Estimating Polygenic Effects Using Markers of the Entire Genome

Estimating Polygenic Effects Using Markers of the Entire Genome

Shizhong Xu^a
^a Department of Botany and Plant Sciences, University of California, Riverside, California 92521

Corresponding author: Shizhong Xu

Communicating editor: J. B. WALSH

Molecular markers have been used to map quantitative trait loci.However, they are rarely used to evaluate effects of chromosomesegments of the entire genome. The original interval-mappingapproach and various modified versions of it may have limiteduse in evaluating the genetic effects of the entire genome becausethey require evaluation of multiple models and model selection.Here we present a Bayesian regression method to simultaneouslyestimate genetic effects associated with markers of the entiregenome. With the Bayesian method, we were able to handle situationsin which the number of effects is even larger than the numberof observations. The key to the success is that we allow eachmarker effect to have its own variance parameter, which in turnhas its own prior distribution so that the variance can be estimatedfrom the data. Under this hierarchical model, we were able tohandle a large number of markers and most of the markers mayhave negligible effects. As a result, it is possible to evaluatethe distribution of the marker effects. Using data from theNorth American Barley Genome Mapping Project in double-haploidbarley, we found that the distribution of gene effects followsclosely an L-shaped Gamma distribution, which is in contrastto the bell-shaped Gamma distribution when the gene effectswere estimated from interval mapping. In addition, we show thatthe Bayesian method serves as an alternative or even betterQTL mapping method because it produces clearer signals for QTL.Similar results were found from simulated data sets of F₂ andbackcross (BC) families.

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				N. Yi and S. Banerjee Hierarchical Generalized Linear Models for Multiple Quantitative Trait Locus Mapping Genetics, March 1, 2009; 181(3): 1101 - 1113. [Abstract] [Full Text] [PDF]

				B. J. Hayes, P. J. Bowman, A. J. Chamberlain, and M. E. Goddard Invited review: Genomic selection in dairy cattle: Progress and challenges J Dairy Sci, February 1, 2009; 92(2): 433 - 443. [Abstract] [Full Text] [PDF]

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				H. Wang, Y.-M. Zhang, X. Li, G. L. Masinde, S. Mohan, D. J. Baylink, and S. Xu Bayesian Shrinkage Estimation of Quantitative Trait Loci Parameters Genetics, May 1, 2005; 170(1): 465 - 480. [Abstract] [Full Text] [PDF]

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				Y.-M. Zhang, Y. Mao, C. Xie, H. Smith, L. Luo, and S. Xu Mapping Quantitative Trait Loci Using Naturally Occurring Genetic Variance Among Commercial Inbred Lines of Maize (Zea mays L.) Genetics, April 1, 2005; 169(4): 2267 - 2275. [Abstract] [Full Text] [PDF]

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				N. Yi A Unified Markov Chain Monte Carlo Framework for Mapping Multiple Quantitative Trait Loci Genetics, June 1, 2004; 167(2): 967 - 975. [Abstract] [Full Text] [PDF]