Journal ArticleDOI
Widespread distribution and fitness contribution of Xanthomonas campestris avirulence gene avrBs2.
B. Kearney,Brian J. Staskawicz +1 more
TLDR
The resistance gene avrBs2 is reported, which implies that plants carrying Bs2 can recognize an essential gene of the bacterial pathogen, which may explain why Bs1 confers the only effective field resistance to X. c.Abstract:
Disease-resistance genes introduced into cultivated plants are often rendered ineffective by the ability of pathogen populations to overcome host resistance. The bacterial pathogen Xanthomonas campestris pathovar vesicatoria causes bacterial spot disease of tomato and pepper, and this pathogen has been shown to overcome disease resistance in pepper (Capsicum annuum) by evading the recognition and defence response of the host plant. Numerous resistance genes to bacterial spot have been identified in pepper and its wild relatives, each providing resistance to specific races of X.c. vesicatoria. The resistance gene Bs1, for example, provides resistance to X.c. vesicatoria strains expressing the avirulence gene avrBs1; Bs2 provides resistance to stains expressing avrBs2 and so on. We now report that avr Bs2 is highly conserved among strains of X.c. vesicatoria, and among many other pathovars of X. campestris. Furthermore, we find that avrBs2 is in fact needed for full virulence of the pathogen on susceptible hosts. This implies that plants carrying Bs2 can recognize an essential gene of the bacterial pathogen, which may explain why Bs2 confers the only effective field resistance to X.c. vesicatoria in pepper.read more
Citations
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Journal ArticleDOI
Arabidopsis RIN4 Is a Target of the Type III Virulence Effector AvrRpt2 and Modulates RPS2-Mediated Resistance
TL;DR: RIN4 is a point of convergence for the activity of at least three unrelated P. syringae type III effectors, and is suggested to be the target of the AvrRpt2 virulence function, and that perturbation of RIN4 activates RPS2.
Journal ArticleDOI
Molecular genetics of plant disease resistance
TL;DR: These findings suggest that plants may have evolved common signal transduction mechanisms for the expression of resistance to a wide range of unrelated pathogens.
Journal ArticleDOI
Pivoting the Plant Immune System from Dissection to Deployment
TL;DR: Research over the last 25 years has led to an increasingly clear conceptual understanding of the molecular components of the plant immune system, which means the means to begin development of durable (long-lasting) disease resistance beyond the limits imposed by conventional breeding and in a manner that will replace costly and unsustainable chemical controls.
Journal ArticleDOI
Assembly and function of type iii secretory systems
Guy R. Cornelis,F. Van Gijsegem +1 more
TL;DR: Type III secretion appears as a fascinating trans-kingdom communication device in plant pathogens where they are involved both in causing disease in susceptible hosts and in eliciting the so-called hypersensitive response in resistant or nonhost plants.
Journal ArticleDOI
Initiation of RPS2-Specified Disease Resistance in Arabidopsis Is Coupled to the AvrRpt2-Directed Elimination of RIN4
TL;DR: It is suggested that RPS2 initiates signaling based upon perception of RIN4 disappearance rather than direct recognition of AvrRpt2, and that this activity can be achieved independent of an R PS2-mediated signaling pathway.
References
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Journal ArticleDOI
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Journal ArticleDOI
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Gerald V. Minsavage,Douglas Dahlbeck,Maureen C. Whalen,B. Kearney,Ulla Bonas,Brian J. Staskawicz,Robert E. Stall +6 more
TL;DR: Evidence that these avirulence genes restrict the host range of X.c. pv.