Extensive copy-number variation of young genes across stickleback populations

Extensive copy-number variation of young genes across stickleback populations

Duplicate genes emerge as copy-number variations (CNVs) at the population level, and remain copy-number polymorphic until they are fixed or lost. The successful establishment of such structural polymorphisms in the genome plays an important role in evolution by promoting genetic diversity, complexit...

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Published in:PLoS genetics Vol. 10; no. 12; p. e1004830
Main Authors: Chain, Frédéric J J, Feulner, Philine G D, Panchal, Mahesh, Eizaguirre, Christophe, Samonte, Irene E, Kalbe, Martin, Lenz, Tobias L, Stoll, Monika, Bornberg-Bauer, Erich, Milinski, Manfred, Reusch, Thorsten B H
Format: Journal Article
Language:English
Published: United States Public Library of Science 01-12-2014
Public Library of Science (PLoS)
Subjects:
Adaptation, Biological - genetics
Animals
Biology and Life Sciences
DNA Copy Number Variations
Evolution
Evolution, Molecular
Female
Gene Deletion
Gene Dosage
Gene Duplication
Genes
Genes, Duplicate - genetics
Genetic aspects
Genetic polymorphisms
Genetic research
Genetic Variation
Genomics
Male
Metagenomics
Mutation
Phylogeny
Smegmamorpha - genetics
Sticklebacks
Zoological research
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Summary:Duplicate genes emerge as copy-number variations (CNVs) at the population level, and remain copy-number polymorphic until they are fixed or lost. The successful establishment of such structural polymorphisms in the genome plays an important role in evolution by promoting genetic diversity, complexity and innovation. To characterize the early evolutionary stages of duplicate genes and their potential adaptive benefits, we combine comparative genomics with population genomics analyses to evaluate the distribution and impact of CNVs across natural populations of an eco-genomic model, the three-spined stickleback. With whole genome sequences of 66 individuals from populations inhabiting three distinct habitats, we find that CNVs generally occur at low frequencies and are often only found in one of the 11 populations surveyed. A subset of CNVs, however, displays copy-number differentiation between populations, showing elevated within-population frequencies consistent with local adaptation. By comparing teleost genomes to identify lineage-specific genes and duplications in sticklebacks, we highlight rampant gene content differences among individuals in which over 30% of young duplicate genes are CNVs. These CNV genes are evolving rapidly at the molecular level and are enriched with functional categories associated with environmental interactions, depicting the dynamic early copy-number polymorphic stage of genes during population differentiation.
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Conceived and designed the experiments: TBHR EBB MM. Performed the experiments: FJJC PGDF. Analyzed the data: FJJC PGDF MP. Contributed reagents/materials/analysis tools: MP CE IES MK TLL MS. Wrote the paper: FJJC PGDF. DNA collection and preparation: FJJC CE MK IES. Quality assessment of the sequencing data and data submission: MP. Experimental validation: FJJC IES. Data interpretation and manuscript structure: FJJC PGDF CE EBB TBHR.
Current address: Department of Biology, McGill University, Montreal, Quebec, Canada
Current address: Department of Fish Ecology and Evolution, Eawag, Swiss Federal Institute of Aquatic Science and Technology, Center for Ecology, Evolution and Biogeochemistry, Kastanienbaum, Switzerland.
EBB, MM and TBHR also contributed equally to this work.
The authors have declared that no competing interests exist.
ISSN:1553-7404
1553-7390
1553-7404
DOI:10.1371/journal.pgen.1004830