Author:
Champouret Nicolas,Bouwmeester Klaas,Rietman Hendrik,van der Lee Theo,Maliepaard Chris,Heupink Anika,van de Vondervoort Peter J. I.,Jacobsen Evert,Visser Richard G. F.,van der Vossen Edwin A. G.,Govers Francine,Vleeshouwers Vivianne G. A. A.
Abstract
A strategy to control the devastating late blight disease is providing potato cultivars with genes that are effective in resistance to a broad spectrum of Phytophthora infestans isolates. Thus far, most late blight resistance (R) genes that were introgressed in potato were quickly defeated. In contrast, the Rpi-blb1 gene originating from Solanum bulbocastanum has performed as an exclusive broad-spectrum R gene for many years. Recently, the RXLR effector family ipiO was identified to contain Avr-blb1. Monitoring the genetic diversity of the ipiO family in a large set of isolates of P. infestans and related species resulted in 16 ipiO variants in three distinct classes. Class I and class II but not class III ipiO variants induce cell death when coinfiltrated with Rpi-blb1 in Nicotiana benthamiana. Class I is highly diverse and is represented in all analyzed P. infestans isolates except two Mexican P. infestans isolates, and these were found virulent on Rpi-blb1 plants. In its C-terminal domain, IPI-O contains a W motif that is essential for triggering Rpi-blb1–mediated cell death and is under positive selection. This study shows that profiling the variation of Avr-blb1 within a P. infestans population is instrumental for predicting the effectiveness of Rpi-blb1–mediated resistance in potato.
Subject
Agronomy and Crop Science,General Medicine,Physiology
Cited by
101 articles.
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