Chakraborty R, Kamboh M I, Ferrell R E
Center for Demographic and Population Genetics, University of Texas Graduate School of Biomedical Sciences, Houston 77225.
Ethn Dis. 1991 Summer;1(3):245-56.
The genetic contribution of a parental population in an admixed population can be estimated from the frequencies of unique alleles that exist only in that parental population. In this work we show that although the estimated admixture component from a single such unique allele may be quite unstable, when multiple numbers of unique alleles are recognized, they together allow precise estimation of admixture components in an admixed population. We develop a statistical theory of linear regression incorporating estimation errors of frequencies of unique alleles in the parental and admixed populations. In addition, we show that the distribution of unique alleles detected in individuals can be used to measure the admixture component of an admixed individual. Applications of these theories to data on unique African alleles in an American black population show that such estimates are quite reliable. The distribution of unique alleles detected from the multiple-locus genotype of an admixed individual allows an opportunity to extend the studies on the "hereditary" basis of disease risk variation across populations to individuals from a single homogeneous admixed population.
在一个混合群体中,亲本群体的基因贡献可以通过仅存在于该亲本群体中的独特等位基因的频率来估计。在这项工作中,我们表明,尽管从单个此类独特等位基因估计的混合成分可能相当不稳定,但当识别出多个独特等位基因时,它们共同允许精确估计混合群体中的混合成分。我们发展了一种线性回归统计理论,纳入了亲本群体和混合群体中独特等位基因频率的估计误差。此外,我们表明,在个体中检测到的独特等位基因的分布可用于测量混合个体的混合成分。将这些理论应用于美国黑人群体中独特非洲等位基因的数据表明,这种估计相当可靠。从混合个体的多位点基因型中检测到的独特等位基因的分布,为将跨群体疾病风险变异的“遗传”基础研究扩展到来自单一同质混合群体的个体提供了机会。