Selective Strolls: Fixation and Extinction in Diploids Are Slower for Weakly Selected Mutations Than for Neutral Ones

Mafessoni, Fabrizio; Lachmann, Michael

doi:10.1534/genetics.115.178160

Cited by 23 publications

(29 citation statements)

References 39 publications

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“…Recent work 10 – 12 has convincingly demonstrated, using primarily simulation and diffusion theory methods, that weakly selected alleles are sometimes expected to be older than neutral alleles observed at the same frequency when fitness in heterozygotes is non-additive. This idea was termed “selective strolls” by Mafessoni et al .…”

Section: Resultsmentioning

confidence: 99%

“…Later work added consideration of selection 9 , yielding the well-known result that allele age is expected to be symmetric with respect to the direction of selection, and that neutral alleles are expected to be older than selected alleles observed at the same frequency (the “Maruyama effect” hereafter). Recently, an interesting exception to these classical results has been pointed out 10 – 12 . Mafessoni et al .…”

Section: Introductionmentioning

confidence: 99%

“…Mafessoni et al . 12 showed that weakly selected rare alleles are expected to be about 5% older than neutral alleles observed at the same frequency, when heterozygote fitness is non-additive. This phenomenon appears to be an example of a more general behaviour recently termed ‘stochastic slowdown’ 10 , where weak selection counter-intuitively prolongs, rather than shortens, the average time to absorption.…”

Section: Introductionmentioning

confidence: 99%

“…It is important to understand the generality of these findings, since, as Mafessoni et al . 12 point out, many new mutations arising in a population are expected to be recessive and weakly deleterious, and it is conceivable that this slowdown effect could thereby mislead attempts to make inferences about natural selection.…”

Section: Introductionmentioning

confidence: 99%

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Allele Age Under Non-Classical Assumptions is Clarified by an Exact Computational Markov Chain Approach

Sanctis

Krukov

Koning

2017

Sci Rep

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Determination of the age of an allele based on its population frequency is a well-studied problem in population genetics, for which a variety of approximations have been proposed. We present a new result that, surprisingly, allows the expectation and variance of allele age to be computed exactly (within machine precision) for any finite absorbing Markov chain model in a matter of seconds. This approach makes none of the classical assumptions (e.g., weak selection, reversibility, infinite sites), exploits modern sparse linear algebra techniques, integrates over all sample paths, and is rapidly computable for Wright-Fisher populations up to N e = 100,000. With this approach, we study the joint effect of recurrent mutation, dominance, and selection, and demonstrate new examples of “selective strolls” where the classical symmetry of allele age with respect to selection is violated by weakly selected alleles that are older than neutral alleles at the same frequency. We also show evidence for a strong age imbalance, where rare deleterious alleles are expected to be substantially older than advantageous alleles observed at the same frequency when population-scaled mutation rates are large. These results highlight the under-appreciated utility of computational methods for the direct analysis of Markov chain models in population genetics.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Allele Age Under Non-Classical Assumptions is Clarified by an Exact Computational Markov Chain Approach

Sanctis

Krukov

Koning

2017

Sci Rep

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“…, and for exploring theoretical ideas about evolution (Assaf, Petrov, & Blundell, 2015;Champer et al, 2018;Haller, Mazzucco, & Dieckmann, 2013;Mafessoni & Lachmann, 2015), among other purposes. Because of this broad utility, there is a growing desire to run simulations with increased realism in a variety of areas: longer genomic regions up to the scale of full genome sequences, large populations, selection at multiple loci with linkage effects, complex demography, ecological interactions with other organisms and the environment, explicit space with continuous landscapes, spatial variation in environmental variables, spatial interactions such as competition and mate choice between organisms, and so forth.…”

mentioning

confidence: 99%

Tree‐sequence recording in SLiM opens new horizons for forward‐time simulation of whole genomes

Haller

Galloway

Kelleher

et al. 2019

Molecular Ecology Resources

165

125

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There is an increasing demand for evolutionary models to incorporate relatively realistic dynamics, ranging from selection at many genomic sites to complex demography, population structure, and ecological interactions. Such models can generally be implemented as individual‐based forward simulations, but the large computational overhead of these models often makes simulation of whole chromosome sequences in large populations infeasible. This situation presents an important obstacle to the field that requires conceptual advances to overcome. The recently developed tree‐sequence recording method (Kelleher, Thornton, Ashander, & Ralph, 2018), which stores the genealogical history of all genomes in the simulated population, could provide such an advance. This method has several benefits: (1) it allows neutral mutations to be omitted entirely from forward‐time simulations and added later, thereby dramatically improving computational efficiency; (2) it allows neutral burn‐in to be constructed extremely efficiently after the fact, using “recapitation”; (3) it allows direct examination and analysis of the genealogical trees along the genome; and (4) it provides a compact representation of a population's genealogy that can be analysed in Python using the msprime package. We have implemented the tree‐sequence recording method in SLiM 3 (a free, open‐source evolutionary simulation software package) and extended it to allow the recording of non‐neutral mutations, greatly broadening the utility of this method. To demonstrate the versatility and performance of this approach, we showcase several practical applications that would have been beyond the reach of previously existing methods, opening up new horizons for the modelling and exploration of evolutionary processes.

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Fixation probabilities and hitting times for low levels of frequency-dependent selection

Pfaffelhuber

Wakolbinger

2018

Theoretical Population Biology

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Selective Strolls: Fixation and Extinction in Diploids Are Slower for Weakly Selected Mutations Than for Neutral Ones

Cited by 23 publications

References 39 publications

Allele Age Under Non-Classical Assumptions is Clarified by an Exact Computational Markov Chain Approach

Allele Age Under Non-Classical Assumptions is Clarified by an Exact Computational Markov Chain Approach

Tree‐sequence recording in SLiM opens new horizons for forward‐time simulation of whole genomes

Fixation probabilities and hitting times for low levels of frequency-dependent selection

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