Novel Mutations Detected in Avirulence Genes Overcoming Tomato Cf Resistance Genes in Isolates of a Japanese Population of Cladosporium fulvum.

Yuichiro Iida,Pierre J G M De Wit,Pieter Van ‘T Hof,Ioannis Stergiopoulos,Jérôme Collemare,Henriek Beenen,Kamel Abd-Elsalam,Ali Bahkali,Ayumi Notsu,Rahim Mehrabi,Kazuki Fujiwara,Masaharu Kubota,Carl Mesarich

doi:10.1371/journal.pone.0123271

Yuichiro Iida, Pierre J G M De Wit + Show 11 more

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https://doi.org/10.1371/journal.pone.0123271

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Leaf mold of tomato is caused by the biotrophic fungus Cladosporium fulvum which complies with the gene-for-gene system. The disease was first reported in Japan in the 1920s and has since been frequently observed. Initially only race 0 isolates were reported, but since the consecutive introduction of resistance genes Cf-2, Cf-4, Cf-5 and Cf-9 new races have evolved. Here we first determined the virulence spectrum of 133 C. fulvum isolates collected from 22 prefectures in Japan, and subsequently sequenced the avirulence (Avr) genes Avr2, Avr4, Avr4E, Avr5 and Avr9 to determine the molecular basis of overcoming Cf genes. Twelve races of C. fulvum with a different virulence spectrum were identified, of which races 9, 2.9, 4.9, 4.5.9 and 4.9.11 occur only in Japan. The Avr genes in many of these races contain unique mutations not observed in races identified elsewhere in the world including (i) frameshift mutations and (ii) transposon insertions in Avr2, (iii) point mutations in Avr4 and Avr4E, and (iv) deletions of Avr4E, Avr5 and Avr9. New races have developed by selection pressure imposed by consecutive introductions of Cf-2, Cf-4, Cf-5 and Cf-9 genes in commercially grown tomato cultivars. Our study shows that molecular variations to adapt to different Cf genes in an isolated C. fulvum population in Japan are novel but overall follow similar patterns as those observed in populations from other parts of the world. Implications for breeding of more durable C. fulvum resistant varieties are discussed.

Highlights

In order to confirm that the DNA modifications observed in the collected isolates were the cause of overcoming a particular Cf-gene, we investigated the hypersensitive response (HR)-inducing activities of wildtype and unique mutant versions of Avr2, Avr4 and Avr5 genes present in Japanese races of C. fulvum on tomato plants carrying the matching Cf resistance gene
The virulence spectrum of isolates of a Cladosporium fulvum population collected in Japan
C. fulvum is present in Japan since the 1920s, but introduction of most Cf resistance genes in tomato plants started later than elsewhere in the world [21, 34]

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Introduction

DNA modification in Avr genes leading to virulence would be beneficial for a isolate only when growing on cultivars carrying the corresponding Cf gene, except for modifications that avoid recognition by the corresponding Cf proteins without affecting their virulence function The latter is true for isolates that overcome the Cf-4 gene as they produce mutated versions of Avr proteins that are no longer recognized by the Cf-4 protein but can still bind to chitin and protect the fungus against the deleterious effects of plant chitinases [46,47,48,49]. Most of DNA modifications identified in the Avr gene of Japanese isolates adapted to Cf-4 plants are unique, lead to production of an unstable Avr effector that still binds to chitin This mechanism of avoiding Cf-4 recognition seems to be under strong selection because the same position These isolates are likely not quickly outcompeted by race 0 isolates on Cf-0 tomato plants

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