A Coalescent Model of Recombination Hotspots

A Coalescent Model of Recombination Hotspots

Carsten Wiuf^a and David Posada^a
^a Variagenics, Cambridge, Massachusetts 02139

Corresponding author: Carsten Wiuf, 60 Hampshire St., Cambridge, MA 02139., wiuf{at}birc.dk (E-mail)

Communicating editor: J. HEY

Recent experimental findings suggest that the assumption ofa homogeneous recombination rate along the human genome is toonaive. These findings point to block-structured recombinationrates; certain regions (called hotspots) are more prone thanother regions to recombination. In this report a coalescentmodel incorporating hotspot or block-structured recombinationis developed and investigated analytically as well as by simulation.Our main results can be summarized as follows: (1) The expectednumber of recombination events is much lower in a model withpure hotspot recombination than in a model with pure homogeneousrecombination, (2) hotspots give rise to large variation inrecombination rates along the genome as well as in the numberof historical recombination events, and (3) the size of a (nonrecombining)block in the hotspot model is likely to be overestimated grosslywhen estimated from SNP data. The results are discussed withreference to the current debate about block-structured recombinationand, in addition, the results are compared to genome-wide variationin recombination rates. A number of new analytical results aboutthe model are derived.

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