Cell
Volume 162, Issue 6, 10 September 2015, Pages 1353-1364
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Article
A Mechanism for Sustained Cellulose Synthesis during Salt Stress

https://doi.org/10.1016/j.cell.2015.08.028Get rights and content
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Highlights

  • Identification of two components (CC1 and 2) of the cellulose synthase complex

  • The CCs directly interact with microtubules and promote their dynamics

  • The CCs support microtubule and cellulose synthase activity during salt stress

  • A mechanistic model for how plant biomass is sustained during salt stress

Summary

Abiotic stress, such as salinity, drought, and cold, causes detrimental yield losses for all major plant crop species. Understanding mechanisms that improve plants’ ability to produce biomass, which largely is constituted by the plant cell wall, is therefore of upmost importance for agricultural activities. Cellulose is a principal component of the cell wall and is synthesized by microtubule-guided cellulose synthase enzymes at the plasma membrane. Here, we identified two components of the cellulose synthase complex, which we call companion of cellulose synthase (CC) proteins. The cytoplasmic tails of these membrane proteins bind to microtubules and promote microtubule dynamics. This activity supports microtubule organization, cellulose synthase localization at the plasma membrane, and renders seedlings less sensitive to stress. Our findings offer a mechanistic model for how two molecular components, the CC proteins, sustain microtubule organization and cellulose synthase localization and thus aid plant biomass production during salt stress.

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