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The MoPah1 phosphatidate phosphatase is involved in lipid metabolism, development, and pathogenesis in Magnaporthe oryzae.

Authors :
Zhao, Juan
Sun, Peng
Sun, Qiping
Li, Renjian
Qin, Ziting
Sha, Gan
Zhou, Yaru
Bi, Ruiqing
Zhang, Haifeng
Zheng, Lu
Chen, Xiao‐Lin
Yang, Long
Li, Qiang
Li, Guotian
Source :
Molecular Plant Pathology. May2022, Vol. 23 Issue 5, p720-732. 13p.
Publication Year :
2022

Abstract

As with the majority of the hemibiotrophic fungal pathogens, the rice blast fungus Magnaporthe oryzae uses highly specialized infection structures called appressoria for plant penetration. Appressoria differentiated from germ tubes rely on enormous turgor pressure to directly penetrate the plant cell, in which process lipid metabolism plays a critical role. In this study, we characterized the MoPAH1 gene in M. oryzae, encoding a putative highly conserved phosphatidate phosphatase. The expression of MoPAH1 was up‐regulated during plant infection. The MoPah1 protein is expressed at all developmental and infection stages, and is localized to the cytoplasm. Disruption of MoPAH1 causes pleiotropic defects in vegetative growth, sporulation, and heat tolerance. The lipid profile is significantly altered in the Mopah1 mutant. Lipidomics assays showed that the level of phosphatidic acid (PA) was increased in the mutant, which had reduced levels of diacylglycerol and triacylglycerol. Using a PA biosensor, we showed that the increased level of PA in the Mopah1 mutant was primarily accumulated in the vacuole. The Mopah1 mutant was blocked in both conidiation and the formation of appressorium‐like structures at hyphal tips. It was nonpathogenic and failed to cause any blast lesions on rice and barley seedlings. RNA sequencing analysis revealed that MoPah1 regulates the expression of transcription factors critical for various developmental and infection‐related processes. The Mopah1 mutant was reduced in the expression and phosphorylation of Pmk1 MAP kinase and delayed in autophagy. Our study demonstrates that MoPah1 is necessary for lipid metabolism, fungal development, and pathogenicity in M. oryzae. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
14646722
Volume :
23
Issue :
5
Database :
Academic Search Index
Journal :
Molecular Plant Pathology
Publication Type :
Academic Journal
Accession number :
156251842
Full Text :
https://doi.org/10.1111/mpp.13193