Author:
Li Feng,Upadhyaya Narayana M.,Sperschneider Jana,Matny Oadi,Nguyen-Phuc Hoa,Mago Rohit,Raley Castle,Miller Marisa E.,Silverstein Kevin A.T.,Henningsen Eva,Hirsch Cory D.,Visser Botma,Pretorius Zacharias A.,Steffenson Brian J.,Schwessinger Benjamin,Dodds Peter N.,Figueroa Melania
Abstract
AbstractParasexuality contributes to diversity and adaptive evolution of haploid (monokaryotic) fungi. However non-sexual genetic exchange mechanisms are not defined in dikaryotic fungi (containing two distinct haploid nuclei). Newly emerged strains of the wheat stem rust pathogen, Puccinia graminis f. sp. tritici (Pgt), such as Ug99, are a major threat to global food security. Here we show that Ug99 arose by somatic hybridisation and nuclear exchange between dikaryons. Fully haplotype-resolved genome assembly and DNA proximity analysis revealed that Ug99 shares one haploid nucleus genotype with a much older African lineage of Pgt, with no recombination or reassortment. Generation of genetic variation by nuclear exchange may favour the evolution of dikaryotism by providing an advantage over diploidy.
Publisher
Cold Spring Harbor Laboratory
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