Dynamic linkage relationships to the mating‐type locus in automictic fungi of the genus Microbotryum

Regions of the chromosomes determining mating compatibility in some fungi, including Microbotryum lychnidis‐dioicae and Neurospora tetrasperma , exhibit suppressed recombination similar to sex chromosomes in plants and animals, and recent studies have sought to apply basic theories of sex chromosome evolution to fungi. A phylogeny of the MTL1 locus in Microbotryum indicates that it has become part of the nonrecombining regions of the mating‐type chromosomes in multiple independent events, and that recombination may have been subsequently restored in some cases. This illustrates that fungal mating‐type chromosomes can exhibit linkage relationship that are quite dynamic, adding to the list of similarities to animal or plant sex chromosomes. However, fungi such as M. lychnidis‐dioicae and N. tetrasperma exhibit an automictic mating system, for which an alternate theoretical framework exists to explain the evolution of linkage with the mating‐type locus. This study encourages further comparative studies among fungi to evaluate the role of mating systems in determining the evolution of fungal mating‐type chromosomes.