Mosaic fungal individuals have the potential to evolve within a single generation
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Published:2020-10-19
Issue:1
Volume:10
Page:
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ISSN:2045-2322
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Container-title:Scientific Reports
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language:en
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Short-container-title:Sci Rep
Author:
Tyrrell Maura G.ORCID, Peabody Diane C.ORCID, Peabody Robert B.ORCID, James-Pederson MagdalenaORCID, Hirst Rachel G., Allan-Perkins ElishaORCID, Bickford Heather, Shafrir AmyORCID, Doiron Robert J., Churchill Amber C.ORCID, Ramirez-Tapia Juan CarlosORCID, Seidel BenjaminORCID, Torres Lynes, Fallavollita KathrynORCID, Hernon Thomas, Wiswell LindsayORCID, Wilson SarahORCID, Mondo EricaORCID, Salisbury Kathleen, Peabody Carrie, Cabral PatrickORCID, Presti Lauren, McKenna-Hoffman Kelsey, Flannery MicheleORCID, Daly Kaitlin, Haghighat DariusORCID, Lukason DanielORCID
Abstract
AbstractAlthough cells of mushroom-producing fungi typically contain paired haploid nuclei (n + n), most Armillaria gallica vegetative cells are uninucleate. As vegetative nuclei are produced by fusions of paired haploid nuclei, they are thought to be diploid (2n). Here we report finding haploid vegetative nuclei in A. gallica at multiple sites in southeastern Massachusetts, USA. Sequencing multiple clones of a single-copy gene isolated from single hyphal filaments revealed nuclear heterogeneity both among and within hyphae. Cytoplasmic bridges connected hyphae in field-collected and cultured samples, and we propose nuclear migration through bridges maintains this nuclear heterogeneity. Growth studies demonstrate among- and within-hypha phenotypic variation for growth in response to gallic acid, a plant-produced antifungal compound. The existence of both genetic and phenotypic variation within vegetative hyphae suggests that fungal individuals have the potential to evolve within a single generation in response to environmental variation over time and space.
Funder
National Science Foundation Stonehill Undergraduate Research Experience Stonehill College Rev. Francis J. Hurley, C.S.C., Endowed Chair Research Fund
Publisher
Springer Science and Business Media LLC
Subject
Multidisciplinary
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