Testing the Robustness of the Likelihood-Ratio Test in a Variance-Component Quantitative-Trait Loci–Mapping Procedure

Detection of linkage to genes for quantitative traits remains a challenging task. Recently, variance components (VC) techniques have emerged as among the more powerful of available methods. As often implemented, such techniques require assumptions about the phenotypic distribution. Usually, multivar...

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Bibliographic Details
Published in:American journal of human genetics 1999-08, Vol.65 (2), p.531-544
Main Authors: Allison, David B., Neale, Michael C., Zannolli, Raffaella, Schork, Nicholas J., Amos, Christopher I., Blangero, John
Format: Article
Language:English
Subjects:
Analysis of Variance
Biological and medical sciences
Chromosome Mapping
Classical genetics, quantitative genetics, hybrids
Computer Simulation
Computerized, statistical medical data processing and models in biomedicine
Fundamental and applied biological sciences. Psychology
Genetic Linkage
Genetics of eukaryotes. Biological and molecular evolution
Humans
Likelihood Functions
Likelihood-ratio statistic
Linkage analysis
Matched-Pair Analysis
Medical sciences
Medical statistics
Methods, theories and miscellaneous
Normal distribution
Nuclear Family
Phenotype
Quantitative trait loci
Quantitative Trait, Heritable
Reproducibility of Results
Sample Size
Sibling pairs
Software
Statistical Distributions
Variance components
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Summary:Detection of linkage to genes for quantitative traits remains a challenging task. Recently, variance components (VC) techniques have emerged as among the more powerful of available methods. As often implemented, such techniques require assumptions about the phenotypic distribution. Usually, multivariate normality is assumed. However, several factors may lead to markedly nonnormal phenotypic data, including (a) the presence of a major gene (not necessarily linked to the markers under study), (b) some types of gene × environment interaction, (c) use of a dichotomous phenotype (i.e., affected vs. unaffected), (d) nonnormality of the population within-genotype (residual) distribution, and (e) selective (extreme) sampling. Using simulation, we have investigated, for sib-pair studies, the robustness of the likelihood-ratio test for a VC quantitative-trait locus–detection procedure to violations of normality that are due to these factors. Results showed (a) that some types of nonnormality, such as leptokurtosis, produced type I error rates in excess of the nominal, or α, levels whereas others did not; and (b) that the degree of type I error–rate inflation appears to be directly related to the residual sibling correlation. Potential solutions to this problem are discussed. Investigators contemplating use of this VC procedure are encouraged to provide evidence that their trait data are normally distributed, to employ a procedure that allows for nonnormal data, or to consider implementation of permutation tests.
ISSN:0002-9297
1537-6605
DOI:10.1086/302487