CHLOROPLAST UNUSUAL POSITIONING 1 is a new type of actin nucleation factor in plants

Abstract

SUMMARYPlants have evolved unique responses to fluctuating light conditions in their environment. One such response, chloroplast photorelocation movement, optimizes photosynthesis under weak light and prevents photodamage under strong light. CHLOROPLAST UNUSUAL POSITIONING 1 (CHUP1) plays a pivotal role in the light-responsive chloroplast movements, which are driven by dynamic reorganization of chloroplast actin (cp-actin) filaments. In this study, we demonstrated that fluorescently tagged CHUP1 colocalized and was coordinately reorganized with cp-actin filaments during chloroplast movement in Arabidopsis thaliana. The resulting asymmetric distribution of CHUP1 was reversibly regulated by the blue light receptor phototropin. X-ray crystallography indicated that the CHUP1 C-terminal domain shares structural similarity with the formin homology 2 (FH2) domain, although there is no sequence similarity between the two domains. The CHUP1 C-terminal domain stimulated actin polymerization in the presence of profilin. We conclude that CHUP1 is a novel, plant-specific actin nucleator that functions in cp-actin-based chloroplast movement.HighlightsBlue light changes the distribution pattern of CHUP1Formin FH2 and CHUP1 C-terminal domains are structurally similar but not homologousCHUP1 nucleates and severs actin filaments in vitroCHUP1 is a novel, plant-specific actin nucleator for chloroplast movement