Journal
HUMAN HEREDITY
Volume 85, Issue 1, Pages 1-10Publisher
KARGER
DOI: 10.1159/000512576
Keywords
Exome; Body mass index; Ethnicity; LYPLAL1; NSDHL
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Funding
- BBSRC [BB/R01356X/1]
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Weighted burden analysis is applied to exome-sequenced case-control studies to identify genes associated with phenotype, with adjustments made for rare variants and covariates. The method shows promising results in heterogeneous datasets, providing a way to analyze rare variants without discarding data from ethnic minority subjects.
Weighted burden analysis has been used in exome-sequenced case-control studies to identify genes in which there is an excess of rare and/or functional variants associated with phenotype. Implementation in a ridge regression framework allows simultaneous analysis of all variants along with relevant covariates, such as population principal components. In order to apply the approach to a quantitative phenotype, a weighted burden score is derived for each subject and included in a linear regression analysis. The weighting scheme is adjusted in order to apply differential weights to rare and very rare variants and a score is derived based on both the frequency and predicted effect of each variant. When applied to an ethnically heterogeneous dataset consisting of 49,790 exome-sequenced UK Biobank subjects and using body mass index as the phenotype, the method produces a very inflated test statistic. However, this is almost completely corrected by including 20 population principal components as covariates. When this is done, the top 30 genes include a few which are quite plausibly associated with the phenotype, including LYPLAL1 and NSDHL. This approach offers a way to carry out gene-based analyses of rare variants identified by exome sequencing in heterogeneous datasets without requiring that data from ethnic minority subjects be discarded. This research has been conducted using the UK Biobank Resource. (c) 2021 S. Karger AG, Basel
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