Author(s):

Barton, Nicholas H; Etheridge, Alison M; Sturm, Anja K

Article Title: 
Coalescence in a Random Background

Affiliation 

Abstract: 
We consider a single genetic locus which carries two alleles, labelled P and Q. This locus experiences selection and mutation. It is linked to a second neutral locus with recombination rate r. If r = 0, this reduces to the study of a single selected locus. Assuming a Moran model for the population dynamics, we pass to a diffusion approximation and, assuming that the allele frequencies at the selected locus have reached stationarity, establish the joint generating function for the genealogy of a sample from the population and the frequency of the P allele. In essence this is the joint generating function for a coalescent and the random background in which it evolves. We use this to characterize, for the diffusion approximation, the probability of identity in state at the neutral locus of a sample of two individuals (whose type at the selected locus is known) as solutions to a system of ordinary differential equations. The only subtlety is to find the boundary conditions for this system. Finally, numerical examples are presented that illustrate the accuracy and predictions of the diffusion approximation. In particular, a comparison is made between this approach and one in which the frequencies at the selected locus are estimated by their value in the absence of fluctuations and a classical structured coalescent model is used.

Keywords: 
selection; coalescent; recombination; identity by descent; random environment

Journal Title:

Annals of Applied Probability

Volume: 
14

Issue 
2

ISSN:

10505164

Publisher:

Institute of Mathematical Statistics

Date Published:

20040501

Start Page: 
754

End Page:

785

URL: 

Open access: 
no 