
funded by the National Natural Science Foundation of China(32070855 and 31821005)
the National Key Research and Development Program of China(2016YFD0100903)。