Function of a Plant Stress-Induced Gene, HVA22. Synthetic Enhancement Screen with Its Yeast Homolog Reveals Its Role in Vesicular Traffic

Alex Brands and Tuan-hua David Ho ^*

Department of Biology, Washington University, St. Louis, Missouri 63130

^* Corresponding author; email: ho{at}biology2.wustl.edu.

Expression of the barley (Hordeum vulgare) HVA22 gene is inducedby environmental stresses, such as dehydration, salinity, andextreme temperatures, and by a plant stress hormone, abscisicacid. Genes sharing high level of sequence similarities withHVA22 exist in diverse eukaryotic organisms, including animals,plants, and fungi, but not in any prokaryotic organisms. Theyeast (Saccharomyces cerevisiae) HVA22 homolog, Yop1p, has beenshown to interact with the GTPase-interacting protein, Yip1p.Deletion of YOP1 led to only a modest reduction of the stationaryphase titer at 37C. A synthetic enhancement mutant screen wasperformed in the yop1 deletion background to identify genesinteracting with YOP1. The open reading frame YOR165W (renamedSEY1 for synthetic enhancement of YOP1) was identified as aYOP1-dependent complementation gene. The yeast SEY1 is a homologof the Arabidopsis RHD3 gene whose mutations cause the accumulationof transport vesicles near the tips of defective root hairs.The yeast double mutant of yop1 and sey1 is defective in vesiculartraffic as evidenced by the accumulation of transport vesiclesand the decrease in invertase secretion. Based on these observations,we suggest that Yop1p/HVA22 regulates vesicular traffic in stressedcells either to facilitate membrane turnover, or to decreaseunnecessary secretion.

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