1. PERK13 modulates phosphate deficiency-induced root hair elongation in Arabidopsis.
- Author
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Xue C, Li W, Shen R, and Lan P
- Subjects
- Cell Differentiation drug effects, Cell Differentiation genetics, Cell Proliferation drug effects, Cell Proliferation genetics, Cell Wall genetics, Cell Wall metabolism, Organogenesis, Plant drug effects, Phenotype, Plant Roots genetics, Plant Roots metabolism, Plants, Genetically Modified, Signal Transduction drug effects, Signal Transduction genetics, Arabidopsis genetics, Arabidopsis growth & development, Arabidopsis metabolism, Arabidopsis Proteins genetics, Arabidopsis Proteins metabolism, Phosphates deficiency, Plant Roots growth & development
- Abstract
Phosphate starvation (-Pi)-induced root hair is crucial for enhancing plants' Pi absorption. Proline-rich extensin-like receptor kinase 13 (PERK13) is transcriptionally induced by -Pi and co-expressed with genes associated with root hair growth. However, how PERK13 participates in -Pi-induced root hair growth remains unclear. Here, we found that PERK13 was transcriptionally responsive to Pi, nitrogen, and iron deficiencies. Loss of PERK13 function (perk13) enhanced root hair growth under Pi/nitrogen limitation. Similar phenotype was also observed in transgenic lines overexpressing PERK13 (PERK13ox). Under -Pi, both perk13 and PERK13ox showed prolonged root hair elongation and increased reactive oxygen species (ROS). Deletion analysis showed, in PERK13ox, the extracellular domain was indispensable for PERK13 in -Pi-induced root hair growth. Different transcription profiles were observed under -Pi between perk13 and PERK13ox with the jasmonate zim-domain genes being repressed in perk13 and genes involved in cell wall remodeling being increased in PERK13ox. Taken together, we demonstrated that PERK13 participates in -Pi-induced root hair growth probably via regulating root hair elongation and the generation of ROS. Our study also suggested PERK13 probably being a vital hub coupling the environmental cues and root hair growth, and might play dual roles in -Pi-induced root hair growth via different processes., (Copyright © 2021 Elsevier B.V. All rights reserved.)
- Published
- 2021
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