Wheat ABA Receptor TaPYL5 Constitutes a Signaling Module with Its Downstream Partners TaPP2C53/TaSnRK2.1/TaABI1 to Modulate Plant Drought Response

Wheat ABA Receptor TaPYL5 Constitutes a Signaling Module with Its Downstream Partners TaPP2C53/TaSnRK2.1/TaABI1 to Modulate Plant Drought Response

Abscisic acid receptors (ABR) play crucial roles in transducing the ABA signaling initiated by osmotic stresses, which has a significant impact on plant acclimation to drought by modulating stress-related defensive physiological processes. We characterized TaPYL5, a member of the ABR family in wheat...

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Bibliographic Details
Main Authors:	Du, P. (Author), Han, L. (Author), Hou, X. (Author), Ni, C. (Author), Xiao, K. (Author), Zhang, Y. (Author), Zhao, Y. (Author)
Format:	Article
Language:	English
Published:	MDPI 2023
Subjects:	abscisic acid Abscisic Acid abscisic acid receptor drought drought stress Droughts gene expression gene expression regulation Gene Expression Regulation, Plant metabolism osmolyte content physiological stress plant plant protein Plant Proteins Plants Plants, Genetically Modified ROS homeostasis signal transduction Signal Transduction stomata property Stress, Physiological transgene analysis transgenic plant Triticum Triticum aestivum wheat
Online Access:	View Fulltext in Publisher View in Scopus

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