Gene regulation,quantitative genetics and the evolution of reaction norms |
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Authors: | Carl D Schlichting Massimo Pigliucci |
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Institution: | (1) Department of Ecology and Evolutionary Biology, University of Connecticut, 06269 Storrs, CT, USA |
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Abstract: | Summary The ideas of phenotypic plasticity and of reaction norm are gaining prominence as important components of theories of phenotypic evolution. Our understanding of the role of phenotypic plasticity as an adaptation of organisms to variable environments will depend on (1) the form(s) of genetic and developmental control exerted on the shape of the reaction norm and (2) the nature of the constraints on the possible evolutionary trajectories in multiple environments. In this paper we identify two categories of genetic control of plasticity: allelic sensitivity and gene regulation. These correspond generally to two classes of response by the developmental system to environmental change: phenotypic modulation, in which plastic responses are a continuous and proportional function of environmental stimuli and developmental conversion, where responses tend to be not simply proportional to the stimuli. We propose that control of plasticity by regulatory actions has distinct advantages over simple allelic sensitivity: stability of phenotypic expression, capacity for anticipatory response and relaxation of constraints due to genetic correlations. We cite examples of the extensive molecular evidence for the existence of environmentally-cued gene regulation leading to developmental conversion. The results of quantitative genetic investigations on the genetics and evolution of plasticity, as well as the limits of current approaches are discussed. We suggest that evolution of reaction norms would be affected by the ecological context (i.e. spatial versus temporal variation, hard versus soft selection, and fine versus coarse environmental grain). We conclude by discussing some empirical approaches to address fundamental questions about plasticity evolution. |
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Keywords: | phenotypic plasticity gene regulation allelic sensitivity genetic correlation |
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