Abstract

Stagonospora nodorum blotch (SNB) has long been a problem in wheat production areas by affecting both the leaves and glumes of susceptible bread and durum wheat. Resistance to both disease phases has been shown to be complexly inherited and although much effort has gone into the identification and introgression of disease resistance, less than satisfactory progress has been made in producing SNB resistant cultivars. A major pitfall in this process has been the lack of understanding of the underlying mechanism of disease resistance. Recently, we have shown the Stagonospora nodorum–wheat interaction to involve multiple effector proteins also known as host-selective toxins (HSTs) that interact either directly or indirectly with dominant wheat sensitivity/susceptibility gene products to induce disease. Therefore, we have referred to this system as an ‘inverse gene-for-gene’ interaction (i.e. effector-triggered susceptibility) because the recognition of an effector protein by the host leads to susceptibility rather than resistance as it does in classical gene-for-gene interactions currently referred to as effector-triggered immunity. To date, we have reported five HST–host gene interactions. In each case, toxin sensitivity and susceptibility is controlled by a single dominant gene and in all but one case the interaction is dependent on light. Using quantitative trait loci analysis, the toxin-host gene interactions have been shown to account for 18–95% of the disease variation, highlighting the importance of these interactions. Several unpublished interactions also exist making this a model system for the investigation of the molecular mechanism of necrotrophic disease.

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