The Tomato Cf-9 Disease Resistance Gene Functions in Tobacco and Potato to Confer Responsiveness to the Fungal Avirulence Gene Product Avr 9

doi:10.1105/tpc.10.8.1251

The Tomato Cf-9 Disease Resistance Gene Functions in Tobacco and Potato to Confer Responsiveness to the Fungal Avirulence Gene Product Avr 9

Kim E. Hammond-Kosack^a, Saijun Tang^a, Kate Harrison^a, and Jonathan D. G. Jones^a
^a Sainsbury Laboratory, John Innes Centre, Colney Lane, Norwich NR4 7UH, United Kingdom

Correspondence to: Jonathan D. G. Jones, jonesj{at}bbsrc.ac.uk (E-mail), 44-1603-250024 (fax).

The Cf-9 gene encodes an extracytoplasmic leucine-rich repeatprotein that confers resistance in tomato to races of the fungusCladosporium fulvum that express the corresponding avirulencegene Avr 9. We investigated whether the genomic Cf-9 gene functionsin potato and tobacco. Transgenic tobacco and potato plantscarrying Cf-9 exhibit a rapid hypersensitive cell death response(HR) to Avr 9 peptide injection. Cf 9 tobacco plants were reciprocallycrossed to Avr 9-producing tobacco. A developmentally regulatedseedling lethal phenotype occurred in F₁ progeny when Cf9 wasused as the male parent and Avr 9 as the female parent. However,when Cf9 was inherited in the maternal tissue and a heterozygousAvr 9 plant was used as the pollen donor, a much earlier reactionwas caused, leading to no germination of any F₁ seed. Detailedanalysis of the Avr 9-induced responses in Cf 9 tobacco leavesrevealed that (1) most mesophyll cells died within 3 hr (comparedwith 12 to 16 hr in tomato); (2) the macroscopic HR was visibleat an Avr 9 titer five times lower than that which caused visiblesymptoms in tomato; (3) the HR invariably extended into noninjectedpanels of the tobacco leaf; (4) no HR occurred in leaves ofyoung tobacco plants; (5) in older plants, the HR was dramaticallyenhanced by sequential Avr 9 challenges; and (6) coexpressionof a salicylate hydroxylase transgene (nahG) from Pseudomonasputida reduced the severity of the macroscopic leaf HR and alsorestored germination to Cf 9 x 35S:Avr 9 F₁ seedlings. Simultaneousintroduction of Cf-9 homologs (Hcr 9-9 genes A and B or D) alongwith the native Cf-9 gene did not alter the responses that werespecifically induced by Avr 9. Various ways to use the Cf-9–Avr9 gene combination to engineer broad-spectrum disease resistancein several solanaceous species are discussed.

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