Plants comprise over 82% of all biomass on Earth, a third of which is cellulose, making it the most
abundant organic compound¹. Cellulose is also essential for plant development and defense against
multiple stresses. But, despite its relevance, there remains much to be discovered about its biosynthetic
regulation to improve crop’s tolerance to biotic and abiotic stresses.
We have described the Tetratricopeptide Thioredoxin‐Like (TTL² proteins as regulators of the cellulose
synthase complex (CSC) under cellulose‐deficient conditions³. We found that TTLs are required to
maintain cellulose synthesis under salt stress by relocalising from the cytosol to the CSCs, promoting the
polymerization of microtubules to form a stress‐resilient cortical microtubule array, and interacting with
the CSCs to stabilize them at the plasma membrane.
We are currently investigating how TTLs are targeted to the CSCs. We have found that TTL3 is a substrate
for a kinase that when mutated show cellulose‐defective phenotypes under stresses that affect cell wall
integrity. We are currently analysing how the CSCs and microtubules behave under abiotic stress in
mutants for this kinase. This will provide new insights into how changes in phosphorylation status
regulate the activity and dynamic localization of these proteins.