| Literature DB >> 26569126 |
Nicholas Mancuso1, Nadin Rohland2,3, Kristin A Rand4,5, Arti Tandon2,3, Alexander Allen2,3, Dominique Quinque2,3, Swapan Mallick2,3, Heng Li2,3, Alex Stram4, Xin Sheng4, Zsofia Kote-Jarai6, Douglas F Easton7, Rosalind A Eeles6,8, Loic Le Marchand9, Alex Lubwama10, Daniel Stram4,5, Stephen Watya10, David V Conti4,5, Brian Henderson4,5, Christopher A Haiman4,5, Bogdan Pasaniuc1,11, David Reich2,3.
Abstract
We report targeted sequencing of 63 known prostate cancer risk regions in a multi-ancestry study of 9,237 men and use the data to explore the contribution of low-frequency variation to disease risk. We show that SNPs with minor allele frequencies (MAFs) of 0.1-1% explain a substantial fraction of prostate cancer risk in men of African ancestry. We estimate that these SNPs account for 0.12 (standard error (s.e.) = 0.05) of variance in risk (∼42% of the variance contributed by SNPs with MAF of 0.1-50%). This contribution is much larger than the fraction of neutral variation due to SNPs in this class, implying that natural selection has driven down the frequency of many prostate cancer risk alleles; we estimate the coupling between selection and allelic effects at 0.48 (95% confidence interval [0.19, 0.78]) under the Eyre-Walker model. Our results indicate that rare variants make a disproportionate contribution to genetic risk for prostate cancer and suggest the possibility that rare variants may also have an outsize effect on other common traits.Entities:
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Year: 2015 PMID: 26569126 DOI: 10.1038/ng.3446
Source DB: PubMed Journal: Nat Genet ISSN: 1061-4036 Impact factor: 38.330