Abstract
Phytopathogenic fungi cause enormous yield losses in many crops, threatening both agricultural production and global food security. To infect plants, they secrete effectors targeting various cellular processes in the host. Putative effector genes are numerous in fungal genomes, and they generally encode proteins with no sequence homology to each other or to other known proteins or domains. Recent studies have elucidated and predicted three-dimensional structures of effectors from a wide diversity of plant pathogenic fungi, revealing a limited number of conserved folds. Effectors with very diverse amino acid sequences can thereby be grouped into families based on structural homology. Some structural families are conserved in many different fungi, and some are expanded in specific fungal taxa. Here, we describe the features of these structural families and discuss recent advances in predicting new structural families. We highlight the contribution of structural analyses to deepen our understanding of the function and evolution of fungal effectors. We also discuss prospects offered by advances in structural modeling for predicting and studying the virulence targets of fungal effectors in plants.