AI Article Synopsis
- The joint analysis of multiple traits helps detect genetic variants more effectively and reveals that pleiotropy is common in complex diseases.
- Current methods mostly focus on common variants for multi-trait association but struggle with rare variants due to their extreme rarity and genetic diversity.
- The proposed AWRR method tests multiple traits against rare variants, demonstrating stronger performance in simulations compared to existing methods like CCA, Single-TOW, and WSRR.
Article Abstract
The joint analysis of multiple traits has recently become popular since it can increase statistical power to detect genetic variants and there is increasing evidence showing that pleiotropy is a widespread phenomenon in complex diseases. Currently, the majority of existing methods for the joint analysis of multiple traits test association between one common variant and multiple traits. However, the variant-by-variant methods for common variant association studies may not be optimal for rare variant association studies due to the allelic heterogeneity as well as the extreme rarity of individual variants. Current statistical methods for rare variant association studies are for one single trait only. In this paper, we propose an adaptive weighting reverse regression (AWRR) method to test association between multiple traits and rare variants in a genomic region. AWRR is robust to the directions of effects of causal variants and is also robust to the directions of association of traits. Using extensive simulation studies, we compare the performance of AWRR with canonical correlation analysis (CCA), Single-TOW, and the weighted sum reverse regression (WSRR). Our results show that, in all of the simulation scenarios, AWRR is consistently more powerful than CCA. In most scenarios, AWRR is more powerful than Single-TOW and WSRR.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4836983 | PMC |
| http://dx.doi.org/10.1111/ahg.12149 | DOI Listing |
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