Candidate genes for behavioural ecology

M.J. Fitzpatrick; Y. Ben-Sahar; H.M. Smid; L.E.M. Vet; G.E. Robinson; M.B. Sokolowski

doi:10.1016/j.tree.2004.11.017

Candidate genes for behavioural ecology

M.J. Fitzpatrick, Y. Ben-Sahar, H.M. Smid, L.E.M. Vet, G.E. Robinson, M.B. Sokolowski

Research output: Contribution to journal › Article › Academic › peer-review

200 Citations (Scopus)

Abstract

In spite of millions of years of evolutionary divergence, the conservation of gene function is common across distant lineages. As such, genes that are known to influence behaviour in one organism are likely to influence similar behaviours in other organisms. Recent studies of the evolution of behaviour and morphological adaptation support this notion. Thus, the candidate gene approach offers great potential to expand our understanding of behavioural ecology. Changes in the expression of candidate genes can reveal their contribution to behavioural variation and/or phenotypic plasticity. Knowledge of gene function also enables experimental manipulation of behaviour in the lab and in the field. The candidate gene approach provides an accessible and useful tool for generating insights about animals that are not typically associated with genetic experimentation

Original language	English
Pages (from-to)	96-104
Journal	Trends in Ecology and Evolution
Volume	20
Issue number	2
DOIs	https://doi.org/10.1016/j.tree.2004.11.017
Publication status	Published - 2005

Keywords

dependent protein-kinase
alternative reproductive tactics
silkmoth antheraea-pernyi
horn length dimorphism
drosophila-melanogaster
philomachus-pugnax
onthophagus-taurus
learning-ability
hormonal-control
monogamous vole

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10.1016/j.tree.2004.11.017

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title = "Candidate genes for behavioural ecology",

abstract = "In spite of millions of years of evolutionary divergence, the conservation of gene function is common across distant lineages. As such, genes that are known to influence behaviour in one organism are likely to influence similar behaviours in other organisms. Recent studies of the evolution of behaviour and morphological adaptation support this notion. Thus, the candidate gene approach offers great potential to expand our understanding of behavioural ecology. Changes in the expression of candidate genes can reveal their contribution to behavioural variation and/or phenotypic plasticity. Knowledge of gene function also enables experimental manipulation of behaviour in the lab and in the field. The candidate gene approach provides an accessible and useful tool for generating insights about animals that are not typically associated with genetic experimentation",

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AU - Fitzpatrick, M.J.

AU - Ben-Sahar, Y.

AU - Smid, H.M.

AU - Vet, L.E.M.

AU - Robinson, G.E.

AU - Sokolowski, M.B.

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AB - In spite of millions of years of evolutionary divergence, the conservation of gene function is common across distant lineages. As such, genes that are known to influence behaviour in one organism are likely to influence similar behaviours in other organisms. Recent studies of the evolution of behaviour and morphological adaptation support this notion. Thus, the candidate gene approach offers great potential to expand our understanding of behavioural ecology. Changes in the expression of candidate genes can reveal their contribution to behavioural variation and/or phenotypic plasticity. Knowledge of gene function also enables experimental manipulation of behaviour in the lab and in the field. The candidate gene approach provides an accessible and useful tool for generating insights about animals that are not typically associated with genetic experimentation

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KW - alternative reproductive tactics

KW - silkmoth antheraea-pernyi

KW - horn length dimorphism

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KW - philomachus-pugnax

KW - onthophagus-taurus

KW - learning-ability

KW - hormonal-control

KW - monogamous vole

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DO - 10.1016/j.tree.2004.11.017

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JO - Trends in Ecology and Evolution

JF - Trends in Ecology and Evolution

IS - 2

ER -

Candidate genes for behavioural ecology

Abstract

Keywords

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