Fine Mapping of Complex Trait Genes Combining Pedigree and Linkage Disequilibrium Information: A Bayesian Unified Framework

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Fine Mapping of Complex Trait Genes Combining Pedigree and Linkage Disequilibrium Information: A Bayesian Unified Framework

Miguel Pérez-Enciso^a
^a Institut National de la Recherche Agronomique, Station d'Amélioration Génétique des Animaux, 31326 Castanet-Tolosan, France

Corresponding author: Miguel Pérez-Enciso, Station d'Amélioration Génétique des Animaux, BP 27, Cedex 31326 Castanet-Tolosan, France., mperez{at}toulouse.inra.fr (E-mail)

Communicating editor: C. HALEY

We present a Bayesian method that combines linkage and linkagedisequilibrium (LDL) information for quantitative trait locus(QTL) mapping. This method uses jointly all marker information(haplotypes) and all available pedigree information; i.e., itis not restricted to any specific experimental design and itis not required that phases are known. Infinitesimal geneticeffects or environmental noise ("fixed") effects can equallybe fitted. A diallelic QTL is assumed and both additive anddominant effects can be estimated. We have implemented a combinedGibbs/Metropolis-Hastings sampling to obtain the marginal posteriordistributions of the parameters of interest. We have also implementeda Bayesian variant of usual disequilibrium measures like D'and r² between QTL and markers. We illustrate the method withsimulated data in "simple" (two-generation full-sib families)and "complex" (four-generation) pedigrees. We compared the estimateswith and without using linkage disequilibrium information. Ingeneral, using LDL resulted in estimates of QTL position thatwere much better than linkage-only estimates when there wascomplete disequilibrium between the mutant QTL allele and themarker. This advantage, however, decreased when the associationwas only partial. In all cases, additive and dominant effectswere estimated accurately either with or without disequilibriuminformation.

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