Genomic studies on the nature of species: adaptation and speciation in Mimulus

Evolutionary biology is in an exciting era, in which powerful genomic tools make the answers accessible to long‐standing questions about variation, adaptation and speciation. The availability of a suite of genomic resources, a shared knowledge base and a long history of study have made the phenotypi...

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Published in:	Molecular ecology Vol. 24; no. 11; pp. 2601 - 2609
Main Authors:	Twyford, Alex D., Streisfeld, Matthew A., Lowry, David B., Friedman, Jannice
Format:	Journal Article
Language:	English
Published:	England Blackwell Publishing Ltd 01-06-2015
Subjects:	Adaptation Adaptation, Biological - genetics Botany Evolution Genes Genetic Speciation Genome, Plant Genomics Mimulus Mimulus - classification Mimulus - genetics parallel evolution Phylogeny speciation structural variation adaptation genomics parallel evolution structural variation Mimulus speciation
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Abstract	Evolutionary biology is in an exciting era, in which powerful genomic tools make the answers accessible to long‐standing questions about variation, adaptation and speciation. The availability of a suite of genomic resources, a shared knowledge base and a long history of study have made the phenotypically diverse plant genus Mimulus an important system for understanding ecological and evolutionary processes. An international Mimulus Research Meeting was held at Duke University in June 2014 to discuss developments in ecological and evolutionary genetic studies in Mimulus. Here, we report major recent discoveries presented at the meeting that use genomic approaches to advance our understanding of three major themes: the parallel genetic basis of adaptation; the ecological genomics of speciation; and the evolutionary significance of structural genetic variation. We also suggest future research directions for studies of Mimulus and highlight challenges faced when developing new ecological and evolutionary model systems.
AbstractList	Evolutionary biology is in an exciting era, in which powerful genomic tools make the answers accessible to long-standing questions about variation, adaptation and speciation. The availability of a suite of genomic resources, a shared knowledge base and a long history of study have made the phenotypically diverse plant genus Mimulus an important system for understanding ecological and evolutionary processes. An international Mimulus Research Meeting was held at Duke University in June 2014 to discuss developments in ecological and evolutionary genetic studies in Mimulus. Here, we report major recent discoveries presented at the meeting that use genomic approaches to advance our understanding of three major themes: the parallel genetic basis of adaptation; the ecological genomics of speciation; and the evolutionary significance of structural genetic variation. We also suggest future research directions for studies of Mimulus and highlight challenges faced when developing new ecological and evolutionary model systems. Evolutionary biology is in an exciting era, in which powerful genomic tools make the answers accessible to long‐standing questions about variation, adaptation and speciation. The availability of a suite of genomic resources, a shared knowledge base and a long history of study have made the phenotypically diverse plant genus Mimulus an important system for understanding ecological and evolutionary processes. An international Mimulus Research Meeting was held at Duke University in June 2014 to discuss developments in ecological and evolutionary genetic studies in Mimulus . Here, we report major recent discoveries presented at the meeting that use genomic approaches to advance our understanding of three major themes: the parallel genetic basis of adaptation; the ecological genomics of speciation; and the evolutionary significance of structural genetic variation. We also suggest future research directions for studies of Mimulus and highlight challenges faced when developing new ecological and evolutionary model systems.
Author	Lowry, David B. Twyford, Alex D. Streisfeld, Matthew A. Friedman, Jannice
Author_xml	– sequence: 1 givenname: Alex D. surname: Twyford fullname: Twyford, Alex D. email: Alex.Twyford@ed.ac.uk organization: Ashworth Laboratories, Institute of Evolutionary Biology, The University of Edinburgh, Charlotte Auerbach Road, EH9 3FL, Edinburgh, UK – sequence: 2 givenname: Matthew A. surname: Streisfeld fullname: Streisfeld, Matthew A. organization: Institute of Ecology and Evolution, University of Oregon, OR, 97403, Eugene, USA – sequence: 3 givenname: David B. surname: Lowry fullname: Lowry, David B. organization: Plant Biology Laboratories, Department of Plant Biology, Michigan State University, 612 Wilson RoadRoom 166, MI, 48824, East Lansing, USA – sequence: 4 givenname: Jannice surname: Friedman fullname: Friedman, Jannice organization: Department of Biology, Syracuse University, 107 College Place, NY, 13244, Syracuse, USA
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/25856725$$D View this record in MEDLINE/PubMed
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Snippet	Evolutionary biology is in an exciting era, in which powerful genomic tools make the answers accessible to long‐standing questions about variation, adaptation... Evolutionary biology is in an exciting era, in which powerful genomic tools make the answers accessible to long-standing questions about variation, adaptation...
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SubjectTerms	Adaptation Adaptation, Biological - genetics Botany Evolution Genes Genetic Speciation Genome, Plant Genomics Mimulus Mimulus - classification Mimulus - genetics parallel evolution Phylogeny speciation structural variation
Title	Genomic studies on the nature of species: adaptation and speciation in Mimulus
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