2013
DOI: 10.1016/j.gde.2013.10.007
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Should evolutionary geneticists worry about higher-order epistasis?

Abstract: Natural selection drives evolving populations up the fitness landscape, the projection from nucleotide sequence space to organismal reproductive success. While it has long been appreciated that topographic complexities on fitness landscapes can arise only as a consequence of epistatic interactions between mutations, evolutionary genetics has mainly focused on epistasis between pairs of mutations. Here we propose a generalization to the classical population genetic treatment of pairwise epistasis that yields ex… Show more

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Cited by 285 publications
(439 citation statements)
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“…The partial incompatibility due to each gene is itself attributable to epistatic interactions among sites in or near the gene, as expected of ongoing evolution through slightly deleterious mutations compensated by other mutations elsewhere in the gene (39). The number of interacting sites could be as few as two, but experimental evidence implies that higher-order interactions are more likely (40,41). Considering the within-gene interactions and the effects of environment and genetic background (30), hybrid male sterility in this case behaves like a classical quantitative trait affected by multiple genes with relatively small effects (42) as well as environmental factors.…”
Section: Discussionmentioning
confidence: 99%
“…The partial incompatibility due to each gene is itself attributable to epistatic interactions among sites in or near the gene, as expected of ongoing evolution through slightly deleterious mutations compensated by other mutations elsewhere in the gene (39). The number of interacting sites could be as few as two, but experimental evidence implies that higher-order interactions are more likely (40,41). Considering the within-gene interactions and the effects of environment and genetic background (30), hybrid male sterility in this case behaves like a classical quantitative trait affected by multiple genes with relatively small effects (42) as well as environmental factors.…”
Section: Discussionmentioning
confidence: 99%
“…To confirm the presence of higher-order epistasis, we decomposed the fitness landscape by Fourier analysis (see Materials and methods, Figure 3-figure supplement 1) Weinreich et al, 2013;Neidhart et al, 2013). The Fourier coefficients can be interpreted as epistatic interactions of different orders (Weinreich et al, 2013;de Visser and Krug, 2014), including the main effects of single mutations (the first order), pairwise epistasis (the second order), and higher-order epistasis (the third and the fourth order).…”
Section: Evidence and Impacts Of Higher-order Epistasismentioning
confidence: 99%
“…The Fourier coefficients can be interpreted as epistatic interactions of different orders (Weinreich et al, 2013;de Visser and Krug, 2014), including the main effects of single mutations (the first order), pairwise epistasis (the second order), and higher-order epistasis (the third and the fourth order). The fitness of variants can be reconstructed by expansion of Fourier coefficients up to a certain order (Figure 3-figure supplement 2).…”
Section: Evidence and Impacts Of Higher-order Epistasismentioning
confidence: 99%
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“…Indeed, the number of peaks in a landscape ultimately depends on whether mutations interact multiplicatively or epistatically in determining fitness [3]. Especially, if epistasis takes the form of sign [6] or reciprocal sign [7], landscapes are highly rugged and the number of accessible pathways will be limited [8][9][10].…”
Section: Introductionmentioning
confidence: 99%