Disease Resistance and Abiotic Stress Tolerance in Rice Are Inversely Modulated by an Abscisic Acid-Inducible Mitogen-Activated Protein Kinase

doi:10.1105/tpc.008714

Hybrigenics The Protein Interactions Experts

Disease Resistance and Abiotic Stress Tolerance in Rice Are Inversely Modulated by an Abscisic Acid–Inducible Mitogen-Activated Protein Kinase

Lizhong Xiong¹ and Yinong Yang²

Department of Plant Pathology and Program in Cell and Molecular Biology, University of Arkansas, Fayetteville, Arkansas 72701

^² To whom correspondence should be addressed. E-mail yiyang{at}uark.edu; fax 479-575-7601

Mitogen-activated protein kinase (MAPK) cascades play an importantrole in mediating stress responses in eukaryotic organisms.However, little is known about the role of MAPKs in modulatingthe interaction of defense pathways activated by biotic andabiotic factors. In this study, we have isolated and functionallycharacterized a stress-responsive MAPK gene (OsMAPK5) from rice.OsMAPK5 is a single-copy gene but can generate at least twodifferentially spliced transcripts. The OsMAPK5 gene, its protein,and kinase activity were inducible by abscisic acid as wellas various biotic (pathogen infection) and abiotic (wounding,drought, salt, and cold) stresses. To determine its biologicalfunction, we generated and analyzed transgenic rice plants withoverexpression (using the 35S promoter of Cauliflower mosaicvirus) or suppression (using double-stranded RNA interference[dsRNAi]) of OsMAPK5. Interestingly, suppression of OsMAPK5expression and its kinase activity resulted in the constitutiveexpression of pathogenesis-related (PR) genes such as PR1 andPR10 in the dsRNAi transgenic plants and significantly enhancedresistance to fungal (Magnaporthe grisea) and bacterial (Burkholderiaglumae) pathogens. However, these same dsRNAi lines had significantreductions in drought, salt, and cold tolerance. By contrast,overexpression lines exhibited increased OsMAPK5 kinase activityand increased tolerance to drought, salt, and cold stresses.These results strongly suggest that OsMAPK5 can positively regulatedrought, salt, and cold tolerance and negatively modulate PRgene expression and broad-spectrum disease resistance.

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