Authors
Sang-Keun Oh, Carolyn Young, Minkyoung Lee, Ricardo Oliva, Tolga O Bozkurt, Liliana M Cano, Joe Win, Jorunn IB Bos, Hsin-Yin Liu, Mireille van Damme, William Morgan, Doil Choi, Edwin AG Van der Vossen, Vivianne GAA Vleeshouwers, Sophien Kamoun
Publication date
2009/9/1
Journal
The Plant Cell
Volume
21
Issue
9
Pages
2928-2947
Publisher
American Society of Plant Biologists
Description
The Irish potato famine pathogen Phytophthora infestans is predicted to secrete hundreds of effector proteins. To address the challenge of assigning biological functions to computationally predicted effector genes, we combined allele mining with high-throughput in planta expression. We developed a library of 62 infection-ready P. infestans RXLR effector clones, obtained using primer pairs corresponding to 32 genes and assigned activities to several of these genes. This approach revealed that 16 of the 62 examined effectors cause phenotypes when expressed inside plant cells. Besides the well-studied AVR3a effector, two additional effectors, PexRD8 and PexRD3645-1, suppressed the hypersensitive cell death triggered by the elicitin INF1, another secreted protein of P. infestans. One effector, PexRD2, promoted cell death in Nicotiana benthamiana and other solanaceous plants. Finally, two families of …
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Scholar articles
SK Oh, C Young, M Lee, R Oliva, TO Bozkurt, LM Cano… - The Plant Cell, 2009