Gene Copy Number Variation Does Not Reflect Structure or Environmental Selection in Two Recently Diverged California Populations of Suillus brevipes

Gene Copy Number Variation Does Not Reflect Structure or Environmental Selection in Two Recently Diverged California Populations of Suillus brevipes

Gene copy number variation across individuals has been shown to track population structure and be a source of adaptive genetic variation with significant fitness impacts. In this study, we report opposite results for both predictions based on the analysis of gene copy number variants (CNVs) of , a m...

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Bibliographic Details
Published in:G3 : genes - genomes - genetics Vol. 10; no. 12; pp. 4591 - 4597
Main Authors: Bazzicalupo, Anna L, Thomas, Mallory, Mason, Robert, Munro-Ehrlich, Branco, Sara
Format: Journal Article
Language:English
Published: England Genetics Society of America 01-12-2020
Oxford University Press
Subjects:
copy-number variants
fungi
Investigations
mycorrhiza
salt tolerance
suillus
salt tolerance
Suillus
copy-number variants
fungi
mycorrhiza
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Summary:Gene copy number variation across individuals has been shown to track population structure and be a source of adaptive genetic variation with significant fitness impacts. In this study, we report opposite results for both predictions based on the analysis of gene copy number variants (CNVs) of , a mycorrhizal fungus adapted to coastal and montane habitats in California. In order to assess whether gene copy number variation mirrored population structure and selection in this species, we investigated two previously studied locally adapted populations showing a highly differentiated genomic region encompassing a gene predicted to confer salt tolerance. In addition, we examined whether copy number in the genes related to salt homeostasis was differentiated between the two populations. Although we found many instances of CNV regions across the genomes of individuals, we also found CNVs did not recover population structure and known salt-tolerance-related genes were not under selection across the coastal population. Our results contrast with predictions of CNVs matching single-nucleotide polymorphism divergence and showed CNVs of genes for salt homeostasis are not under selection in .
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Present address: Department of Zoology, University of British Columbia, BC
ISSN:2160-1836
2160-1836
DOI:10.1534/g3.120.401735