Rice CRYPTOCHROME‐INTERACTING BASIC HELIX‐LOOP‐HELIX 1‐LIKE interacts with OsCRY2 and promotes flowering by upregulating Early heading date 1.

Flowering time is a crucial adaptive response to seasonal variation in plants and is regulated by environmental cues such as photoperiod and temperature. In this study, we demonstrated the regulatory function of rice <italic>CRYPTOCHROME‐INTERACTING BASIC HELIX‐LOOP‐HELIX 1‐LIKE</italic> (<italic>OsCIBL1</italic>) in flowering time. Overexpression of <italic>OsCIB1L</italic> promoted flowering, whereas the <italic>oscib1l</italic> knockout mutation did not alter flowering time independent of photoperiodic conditions. Cryptochromes (CRYs) are blue light photoreceptors that enable plants to sense photoperiodic changes. OsCIBL1 interacted with OsCRY2, a member of the rice CRY family (OsCRY1a, OsCRY1b, and OsCRY2), and bound to the <italic>Early heading date 1</italic> (<italic>Ehd1</italic>) promoter, activating the rice‐specific Ehd1‐<italic>Heading date 3a</italic>/<italic>RICE FLOWERING LOCUS T 1</italic> pathway for flowering induction. Dual‐luciferase reporter assays showed that the OsCIBL1‐OsCRY2 complex required blue light to induce <italic>Ehd1</italic> transcription. Natural alleles resulting from nonsynonymous single nucleotide polymorphisms in <italic>OsCIB1L</italic> and <italic>OsCRY2</italic> may contribute to the adaptive expansion of rice cultivation areas. These results expand our understanding of the molecular mechanisms controlling rice flowering and highlight the importance of blue light‐responsive genes in the geographic distribution of rice. [ABSTRACT FROM AUTHOR]