Abstract
BackgroundWe present a general approach to perform association analyses in pedigrees of arbitrary size and structure, which also allows for a mixture of pedigree members and independent individuals to be analyzed together, to test genetic markers and qualitative or quantitative traits. Our software, PedGenie, uses Monte Carlo significance testing to provide a valid test for related individuals that can be applied to any test statistic, including transmission disequilibrium statistics. Single locus at a time, composite genotype tests, and haplotype analyses may all be performed. We illustrate the validity and functionality of PedGenie using simulated and real data sets. For the real data set, we evaluated the role of two tagging-single nucleotide polymorphisms (tSNPs) in the DNA repair gene, NBS1, and their association with female breast cancer in 462 cases and 572 controls selected to be BRCA1/2 mutation negative from 139 high-risk Utah breast cancer families.ResultsThe results from PedGenie were shown to be valid both for accurate p-value calculations and consideration of pedigree structure in the simulated data set. A nominally significant association with breast cancer was observed with the NBS1 tSNP rs709816 for carriage of the rare allele (OR = 1.61, 95% CI = 1.10–2.35, p = 0.019).ConclusionPedGenie is a flexible and valid statistical tool that is intuitively simple to understand, makes efficient use of all the data available from pedigrees without requiring trimming, and is flexible to the types of tests to which it can be applied. Further, our analyses of real data indicate NBS1 may play a role in the genetic etiology of heritable breast cancer.
Highlights
We present a general approach to perform association analyses in pedigrees of arbitrary size and structure, which allows for a mixture of pedigree members and independent individuals to be analyzed together, to test genetic markers and qualitative or quantitative traits
A number of family-based association tests that appropriately account for correlations between related individuals have been developed, many of which are extensions of the transmission disequilibrium test (TDT) (See review of family based methods [9])
We used simulated data obtained from the 12th Genetic Analysis Workshop (GAW12) [37] and compared empirical p-values from PedGenie to an exact pedigree-based method proposed by Slager and Schaid [20] based on the Armitage trend association statistic [38]
Summary
The Armitage test for trend asymptotically follows a Chisquared distribution with one degree of freedom and some appreciable discrepancies between the Armitage statistic significance probabilities, assuming the asymptotic distribution, and the exact Binomial probabilities have been noted for the lower end of the distribution [38] Overall, these results illustrate that PedGenie accounts for relationships between individuals in an appropriate manner. No haplotypes were found to be significant for age-at-diagnosis
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