Floral transition, regulated by the systemic action of the mobile florigen protein FLOWERING LOCUS T (FT), is essential for successful plant reproduction1. How FT controls downstream gene expression remains incompletely understood, although it relies on the florigen activation complex (FAC), a core component of FT function2–4. The FAC is a nucleus-localized transcriptional activator of genes encoding MADS-box transcription factors critical to reproductive development and consists of florigen FT; a scaffold 14-3-3 protein that is a key component for complex assembly; and FD, a basic leucine-zipper protein that recruits the FAC to DNA. Here we report that the FAC exhibits phase separation. In rice shoot apical meristem cells, rice florigen Heading date 3a (Hd3a) fused to the green fluorescent protein formed speckles in the nucleus. The FAC speckle is formed in a FAC-dependent manner in tobacco cells. Recombinant Hd3a, but not OsFD1, phase-separated in vitro, and this effect was enhanced in the presence of 14-3-3 protein. Furthermore, mutations affecting functionally important residues in the pocket region or C-terminal disordered region of Hd3a affected FAC phase separation, providing a biochemical framework for the protein’s effect on flowering. The ability to form condensates via phase transition represents a previously unknown mechanism for gene activation by the FAC.