Rice BARENTSZ genes are required to maintain floral developmental stability against temperature fluctuations.

BARENTSZ (BTZ), a core component of the exon junction complex, regulates diverse developmental processes in animals. However, its evolutionary and developmental roles in plants remain elusive. Here, we revealed that three groups of paralogous BTZ genes existed in Poaceae, and Group 2 underwent loss-of-function mutations during evolution. They showed surprisingly low (~33%) sequence identities, implying functional divergence. Two genes retained in rice, OsBTZ1 and OsBTZ3, were edited; however, the resultant osbtz1 and osbtz3 mutants showed similar floral morphological and functional defects at a low frequency. When growing under low-temperature conditions, developmental abnormalities became pronounced, and new floral variations were induced. In particular, stamen and carpel functionality was impaired in these rice btz mutants. The double-gene mutant osbtz1/3 shared these floral defects with an increased frequency, which was further induced under low-temperature conditions. OsBTZs interacted with OsMADS7 and OsMADS8, and the floral expressions of the OsTGA10 and MADS-box genes were correlatively altered in these osbtz mutants and responded to low-temperature treatment. These novel findings demonstrate that two highly diverged OsBTZs are required to maintain floral developmental stability under low-temperature conditions, and play an integral role in male and female fertility, thus providing new insights into the indispensable roles of BTZ genes in plant development and adaptive evolution.