The Aquaporin TaPIP2;10 Confers Resistance to Two Fungal Diseases in Wheat

Author:

Wang Xiaobing1,Lu Kai2,Yao Xiaohui2,Zhang Liyuan23,Wang Fubin4,Wu Degong5,Peng Jinfeng1,Chen Xiaochen1,Du Junli5,Wei Jiankun2,Ma Jingyu4,Chen Lei23,Zou Shenshen23,Zhang Chunling1,Zhang Meixiang1,Dong Hansong123ORCID

Affiliation:

1. College of Plant Protection, Nanjing Agricultural University, Nanjing, Jiangsu Province 210095, China

2. College of Plant Protection, Shandong Agricultural University, Taian, Shandong Province 271018, China

3. State Key Laboratory of Crop Biology, Shandong Agricultural University, Taian, Shandong Province 271018, China

4. Institute of Environmental Sciences & Resources and Plant Protection, Jining Academy of Agricultural Sciences, Jining, Shandon Province 272000, China

5. College of Agriculture, Anhui Science and Technology University, Fengyang, Anhui Province 233100, China

Abstract

Plants employ aquaporins (AQPs) of the plasma membrane intrinsic protein (PIP) family to import environmental substrates, thereby affecting various processes, such as the cellular responses regulated by the signaling molecule hydrogen peroxide (H2O2). Common wheat (Triticum aestivum) contains 24 candidate members of the PIP family, designated as TaPIP1;1 to TaPIP1;12 and TaPIP2;1 to TaPIP2;12. None of these TaPIP candidates have been characterized for substrate selectivity or defense responses in their source plant. Here, we report that T. aestivum AQP TaPIP2;10 facilitates the cellular uptake of H2O2 to confer resistance against powdery mildew and Fusarium head blight, two devastating fungal diseases in wheat throughout the world. In wheat, the apoplastic H2O2 signal is induced by fungal attack, while TaPIP2;10 is stimulated to translocate this H2O2 into the cytoplasm, where it activates defense responses to restrict further attack. TaPIP2;10-mediated transport of H2O2 is essential for pathogen-associated molecular pattern-triggered plant immunity (PTI). Typical PTI responses are induced by the fungal infection and intensified by overexpression of the TaPIP2;10 gene. TaPIP2;10 overexpression causes a 70% enhancement in wheat resistance to powdery mildew and an 86% enhancement in resistance to Fusarium head blight. By reducing the disease severities, TaPIP2;10 overexpression brings about >37% increase in wheat grain yield. These results verify the feasibility of using an immunity-relevant AQP to concomitantly improve crop productivity and immunity.

Funder

Major Science and Technology Innovation Project of Shandong Province

National Natural Science Foundation of China

Natural Science Foundation of Shandong Province

Publisher

Scientific Societies

Subject

Plant Science,Agronomy and Crop Science

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