Type One Protein Phosphatase 4aD Negatively Regulates Cotton (Gossypium hirsutum) Salt Tolerance by Inhibiting the Phosphorylation of Kinases That Respond to Abscisic Acid
Pengfei Cao, Miao Zhao, Jinxin Liu, Mingwei Du, Xiaoli Tian, Fangjun Li, Zhaohu Li

TL;DR
This study identifies a protein phosphatase in cotton that reduces salt tolerance by inhibiting key stress-response kinases.
Contribution
The paper reveals GhTOPP4aD as a negative regulator of salt stress response in cotton through kinase dephosphorylation.
Findings
GhTOPP4aD negatively regulates cotton salt tolerance by inhibiting abscisic acid-responsive kinases.
Phosphoproteome analysis identified 6055 phosphoproteins, with significant changes in phosphorylation after GhTOPP4aD silencing.
GhRAF36, GhFER, and GhLYK3 interact with GhTOPP4aD and are involved in salt stress response regulation.
Abstract
Salinity is one of the major factors limiting the growth, development, and yield of cotton. Although the mechanisms of cotton tolerance to salt stress have been studied, the regulatory roles and mechanisms of protein kinases and phosphatases in cotton salt response remain poorly understood. Here, we identify Type One Protein Phosphatase 4aD (GhTOPP4aD), belonging to the Type One Protein Phosphatase (TOPP) family, as a negative regulator in cotton salt stress response. To reveal the post-translational modification mechanism by which GhTOPP4aD regulates salt stress response in cotton, phosphoproteome analysis was performed. A total of 6055 phosphoproteins with 12,608 phosphosites were identified. In VIGS-Ctrl plants, there were 935 upregulated and 35 downregulated phosphoproteins, while there were 1026 upregulated and 89 downregulated phosphoproteins in VIGS-GhTOPP4aD plants after NaCl…
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Taxonomy
TopicsPhotosynthetic Processes and Mechanisms · Plant Molecular Biology Research · Plant Stress Responses and Tolerance
