Mapping Quantitative-trait Loci in Humans by Use of
Extreme Concordant Sib Pairs: Selected Sampling by
Parental Phenotypes
Heping Zhang, Neil Risch
American Journal of Human Genetics, 59, 951-957 (1996).
Abstract
In two previous articles, we have considered sample sizes required to detect
linkage for mapping quantitative-trait loci in humans, using extreme discordant sib pairs.
Here, we examine further the use of extreme concordant sib pairs but consider the effect of
parents' phenotypes. Sample sizes necessary to obtain a power of 80% with concordant sib
pairs at a significance level of .0001 are given, stratified by parental phenotypes. When there
is no residual correlation between sibs, the parental phenotypes have little impact on the
sample sizes. When residual correlations between sibs exist, we show, however, that power
can be considerably reduced by including extreme sib pairs when the parents also have
similarly extreme values. Thus, we recommend the exclusion of such pairs from linkage
studies. This recommendation reduces the required sample sizes by 3- to 28-fold. The
degree of saving in the required sample sizes varies among different models and allele
frequencies. The reduction is most dramatic (a 28-fold reduction) for a rare recessive gene.
Allele-sharing linkage analysis