Auxier, B.; Ament Velasquez, L.; Baars, J. J. P.; Scholtmeijer, K.; F. van Peer, A.; Debets, A. J.; Aanen, D. K.

In fungi, hyphal fusion is beneficial within an individual, but fusion between individuals comes with the risks of infection or exploitation. To manage this risk, fungi have developed mechanisms to restrict sustained fusion to be within a genetic individual, called allorecognition. In Ascomycete fungi, this recognition is based on allelic identity at several polymorphic allorecognition genes, often triggering cell death. However, the genetic basis of allorecognition is unknown in basidiomycetes, the clade that includes mushroom-forming fungi. Here, we map the first locus for this trait, which we call somA, in the mushroom-forming fungus Coprinopsis cinerea. We combined F1 offspring phenotypes with independent backcross lines to identify a region on chromosome 5 linked with the production of a barrage zone, a classic allorecognition phenotype. Fine-mapping of this region resulted in a region with a set of kinases and NACHT domain proteins, flanked by a leucine-rich repeat (LRR) protein. While the NACHT and kinase proteins are diverse between the parents, the LRR-encoding protein shows signs of purifying selection. Additional C. cinerea genomes show that this region contains several highly divergent alleles, consistent with long-term balancing selection. These polymorphic alleles all contain a single monomorphic LRR, which may indicate a novel mechanism for fungal nonself recognition. Based on a phylogenetic survey of related Basidiomycetes, this specific locus architecture appears to be restricted to closely related species. This finding of a multiallelic locus may explain the general trend of few nonself recognition loci in basidiomycetes. These results provide a first understanding of how individuality is maintained in basidiomycetes.