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W2567504706 endingPage "191" @default.
W2567504706 startingPage "169" @default.
W2567504706 abstract "Plant growth is coordinated with environmental factors, including water availability during times of drought. Microtubules influence cell expansion; however, the mechanisms by which environmental signals impinge upon microtubule organization and whether microtubule-related factors limit growth during drought remains unclear. We found that three Clade E Growth-Regulating (EGR) Type 2C protein phosphatases act as negative growth regulators to restrain growth during drought. Quantitative phosphoproteomics indicated that EGRs target cytoskeleton and plasma membrane-associated proteins. Of these, Microtubule-Associated Stress Protein 1 (MASP1), an uncharacterized protein, increased in abundance during stress treatment and could bind, bundle, and stabilize microtubules in vitro. MASP1 overexpression enhanced growth, in vivo microtubule stability, and recovery of microtubule organization during drought acclimation. These MASP1 functions in vivo were dependent on phosphorylation of a single serine. For all EGR and MASP1 mutants and transgenic lines examined, enhanced microtubule recovery and stability were associated with increased growth during drought stress. The EGR-MASP1 system selectively regulates microtubule recovery and stability to adjust plant growth and cell expansion in response to changing environmental conditions. Modification of EGR-MASP1 signaling may be useful to circumvent negative growth regulation limiting plant productivity. EGRs are likely to regulate additional proteins involved in microtubule stability and stress signaling." @default.
W2567504706 created "2017-01-06" @default.
W2567504706 creator A5053050476 @default.
W2567504706 creator A5059520764 @default.
W2567504706 creator A5073051768 @default.
W2567504706 creator A5091068308 @default.
W2567504706 date "2016-12-23" @default.
W2567504706 modified "2023-10-11" @default.
W2567504706 title "Protein Phosphatase 2Cs and <i>Microtubule-Associated Stress Protein 1</i> Control Microtubule Stability, Plant Growth, and Drought Response" @default.
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W2567504706 doi "https://doi.org/10.1105/tpc.16.00847" @default.
W2567504706 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5304354" @default.