A Tutorial of the Poisson Random Field Model in Population Genetics
Title | A Tutorial of the Poisson Random Field Model in Population Genetics |
Publication Type | Journal Articles |
Year of Publication | 2008 |
Authors | Sethupathy P, Hannenhalli S |
Journal | Advances in Bioinformatics |
Volume | 2008 |
Pagination | 1 - 9 |
Date Published | 2008/// |
ISBN Number | 1687-8027, 1687-8035 |
Abstract | Population genetics is the study of allele frequency changes driven by various evolutionary forces such as mutation, natural selection, and random genetic drift. Although natural selection is widely recognized as a bona-fide phenomenon, the extent to which it drives evolution continues to remain unclear and controversial. Various qualitative techniques, or so-called “tests of neutrality”, have been introduced to detect signatures of natural selection. A decade and a half ago, Stanley Sawyer and Daniel Hartl provided a mathematical framework, referred to as the Poisson random field (PRF), with which to determine quantitatively the intensity of selection on a particular gene or genomic region. The recent availability of large-scale genetic polymorphism data has sparked widespread interest in genome-wide investigations of natural selection. To that end, the original PRF model is of particular interest for geneticists and evolutionary genomicists. In this article, we will provide a tutorial of the mathematical derivation of the original Sawyer and Hartl PRF model. |
URL | http://www.hindawi.com/journals/abi/2008/257864/ |
DOI | 10.1155/2008/257864 |