Wednesday 31 October 2012

Rare-variant association methods : Nature Genetics : Nature Publishing Group

http://www.nature.com/ng/journal/v44/n11/full/ng.2458.html

Several methods for aggregate rare-variant association testing have recently been reported, including collapsing or weighting methods and gene- or region-based association tests. Although it is possible to estimate the average genetic effect for a group of rare variants from aggregate tests, there are potential biases, including winner's curse, selection procedures and differences between populations. Suzanne Leal and Dajiang Liu now report a new method to correct for bias in estimating the average genetic effect of a group of rare variants jointly analyzed for association consisting of a resampling-based approach and a bootstrap-sample-split algorithm (Am. J. Hum. Genet. 915855962012). They compare methods for estimating the average genetic effect and variance across a range of models in simulations, finding that the estimated variance is always less than the true locus-specific genetic variance, due to the inclusion of non-causal variants as well as causal variants with heterogeneous effects. The authors report the application of the new method to a resequencing data set of 4 genes in 1,045 individuals from the Dallas Heart Study, testing rare-variant associations with metabolic quantitative traits. The authors demonstrate the efficient estimation of average genetic effects in joint analysis of rare variants and note that estimated variance should be considered as a lower bound for the locus-specific variance.


Also featured in Nature Genetics is another paper from deCODE. Current research should be now focused on rare variants now that sequencing is getting cheaper. I think the next wave in genomics will be using longer read platforms to look at structural variants which has the greater potential to disrupt the normal working mechanism of genetic machinery. There's probably enough robustness/redundancy built-in to the human genome to prevent catastrophic  consequences for single variant or a bunch of rare variants to affect human health on a global scale. Disrupting entire regulatory mechanisms by structural variations however, seems like a surefire way to create the maddening variety of diseases states that eludes physicians attempting to cure everybody in the same way.


Icon for Nature Publishing Group

 2012 Oct 28. doi: 10.1038/ng.2437. [Epub ahead of print]

A study based on whole-genome sequencing yields a rare variant at 8q24 associated with prostate cancer.

Source

1] deCODE genetics, Reykjavik, Iceland. [2].

Abstract

In Western countries, prostate cancer is the most prevalent cancer of men and one of the leading causes of cancer-related death in men. Several genome-wide association studies have yielded numerous common variants conferring risk of prostate cancer. Here, we analyzed 32.5 million variants discovered by whole-genome sequencing 1,795 Icelanders. We identified a new low-frequency variant at 8q24 associated with prostate cancer in European populations, rs188140481[A] (odds ratio (OR) = 2.90; P(combined) = 6.2 × 10(-34)), with an average risk allele frequency in controls of 0.54%. This variant is only very weakly correlated (r(2) ≤ 0.06) with previously reported risk variants at 8q24, and its association remains significant after adjustment for all known risk-associated variants. Carriers of rs188140481[A] were diagnosed with prostate cancer 1.26 years younger than non-carriers (P = 0.0059). We also report results for a previously described HOXB13 variant (rs138213197[T]), confirming it as a prostate cancer risk variant in populations from across Europe.
PMID:
 
23104005
 
[PubMed - as supplied by publisher]

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