In eukaryotic cells, a large number of proteins are modified by ubiquitination, which leads to proteasomal degradation or change in protein function. The protein ubiquitination process can be reversed by a process called deubiquitination, which plays an important regulatory mechanism in cellular control. Deubiquitination is catalyzed by deubiquitinating enzymes (DUBs); the cysteine proteases specifically cleave off ubiquitin from ubiquitinated substrates or ubiquitin precursors. Over the past two decades, components of different DUB families have been found to play important roles in both human and plant pathogenic fungi. Given the importance of DUBs for fungal development and virulence, in this review, we concentrate on recent findings and new insights into the roles of DUBs in different fungal pathogens, with a focus on infection-related morphogenesis and virulence, as well as their roles in development and stress response. We also summarize the DUBs-mediated regulatory mechanisms during the above processes. These findings should allow us to develop novel inhibitors to control fungal pathogens.
Keywords: deubiquitinating enzymes; deubiquitination; fungal virulence; infection process; pathogenic fungi.