Abstract
Plants have evolved sophisticated mechanisms to ensure flowering in favorable conditions for reproductive success. In the model plant Arabidopsis thaliana, FLOWERING LOCUS C (FLC) acts as a central repressor of flowering and the major determinant for winter cold requirement for flowering. FLC is activated in winter annuals by the FRIGIDA (FRI) activator complex containing FRI, FLC EXPRESSOR (FLX), and FLX-LIKE 4 (FLX4), among which FLX and FLX4 are also essential for establishing basal FLC expression in summer annuals. Here we show that a plant RNA polymerase II C-terminal domain phosphatase, C-TERMINAL DOMAIN PHOSPHATASE-LIKE 3 (CPL3), interacts with and dephosphorylates FLX4 through their scaffold protein FLX to inhibit flowering. CPL3-mediated dephosphorylation of FLX4 serves as a key molecular switch that enables binding of dephosphorylated FLX4 to the FLC locus to promote FLC expression, thus repressing flowering in both winter and summer annuals of Arabidopsis. Our findings reveal a molecular switch underlying the activation of FLC for flowering time control.