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Specific members of the TOPLESS family are susceptibility genes for Fusarium wilt in tomato and Arabidopsis

Thomas Aalders, Mara de Sain, Fleur Gawehns, Nina Oudejans, Yoran D. Jak, Lukas Dekker, Martijn Rep, Harrold A. van den Burg, Frank L. W. Takken

2023Plant Biotechnology Journal25 citationsDOIOpen Access PDF

Abstract

Vascular wilt diseases caused by Fusarium oxysporum are a major threat to many agriculturally important crops. Genetic resistance is rare and inevitably overcome by the emergence of new races. To identify potentially durable and non-race-specific genetic resistance against Fusarium wilt diseases, we set out to identify effector targets in tomato that mediate susceptibility to the fungus. For this purpose, we used the SIX8 effector protein, an important and conserved virulence factor present in many pathogenic F. oxysporum isolates. Using protein pull-downs and yeast two-hybrid assays, SIX8 was found to interact specifically with two members of the tomato TOPLESS family: TPL1 and TPL2. Loss-of-function mutations in TPL1 strongly reduced disease susceptibility to Fusarium wilt and a tpl1;tpl2 double mutant exerted an even higher level of resistance. Similarly, Arabidopsis tpl;tpr1 mutants became significantly less diseased upon F. oxysporum inoculation as compared to wildtype plants. We conclude that TPLs encode susceptibility genes whose mutation can confer resistance to F. oxysporum.

Topics & Concepts

Fusarium wiltBiologyFusarium oxysporumEffectorArabidopsisMutantGeneGeneticsVirulenceWilt diseasePlant disease resistanceMutationYeastMicrobiologyBotanyCell biologyPlant-Microbe Interactions and ImmunityPlant Pathogens and Fungal DiseasesPlant Disease Resistance and Genetics
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