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Eukaryot Cell


Title:Role of Hsl7 in morphology and pathogenicity and its interaction with other signaling components in the plant pathogen Ustilago maydis
Author(s):Lovely CB; Aulakh KB; Perlin MH;
Address:"Department of Biology, Program on Disease Evolution, University of Louisville, Louisville, KY 40292, USA"
Journal Title:Eukaryot Cell
Year:2011
Volume:20110527
Issue:7
Page Number:869 - 883
DOI: 10.1128/EC.00237-10
ISSN/ISBN:1535-9786 (Electronic) 1535-9778 (Print) 1535-9786 (Linking)
Abstract:"The phytopathogenic fungus Ustilago maydis undergoes a dimorphic transition in response to mating pheromone, host, and environmental cues. On a solid medium deficient in ammonium (SLAD [0.17% yeast nitrogen base without ammonium sulfate or amino acids, 2% dextrose, 50 muM ammonium sulfate]), U. maydis produces a filamentous colony morphology, while in liquid SLAD, the cells do not form filaments. The p21-activated protein kinases (PAKs) play a substantial role in regulating the dimorphic transition in fungi. The PAK-like Ste20 homologue Smu1 is required for a normal response to pheromone, via upregulation of pheromone expression, and virulence, and its disruption affects both processes. Our experiments suggest that Smu1 also regulates cell length and the filamentous response on solid SLAD medium. Yeast two-hybrid analysis suggested an Hsl7 homologue as a potential interacting partner of Smu1, and a unique open reading frame for such an arginine methyltransferase was detected in the U. maydis genome sequence. Hsl7 regulates cell length and the filamentous response to solid SLAD in a fashion opposite to that of Smu1, but neither overexpression nor disruption of hsl7 attenuates virulence. Simultaneous disruption of hsl7 and overexpression of smu1 lead to a hyperfilamentous response on solid SLAD. Moreover, only this double mutant strain forms filaments in liquid SLAD. The double mutant strain was also significantly reduced in virulence. A similar filamentous response in both solid and liquid SLAD was observed in strains lacking another PAK-like protein kinase involved in cytokinesis and polar growth, Cla4. Our data suggest that Hsl7 may regulate cell cycle progression, while both Smu1 and Cla4 appear to be involved in the filamentous response in U. maydis"
Keywords:"Amino Acid Sequence Culture Media/chemistry Cytoskeleton/metabolism Gene Deletion Gene Knockout Techniques Genes, Fungal Intracellular Signaling Peptides and Proteins/genetics Mutation Pheromones/metabolism Polymerase Chain Reaction Protein Serine-Threoni;"
Notes:"MedlineLovely, C Ben Aulakh, Kavita Burman Perlin, Michael H eng Research Support, Non-U.S. Gov't 2011/05/31 Eukaryot Cell. 2011 Jul; 10(7):869-83. doi: 10.1128/EC.00237-10. Epub 2011 May 27"

 
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