Zymoseptoria tritici is the causal agent of Septoria tritici blotch, one of the most economically important wheat diseases worldwide. One of the few cloned wheat resistance genes against Z. tritici, Stb6, recognizes the secreted fungal effector AvrStb6. Although AvrStb6 has been extensively studied as an avirulence determinant, its biological function during host colonization remains unknown. Based on the amphipathic nature of the predicted structure of AvrStb6, we hypothesized the effector to function as a membrane-active antimicrobial protein. However, in vitro growth inhibition assays demonstrated that AvrStb6 does not directly inhibit the growth of wheat-associated bacteria across multiple bacterial genera and experimental conditions. Instead, microbiome analyses of wheat apoplastic fluid revealed shifts in bacterial abundance associated with the presence or absence of AvrStb6 in a susceptible cultivar (without Stb6-induced resistance). This prompted us to further explore other putative microbiome-related functions of AvrStb6. In vitro confrontation assays further showed that deletion of AvrStb6 increased the sensitivity of Z. tritici to antagonistic wheat-associated bacteria, particularly Pseudomonas and Pantoea spp. This phenotype was conserved across independent fungal genetic backgrounds and across virulent and avirulent AvrStb6 variants. Fluorescence-based co-culture assays additionally showed reduced fungal growth and increased bacterial proliferation in the absence of AvrStb6 during interactions with Pseudomonas spp., but not with the control bacterium Escherichia coli. Finally, biochemical assays demonstrated that AvrStb6 associates with the Z. tritici cell wall in vitro, whereas other secreted fungal effectors do not. Collectively, our findings identify a previously uncharacterized role of AvrStb6 in protecting Z. tritici from antagonistic wheat-associated bacteria by associating with the fungal cell wall. More broadly, this work highlights that fungal effectors may contribute to microbial competition and ecological adaptation beyond their established roles in host immune recognition.
Florez, L., Francisco, C., Berndt, H., Leippe, M., Cassidy, L., Tholey, A., Sanchez Vallet, A., Stukenbrock, E., Flores-Nunez, V.
Advertisement
Stats
- Recommendations n/a n/a positive of 0 vote(s)
- Views 10
- Comments 0