TY - JOUR
T1 - Sequential breakdown of the Cf-9 leaf mould resistance locus in tomato by Fulvia fulva
AU - de la Rosa, Silvia
AU - Schol, Christiaan R.
AU - Ramos Peregrina, Ángeles
AU - Winter, David J.
AU - Hilgers, Anne M.
AU - Maeda, Kazuya
AU - Iida, Yuichiro
AU - Tarallo, Mariana
AU - Jia, Ruifang
AU - Beenen, Henriek G.
AU - Rocafort, Mercedes
AU - de Wit, Pierre J.G.M.
AU - Bowen, Joanna K.
AU - Bradshaw, Rosie E.
AU - Joosten, Matthieu H.A.J.
AU - Bai, Yuling
AU - Mesarich, Carl H.
PY - 2024/8
Y1 - 2024/8
N2 - Leaf mould, caused by Fulvia fulva, is a devastating disease of tomato plants. In many commercial tomato cultivars, resistance to this disease is governed by the Cf-9 locus, which encodes five paralogous receptor-like proteins. Two of these proteins confer resistance: Cf-9C recognises the previously identified F. fulva effector Avr9 and provides resistance during all plant growth stages, while Cf-9B recognises the yet-unidentified F. fulva effector Avr9B and provides mature plant resistance only. In recent years, F. fulva strains have emerged that can overcome the Cf-9 locus, with Cf-9C circumvented through Avr9 deletion. To understand how Cf-9B is circumvented, we set out to identify Avr9B. Comparative genomics, transient expression assays and gene complementation experiments were used to identify Avr9B, while gene sequencing was used to assess Avr9B allelic variation across a world-wide strain collection. A strict correlation between Avr9 deletion and resistance-breaking mutations in Avr9B was observed in strains recently collected from Cf-9 cultivars, whereas Avr9 deletion but no mutations in Avr9B were observed in older strains. This research showcases how F. fulva has evolved to sequentially break down the Cf-9 locus and stresses the urgent need for commercial tomato cultivars that carry novel, stacked resistance genes active against this pathogen.
AB - Leaf mould, caused by Fulvia fulva, is a devastating disease of tomato plants. In many commercial tomato cultivars, resistance to this disease is governed by the Cf-9 locus, which encodes five paralogous receptor-like proteins. Two of these proteins confer resistance: Cf-9C recognises the previously identified F. fulva effector Avr9 and provides resistance during all plant growth stages, while Cf-9B recognises the yet-unidentified F. fulva effector Avr9B and provides mature plant resistance only. In recent years, F. fulva strains have emerged that can overcome the Cf-9 locus, with Cf-9C circumvented through Avr9 deletion. To understand how Cf-9B is circumvented, we set out to identify Avr9B. Comparative genomics, transient expression assays and gene complementation experiments were used to identify Avr9B, while gene sequencing was used to assess Avr9B allelic variation across a world-wide strain collection. A strict correlation between Avr9 deletion and resistance-breaking mutations in Avr9B was observed in strains recently collected from Cf-9 cultivars, whereas Avr9 deletion but no mutations in Avr9B were observed in older strains. This research showcases how F. fulva has evolved to sequentially break down the Cf-9 locus and stresses the urgent need for commercial tomato cultivars that carry novel, stacked resistance genes active against this pathogen.
KW - Avr9 and Avr9B avirulence effector genes
KW - Cf-9 locus
KW - Cf-9C and Cf-9B resistance genes
KW - Fulvia fulva (Cladosporium fulvum)
KW - fungus
KW - sequential resistance breakdown
KW - Solanum lycopersicum (tomato)
KW - tomato leaf mould disease
U2 - 10.1111/nph.19925
DO - 10.1111/nph.19925
M3 - Article
C2 - 38922927
AN - SCOPUS:85196675298
SN - 0028-646X
VL - 243
SP - 1522
EP - 1538
JO - New Phytologist
JF - New Phytologist
IS - 4
ER -