Molecular Pain (Apr 2008)

A computational model for sex-specific genetic architecture of complex traits in humans: Implications for mapping pain sensitivity

  • Staud Roland,
  • Wallace Margaret R,
  • Fillingim Roger B,
  • Li Qin,
  • Liu Tian,
  • Cheng Yun,
  • Wang Chenguang,
  • Kaplan Lee,
  • Wu Rongling

DOI
https://doi.org/10.1186/1744-8069-4-13
Journal volume & issue
Vol. 4, no. 1
p. 13

Abstract

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Abstract Understanding differences in the genetic architecture of complex traits between the two sexes has significant implications for evolutionary studies and clinical diagnosis. However, our knowledge about sex-specific genetic architecture is limited largely because of a lack of analytical models that can detect and quantify the effects of sex on the complexity of quantitative genetic variation. Here, we derived a statistical model for mapping DNA sequence variants that contribute to sex-specific differences in allele frequencies, linkage disequilibria, and additive and dominance genetic effects due to haplotype diversity. This model allows a genome-wide search for functional haplotypes and the estimation and test of haplotype by sex interactions and sex-specific heritability. The model, validated by simulation studies, was used to detect sex-specific functional haplotypes that encode a pain sensitivity trait in humans. The model could have important implications for mapping complex trait genes and studying the detailed genetic architecture of sex-specific differences.