Sean A. McAdams scite author profile

Rice expressing the Pi‐ta gene is resistant to strains of the rice blast fungus, Magnaporthe grisea, expressing AVR‐Pita in a gene‐for‐gene relationship. Pi‐ta encodes a putative cytoplasmic receptor with a centrally localized nucleotide‐binding site and leucine‐rich domain (LRD) at the C‐terminus. AVR‐Pita is predicted to encode a metalloprotease with an N‐terminal secretory signal and pro‐protein sequences. AVR‐Pita176 lacks the secretory and pro‐protein sequences. We report here that transient expression of AVR‐Pita176 inside plant cells results in a Pi‐ta‐dependent resistance response. AVR‐Pita176 protein is shown to bind specifically to the LRD of the Pi‐ta protein, both in the yeast two‐hybrid system and in an in vitro binding assay. Single amino acid substitutions in the Pi‐ta LRD or in the AVR‐Pita176 protease motif that result in loss of resistance in the plant also disrupt the physical interaction, both in yeast and in vitro. These data suggest that the AVR‐Pita176 protein binds directly to the Pi‐ta LRD region inside the plant cell to initiate a Pi‐ta‐mediated defense response.

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tA Single Amino Acid Difference Distinguishes Resistant and Susceptible Alleles of the Rice Blast Resistance Gene Pi-ta

Bryan¹,

Wu²,

Farrall³

et al. 2000

The Plant Cell

207

267

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The rice blast resistance (R) gene Pi-ta mediates gene-for-gene resistance against strains of the fungus Magnaporthe grisea that express avirulent alleles of AVR-Pita. Using a map-based cloning strategy, we cloned Pi-ta, which is linked to the centromere of chromosome 12. Pi-ta encodes a predicted 928-amino acid cytoplasmic receptor with a centrally localized nucleotide binding site. A single-copy gene, Pi-ta shows low constitutive expression in both resistant and susceptible rice. Susceptible rice varieties contain pi-ta(-) alleles encoding predicted proteins that share a single amino acid difference relative to the Pi-ta resistance protein: serine instead of alanine at position 918. Transient expression in rice cells of a Pi-ta(+) R gene together with AVR-Pita(+) induces a resistance response. No resistance response is induced in transient assays that use a naturally occurring pi-ta(-) allele differing only by the serine at position 918. Rice varieties reported to have the linked Pi-ta(2) gene contain Pi-ta plus at least one other R gene, potentially explaining the broadened resistance spectrum of Pi-ta(2) relative to Pi-ta. Molecular cloning of the AVR-Pita and Pi-ta genes will aid in deployment of R genes for effective genetic control of rice blast disease.

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A Single Amino Acid Difference Distinguishes Resistant and Susceptible Alleles of the Rice Blast Resistance Gene Pi-ta

et al. 2000

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Sean A. McAdams

Direct interaction of resistance gene and avirulence gene products confers rice blast resistance

tA Single Amino Acid Difference Distinguishes Resistant and Susceptible Alleles of the Rice Blast Resistance Gene Pi-ta

A Single Amino Acid Difference Distinguishes Resistant and Susceptible Alleles of the Rice Blast Resistance Gene Pi-ta

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