Bayesian Mapping of Quantitative Trait Loci for Complex Binary Traits

Bayesian Mapping of Quantitative Trait Loci for Complex Binary Traits

Nengjun Yi^a and Shizhong Xu^a
^a Department of Botany and Plant Sciences, University of California, Riverside, California 92521-0124

Corresponding author: Shizhong Xu, Department of Botany and Plant Sciences, University of California, Riverside, CA 92521., xu{at}genetics.ucr.edu (E-mail)

Communicating editor: T. F. C. MACKAY

A complex binary trait is a character that has a dichotomousexpression but with a polygenic genetic background. Mappingquantitative trait loci (QTL) for such traits is difficult becauseof the discrete nature and the reduced variation in the phenotypicdistribution. Bayesian statistics are proved to be a powerfultool for solving complicated genetic problems, such as multipleQTL with nonadditive effects, and have been successfully appliedto QTL mapping for continuous traits. In this study, we showthat Bayesian statistics are particularly useful for mappingQTL for complex binary traits. We model the binary trait underthe classical threshold model of quantitative genetics. TheBayesian mapping statistics are developed on the basis of theidea of data augmentation. This treatment allows an easy wayto generate the value of a hypothetical underlying variable(called the liability) and a threshold, which in turn allowthe use of existing Bayesian statistics. The reversible jumpMarkov chain Monte Carlo algorithm is used to simulate the posteriorsamples of all unknowns, including the number of QTL, the locationsand effects of identified QTL, genotypes of each individualat both the QTL and markers, and eventually the liability ofeach individual. The Bayesian mapping ends with an estimationof the joint posterior distribution of the number of QTL andthe locations and effects of the identified QTL. Utilities ofthe method are demonstrated using a simulated outbred full-sibfamily. A computer program written in FORTRAN language is freelyavailable on request.

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