Conserved C-Terminal Motifs Required for Avirulence and Suppression of Cell Death by Phytophthora sojae effector Avr1b
Dou. D Kale. S. D Wang. X Chen. Y Wang. Q Xia. W Jiang. R. H. Y Arredondo. F. D Anderson. R. G Thakur. P. B McDowell. J. M Wang. Y Tyler. B. M
The Plant Cell ; 2008 [Vol.20] Pages:1118-1113
Abstract
The sequenced genomes of oomycete plant pathogens contain large superfamilies of effector proteins containing the protein translocation motif RXLR-dEER. However, the contributions of these effectors to pathogenicity remain poorly understood. Here, we show that the Phytophthora sojae effector protein Avr1b can contribute positively to virulence and can suppress programmed cell death (PCD) triggered by the mouse BAX protein in yeast, soybean (Glycine max), and Nicotiana
benthamiana cells. We identify three conserved motifs (K, W, and Y) in the C terminus of the Avr1b protein and show that mutations in the conserved residues of the W and Y motifs reduce or abolish the ability of Avr1b to suppress PCD and also abolish the avirulence interaction of Avr1b with the Rps1b resistance gene in soybean. W and Y motifs are present in at least half of the identified oomycete RXLR-dEER effector candidates, and we show that three of these candidates also suppress PCD in soybean. Together, these results indicate that theWand Ymotifs are critical for the interaction of Avr1b with host plant target proteins and support the hypothesis that thesemotifs are critical for the functions of the very large number of predicted oomycete effectors that contain them.