Dsk2 involves in conidiation, multi-stress tolerance and thermal adaptation in Beauveria bassiana

Abstract

Dsk2 is a nuclear-enriched ubiquitin-like polyubiquitin-binding protein that regulates protein degradation in yeast but has not been explored yet in filamentous fungi, such as Beauveria bassiana. Here, we report Beauveria bassiana Dsk2 located both in the nucleus and in cytoplasm of hyphal cells. Deletion of Dsk2 resulted in mild growth defect on scant media with various carbon/nitrogen sources and dramatic attenuation in conidiation capability at optimal condition. Compared to the wild-type, ΔDsk2 strains are much more sensitive to high osmotic and oxidative pressure during vegetative growth. Meanwhile, the mutant strains showed an increased chemical tolerance to Congo red and calcofluor white, two cell wall perturbing agents. The transcriptional changes of genes involved in central development, superoxide dismutase and chitin synthesis pathway indicate that Dsk2 acts as a multi-functional regulator in adapting to environmental changes. Importantly, Dsk2 negatively regulated the ability of thermal resistance in B. bassiana, which makes it a potential target gene for constructing engineering anti-thermal strains in the circumstance of global warming. Altogether, our finding highlights novel roles of Dsk2 involved in the asexual cycle, multi-stress tolerance and pest control potential of B. bassiana.