PIN1 regulates epidermal cells development under drought and salt stress using single-cell analysis

George Bawa; Zhixin Liu; Rui Wu; Yaping Zhou; Hao Liu; Susu Sun; Yumeng Liu; Aizhi Qin; Xiaole Yu; Zihao Zhao; Jincheng Yang; Mengke Hu; Xuwu Sun

doi:10.3389/fpls.2022.1043204

PIN1 regulates epidermal cells development under drought and salt stress using single-cell analysis

Front Plant Sci. 2022 Nov 14:13:1043204. doi: 10.3389/fpls.2022.1043204. eCollection 2022.

Authors

George Bawa¹, Zhixin Liu¹, Rui Wu¹, Yaping Zhou¹, Hao Liu¹, Susu Sun¹, Yumeng Liu¹, Aizhi Qin¹, Xiaole Yu¹, Zihao Zhao¹, Jincheng Yang¹, Mengke Hu¹, Xuwu Sun¹

Affiliation

¹ State Key Laboratory of Cotton Biology, Key Laboratory of Plant Stress Biology, School of Life Sciences, Henan University, Kaifeng, China.

Abstract

Over the course of evolution, plants have developed plasticity to acclimate to environmental stresses such as drought and salt stress. These plant adaptation measures involve the activation of cascades of molecular networks involved in stress perception, signal transduction and the expression of stress related genes. Here, we investigated the role of the plasma membrane-localized transporter of auxin PINFORMED1 (PIN1) in the regulation of pavement cells (PCs) and guard cells (GCs) development under drought and salt stress conditions. The results showed that drought and salt stress treatment affected the development of PCs and GCs. Further analysis identified the different regulation mechanisms of PIN1 in regulating the developmental patterns of PCs and GCs under drought and salt stress conditions. Drought and salt stress also regulated the expression dynamics of PIN1 in pif1/3/4/5 quadruple mutants. Collectively, we revealed that PIN1 plays a crucial role in regulating plant epidermal cells development under drought and salt stress conditions, thus contributing to developmental rebustness and plasticity.

Keywords: PINFORMED1; abiotic stress; arabidopsis; epidermal cells; leaf development.