Nuclear exchange generates population diversity in the wheat leaf rust pathogen Puccinia triticina

Article

Sperschneider, Jana, Hewitt, Tim, Lewis, David C., Periyannan, Sambasivam, Milgate, Andrew W., Hickey, Lee T., Mago, Rohit, Dodds, Peter N. and Figueroa, Melania. 2023. "Nuclear exchange generates population diversity in the wheat leaf rust pathogen Puccinia triticina." Nature Microbiology. 8 (11), pp. 2130 - 2141. https://doi.org/10.1038/s41564-023-01494-9
Article Title

Nuclear exchange generates population diversity in the wheat leaf rust pathogen Puccinia triticina

ERA Journal ID211131
Article CategoryArticle
AuthorsSperschneider, Jana, Hewitt, Tim, Lewis, David C., Periyannan, Sambasivam, Milgate, Andrew W., Hickey, Lee T., Mago, Rohit, Dodds, Peter N. and Figueroa, Melania
Journal TitleNature Microbiology
Journal Citation8 (11), pp. 2130 - 2141
Number of Pages24
Year2023
Place of PublicationUnited Kingdom
ISSN2058-5276
Digital Object Identifier (DOI)https://doi.org/10.1038/s41564-023-01494-9
Web Address (URL)https://www.nature.com/articles/s41564-023-01494-9
Abstract

In clonally reproducing dikaryotic rust fungi, non-sexual processes such as somatic nuclear exchange are postulated to play a role in diversity but have been difficult to detect due to the lack of genome resolution between the two haploid nuclei. We examined three nuclear-phased genome assemblies of Puccinia triticina, which causes wheat leaf rust disease. We found that the most recently emerged Australian lineage was derived by nuclear exchange between two pre-existing lineages, which originated in Europe and North America. Haplotype-specific phylogenetic analysis reveals that repeated somatic exchange events have shuffled haploid nuclei between long-term clonal lineages, leading to a global P. triticina population representing different combinations of a limited number of haploid genomes. Thus, nuclear exchange seems to be the predominant mechanism generating diversity and the emergence of new strains in this otherwise clonal pathogen. Such genomics-accelerated surveillance of pathogen evolution paves the way for more accurate global disease monitoring.

KeywordsAustralia; Phylogeny; Plant Diseases; Puccinia triticina; Triticum
Contains Sensitive ContentDoes not contain sensitive content
ANZSRC Field of Research 2020300409. Crop and pasture protection (incl. pests, diseases and weeds)
Byline AffiliationsCommonwealth Scientific and Industrial Research Organisation (CSIRO), Australia
School of Science, Engineering & Digital Technologies- Ag & Env Sciences
Department of Primary Industries, New South Wales
University of Queensland
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