Linkage and the maintenance of variation for quantitative traits by mutation–selection balance: an infinitesimal model

ENRIQUE SANTIAGO

doi:10.1017/S0016672398003231

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

The infinitesimal model is extended to cover linkage in finite populations. General equations to predict the dynamics of the genetic variation under the joint effects of mutation, selection and drift are derived. Under truncation and stabilizing selection, the quadratic equations for the asymptotic genetic variance (VG) are respectively

V2G(1+kS)+VG (Ve−2NeVm) −2NeVmVe=0

and

V2G(1+S)+VG (Ve+γ−2NeVm) −2NeVm(Ve+γ)=0,

where Ne is the effective population size, Vm is the mutational variance, Ve is the environmental variance, γ is the parameter that measures the spread of fitness around the optimum under stabilizing selection, k is equal to i(i−x) where i is the selection intensity and x is the cut-off point under truncation selection. The term S is a function of the number of chromosomes (v) and the average chromosome length (l):

formula here

These predictions are accurate when compared with results of simulations of small populations unless the number of genes is small. The infinitesimal model reduces to the continuum of alleles model if there is no recombination between homologous chromosomes.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Santiago, Enrique and Caballero, Armando 1998. Effective Size and Polymorphism of Linked Neutral Loci in Populations Under Directional Selection. Genetics, Vol. 149, Issue. 4, p. 2105.

Dall, Sasha R. X. Houston, Alasdair I. and McNamara, John M. 2004. The behavioural ecology of personality: consistent individual differences from an adaptive perspective. Ecology Letters, Vol. 7, Issue. 8, p. 734.

Nomura, Tetsuro 2005. Joint Effect of Selection, Linkage and Partial Inbreeding on Additive Genetic Variance in an Infinite Population. Biometrical Journal, Vol. 47, Issue. 4, p. 527.

Nomura, T. 2005. Effective Size of Populations under Partial Inbreeding and Selection on a Set of Linked Additive Genes. Biometrical Journal, Vol. 47, Issue. 4, p. 563.

Villanueva, B. Pong-Wong, R. Fernández, J. and Toro, M. A. 2005. Benefits from marker-assisted selection under an additive polygenic genetic model1. Journal of Animal Science, Vol. 83, Issue. 8, p. 1747.

Zhang, Xu-Sheng and Hill, William G 2005. Predictions of Patterns of Response to Artificial Selection in Lines Derived From Natural Populations. Genetics, Vol. 169, Issue. 1, p. 411.

Stamps, Judy A. 2007. Growth‐mortality tradeoffs and ‘personality traits’ in animals. Ecology Letters, Vol. 10, Issue. 5, p. 355.

Meekan, Mark G. von Kuerthy, Corinna McCormick, Mark I. and Radford, Ben 2010. Behavioural mediation of the costs and benefits of fast growth in a marine fish. Animal Behaviour, Vol. 79, Issue. 4, p. 803.

ENGLISH, S. NAKAGAWA, S. and CLUTTON‐BROCK, T. H. 2010. Consistent individual differences in cooperative behaviour in meerkats (Suricata suricatta). Journal of Evolutionary Biology, Vol. 23, Issue. 8, p. 1597.

Fuiman, Lee A. Meekan, Mark G. and McCormick, Mark I. 2010. Maladaptive behavior reinforces a recruitment bottleneck in newly settled fishes. Oecologia, Vol. 164, Issue. 1, p. 99.

Robillard, Melissa M. McLaughlin, Robert L. and Mackereth, Robert W. 2011. Diversity in Habitat Use and Trophic Ecology of Brook Trout in Lake Superior and Tributary Streams Revealed Through Stable Isotopes. Transactions of the American Fisheries Society, Vol. 140, Issue. 4, p. 943.

Nyqvist, Marina J. Gozlan, Rodolphe E. Cucherousset, Julien Robert Britton, J. and Wright, J. 2013. Absence of a Context‐General Behavioural Syndrome in a Solitary Predator. Ethology, Vol. 119, Issue. 2, p. 156.

Edenbrow, M. and Croft, D. P. 2013. Environmental and genetic effects shape the development of personality traits in the mangrove killifishKryptolebias marmoratus. Oikos, Vol. 122, Issue. 5, p. 667.

Barton, N.H. Etheridge, A.M. and Véber, A. 2017. The infinitesimal model: Definition, derivation, and implications. Theoretical Population Biology, Vol. 118, Issue. , p. 50.

DiRienzo, Nicholas Johnson, J Chadwick and Dornhaus, Anna 2019. Juvenile social experience generates differences in behavioral variation but not averages. Behavioral Ecology, Vol. 30, Issue. 2, p. 455.

Garnier, J. Cotto, O. Bouin, E. Bourgeron, T. Lepoutre, T. Ronce, O. and Calvez, V. 2023. Adaptation of a quantitative trait to a changing environment: New analytical insights on the asexual and infinitesimal sexual models. Theoretical Population Biology, Vol. 152, Issue. , p. 1.

Barton, Nicholas H Etheridge, Alison M Véber, Amandine and Martin, G 2023. The infinitesimal model with dominance. GENETICS, Vol. 225, Issue. 2,

Buffalo, Vince Kern, Andrew D. and Payseur, Bret 2024. A quantitative genetic model of background selection in humans. PLOS Genetics, Vol. 20, Issue. 3, p. e1011144.

Tourrette, Elise Martin, Olivier C and Yooseph, Shibu 2024. Singular effect of linkage on long-term genetic gain in Fisher’s infinitesimal model. PNAS Nexus, Vol. 3, Issue. 8,

Article contents

Linkage and the maintenance of variation for quantitative traits by mutation–selection balance: an infinitesimal model

Abstract

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests