Genomics and the origin of species | Zendy

Ole Seehausen | Zendy; Roger K. Butlin | Zendy; Irene Keller | Zendy; Catherine E. Wagner | Zendy; Janette W. Boughman | Zendy; Paul A. Hohenlohe | Zendy; Catherine L. Peichel | Zendy; GlennPeter Sætre | Zendy; Claudia Bank | Zendy; Åke Brännström | Zendy; Alan Brelsford | Zendy; Chris S. Clarkson | Zendy; Fabrice Eroukhmanoff | Zendy; Jeffrey L. Feder | Zendy; Martin C. Fischer | Zendy; Andrew D. Foote | Zendy; Paolo Franchini | Zendy; Chris D. Jiggins | Zendy; Felicity C. Jones | Zendy; Anna K. Lindholm | Zendy; Kay Lucek | Zendy; Martine E. Maan | Zendy; David A. Marques | Zendy; Simon H. Martin | Zendy; Blake Matthews | Zendy; Joana I. Meier | Zendy; Markus Möst | Zendy; Michael W. Nachman | Zendy; Etsuko aka | Zendy; Diana J. Rennison | Zendy; Julia Schwarzer | Zendy; Eric T. Watson | Zendy; Anja M. Westram | Zendy; Alex Widmer | Zendy

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Genomics and the origin of species

Author(s) -

Ole Seehausen,

Roger K. Butlin,

Irene Keller,

Catherine E. Wagner,

Janette W. Boughman,

Paul A. Hohenlohe,

Catherine L. Peichel,

GlennPeter Sætre,

Claudia Bank,

Åke Brännström,

Alan Brelsford,

Chris S. Clarkson,

Fabrice Eroukhmanoff,

Jeffrey L. Feder,

Martin C. Fischer,

Andrew D. Foote,

Paolo Franchini,

Chris D. Jiggins,

Felicity C. Jones,

Anna K. Lindholm,

Kay Lucek,

Martine E. Maan,

David A. Marques,

Simon H. Martin,

Blake Matthews,

Joana I. Meier,

Markus Möst,

Michael W. Nachman,

Etsuko aka,

Diana J. Rennison,

Julia Schwarzer,

Eric T. Watson,

Anja M. Westram,

Alex Widmer

Publication year - 2014

Publication title -

nature reviews genetics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.214

H-Index - 365

eISSN - 1471-0064

pISSN - 1471-0056

DOI - 10.1038/nrg3644

Subject(s) - genetic algorithm , genomics , biology , data science , genome , field (mathematics) , evolutionary biology , computational biology , computer science , genetics , gene , mathematics , pure mathematics

Speciation is a fundamental evolutionary process, the knowledge of which is crucial for understanding the origins of biodiversity. Genomic approaches are an increasingly important aspect of this research field. We review current understanding of genome-wide effects of accumulating reproductive isolation and of genomic properties that influence the process of speciation. Building on this work, we identify emergent trends and gaps in our understanding, propose new approaches to more fully integrate genomics into speciation research, translate speciation theory into hypotheses that are testable using genomic tools and provide an integrative definition of the field of speciation genomics.

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