Schol, C. R.; Fokkens, L.; Hu, A.; Jia, R.; de la Rosa, S.; Ökmen, B.; Hilgers, A. M.; van Zwoll, S. L.; Veenendaal, L. D. H.; Turner, M.; Monot, C.; Maeda, K.; Iida, Y.; de Wit, P. J. G. M.; Esselink, D.; Wolters, A.-M. A.; Bai, Y.; Joosten, M. H. A. J.; Mesarich, C. H.

Genetic resistance is an important mitigation strategy in commercial tomato cultivation against leaf mold disease caused by the fungal pathogen Fulvia fulva. In recent years, the widely deployed Cf-9 resistance locus has been overcome, which has prompted breeders to deploy the novel resistance locus Cf-6. However, Cf-6-mediated resistance has already been overcome in several locations worldwide. To date, the identity of Cf-6, as well as the gene encoding the matching Avr6 effector from F. fulva have remained unknown. Here, we report the identification of Avr6 using a comparative genomics strategy. Whole genome sequencing of Cf-6-breaking F. fulva strains revealed that the gene coding for the known secreted effector Ecp5 is either deleted or mutated in these strains. Ecp5 was subsequently confirmed to be Avr6 through potato virus X-mediated expression in Cf-6 tomato plants, as well as by gene knockout and complementation experiments. Using the Avr6-triggered hypersensitive response as a marker for disease resistance, we mapped the Cf-6 locus to the short arm of chromosome 12 in tomato. In addition to identifying Avr6 and setting the foundation for cloning of Cf-6, this work highlights the urgent need for more research into durable gene-for-gene resistance in tomato against F. fulva.