Molecular basis of CONSTANS oligomerization in <i>FLOWERING LOCUS T</i> activation
Xiaolin Zeng, Xinchen Lv, Rui Liu, Hang He, Shiqi Liang, Lixian Chen, Fan Zhang, Liu Chen, Yuehui He, Jiamu Du
Abstract
Abstract The transcription factor CONSTANS (CO) integrates day‐length information to induce the expression of florigen FLOWERING LOCUS T ( FT ) in Arabidopsis . We recently reported that the C‐terminal CCT domain of CO forms a complex with NUCLEAR FACTOR‐YB/YC to recognize multiple cis ‐elements in the FT promoter, and the N‐terminal tandem B‐box domains form a homomultimeric assembly. However, the mechanism and biological function of CO multimerization remained unclear. Here, we report that CO takes on a head‐to‐tail oligomeric configuration via its B‐boxes to mediate FT activation in long days. The crystal structure of B‐boxes CO reveals a closely connected tandem B‐box fold forming a continuous head‐to‐tail assembly through unique CDHH zinc fingers. Mutating the key residues involved in CO oligomerization resulted in a non‐functional CO , as evidenced by the inability to rescue co mutants. By contrast, a transgene encoding a human p53 ‐derived tetrameric peptide in place of the B‐boxes CO rescued co mutant, emphasizing the essential role of B‐boxes CO ‐mediated oligomerization. Furthermore, we found that the four TGTG‐bearing cis ‐elements in FT proximal promoter are required for FT activation in long days. Our results suggest that CO forms a multimer to bind to the four TGTG motifs in the FT promoter to mediate FT activation.