Magnesium Uptake by CorA Transporters Is Essential for Growth, Development and Infection in the Rice Blast Fungus Magnaporthe oryzae

Autor: Md. Hashim Reza, Bharat B. Chattoo, Johannes Manjrekar, Hiral Shah
Jazyk: angličtina
Rok vydání: 2016
Předmět:
0106 biological sciences
0301 basic medicine
Magnaporthe
Fungal Structure
Rice Blast Fungus
Mutant
Cell Membranes
lcsh:Medicine
Gene Expression
Yeast and Fungal Models
Plant Science
01 natural sciences
Physical Chemistry
Gene Expression Regulation
Plant
Gene expression
Magnesium
lcsh:Science
Cation Transport Proteins
Plant Proteins
Gene knockdown
Multidisciplinary
biology
Plant Fungal Pathogens
food and beverages
RNA silencing
Chemistry
Biochemistry
Physical Sciences
Saccharomyces Cerevisiae
Cellular Structures and Organelles
Intracellular
Research Article
Plant Pathogens
Mycology
Research and Analysis Methods
03 medical and health sciences
Saccharomyces
Model Organisms
Cell Walls
Cations
Genetics
Gene silencing
Appressoria
Plant Diseases
Ions
Appressorium
lcsh:R
Organisms
Fungi
Biology and Life Sciences
Membrane Proteins
Oryza
Cell Biology
Plant Pathology
biology.organism_classification
Yeast
030104 developmental biology
lcsh:Q
010606 plant biology & botany
Zdroj: PLoS ONE
PLoS ONE, Vol 11, Iss 7, p e0159244 (2016)
ISSN: 1932-6203
Popis: Magnaporthe oryzae, the causative organism of rice blast, infects cereal crops and grasses at various stages of plant development. A comprehensive understanding of its metabolism and the implications on pathogenesis is necessary for countering this devastating crop disease. We present the role of the CorA magnesium transporters, MoAlr2 and MoMnr2, in development and pathogenicity of M. oryzae. The MoALR2 and MoMNR2 genes individually complement the Mg2+ uptake defects of a S. cerevisiae CorA transporter double mutant. MoALR2 and MoMNR2 respond to extracellular Mg2+ and Ca2+ levels and their expression is elevated under Mg2+ scarce conditions. RNA silencing mediated knockdown of MoALR2 (WT+siALR2, Δmnr2+siALR2 and ALR2+MNR2 simultaneous silencing) drastically alters intracellular cation concentrations and sensitivity to metal ions. MoALR2 silencing is detrimental to vegetative growth and surface hydrophobicity of mycelia, and the transformants display loss of cell wall integrity. MoALR2 is required for conidiogenesis and appressorium development, and is essential for infection. Investigation of knockdown transformants reveal low cAMP levels and altered expression of genes encoding proteins involved in MoMps1 cell wall integrity and cAMP MoPmk1 driven MAP Kinase signaling pathways. In contrast to MoALR2 knockdowns, the MoMNR2 deletion (Δmnr2) shows increased sensitivity to CorA inhibitors as well as altered cation sensitivity, but has limited effect on surface hydrophobicity and severity of plant infection. Interestingly, MoALR2 expression is elevated in Δmnr2. Impairment of development and infectivity of knockdown transformants and altered intracellular cation composition suggest that CorA transporters are essential for Mg2+ homeostasis within the cell, and are crucial to maintaining normal gene expression associated with cell structure, signal transduction and surface hydrophobicity in M. oryzae. We suggest that CorA transporters, and especially MoALR2, constitute an attractive target for the development of antifungal agents against this pathogen.
Databáze: OpenAIRE
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