Emergence of a hybrid PKS‐NRPS secondary metabolite cluster in a clonal population of the rice blast fungus Magnaporthe oryzae.

Summary: Secondary metabolites (SMs) are crucial for fungi and vary in function from beneficial antibiotics to pathogenicity factors. To generate diversified SMs that enable different functions, SM‐coding regions rapidly evolve in fungal genomes. However, the driving force and genetic mechanism of fungal SM diversification in the context of host‐pathogen interactions remain largely unknown. Previously, we grouped field populations of the rice blast fungus Magnaporthe oryzae (syn: Pyricularia oryzae) into three major globally distributed clades based on population genomic analyses. Here, we characterize a recent duplication of an avirulent gene‐containing SM cluster, ACE1, in a clonal M. oryzae population (Clade 2). We demonstrate that the ACE1 cluster is specifically duplicated in Clade 2, a dominant clade in indica rice‐growing areas. With long‐read sequencing, we obtained chromosome‐level genome sequences of four Clade 2 isolates, which displayed differences in genomic organization of the ACE1 duplication process. Comparative genomic analyses suggested that the original ACE1 cluster experienced frequent rearrangement in Clade 2 isolates and revealed that the new ACE1 cluster is located in a newly formed and transposable element‐rich region. Taken together, these results highlight the frequent mutation and expansion of an avirulent gene‐containing SM cluster through transposable element‐mediated whole‐cluster duplication in the context of host‐pathogen interactions. [ABSTRACT FROM AUTHOR]