University of British Columbia researchers have discovered an internal messaging system that plants use to manage the growth and division of their cells. These growth-management processes are critical for all organisms, because without them, cells can proliferate out of control—as they do in cancers and bacterial infections.
Plants use this messaging system to survive under harsh conditions or to compete successfully when conditions are favourable. It tells them when to grow, when to stagnate, when to flower, and when to store resources — all based on the prevailing conditions. Understanding how it all works could enable innovations in agriculture, forestry and conservation as climate change takes hold.
UBC botany professor Geoffrey Wasteneys and his colleagues discovered that the system is driven by a protein called CLASP. The protein, found in plants, animals and fungi, plays an essential role in cell growth and division by coordinating the assembly of filaments within cells. Its gene in plants was first identified by Wasteneys in 2007.
Their study published today in Current Biology reveals that production of CLASP is reduced by a plant-growth hormone called brassinosteroid. The researchers established this by exposing thale cress—a small flowering plant native to Eurasia and Africa—to brassinosteroid. This exposure stunted the plants in a way that closely resembled mutant versions of the plant that lacked the CLASP protein altogether. This observation led the team to conduct experiments that proved CLASP is indeed a direct target of brassinosteroid.
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Image via University of British Columbia.