TTG1 proteins regulate circadian activity as well as epidermal cell fate and pigmentation

The Arabidopsis genome contains three genes encoding proteins of the TRANSPARENT TESTA GLABRA 1 (TTG1) WD-repeat (WDR) subfamily. TTG 1 is a known regulator of epidermal cell differentiation and pigment production, while LIGHT-REGULATED WD1 and LIGHT-REGULATED WD2 are known regulators of the circadian clock. Here, we discovered a new central role for TTG1 WDR proteins as regulators of the circadian system, as evidenced by the lack of detectable circadian rhythms in a triple lwd1 lwd2 ttg1 mutant. This shows that there has been subfunctionalization via protein changes within the angiosperms, with some TTG1 WDR proteins developing a stronger role in circadian clock regulation while losing the protein characteristics essential for pigment production and epidermal cell specification, and others weakening their ability to drive circadian clock regulation. Our work shows that even where proteins are very conserved, small changes can drive big functional differences. Subfunctionalization allows gene paralogues to perform distinct ancestral functions. Now, Glover et al. report the functional divergence of proteins of the TRANSPARENT TESTA GLABRA 1 (TTG1) WD40-repeat family in Arabidopsis , showing that small changes in highly conserved proteins can result in major changes to their functions.