A hierarchical and modular approach to the discovery of robust associations in genome-wide association studies from pooled DNA samples

A hierarchical and modular approach to the discovery of robust associations in genome-wide association studies from pooled DNA samples

<p>Abstract</p> <p>Background</p> <p>One of the challenges of the analysis of pooling-based genome wide association studies is to identify authentic associations among potentially thousands of false positive associations.</p> <p>Results</p> <p>We...

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Main Authors: Melista Efthymia, Montano Monty, Doria Alessandro, Sedgewick Amanda E, Hartley Stephen W, Riva Alberto, Abad-Grau Maria M, Zhao Zhenming, Sebastiani Paola, Terry Dellara, Perls Thomas T, Steinberg Martin H, Baldwin Clinton T
Format: Article
Language:English
Published: BMC 2008-01-01
Series:BMC Genetics
Online Access:http://www.biomedcentral.com/1471-2156/9/6
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spelling doaj-9372aff6d6974047b05a37875c3ac9782020-11-25T03:40:27ZengBMCBMC Genetics1471-21562008-01-0191610.1186/1471-2156-9-6A hierarchical and modular approach to the discovery of robust associations in genome-wide association studies from pooled DNA samplesMelista EfthymiaMontano MontyDoria AlessandroSedgewick Amanda EHartley Stephen WRiva AlbertoAbad-Grau Maria MZhao ZhenmingSebastiani PaolaTerry DellaraPerls Thomas TSteinberg Martin HBaldwin Clinton T<p>Abstract</p> <p>Background</p> <p>One of the challenges of the analysis of pooling-based genome wide association studies is to identify authentic associations among potentially thousands of false positive associations.</p> <p>Results</p> <p>We present a hierarchical and modular approach to the analysis of genome wide genotype data that incorporates quality control, linkage disequilibrium, physical distance and gene ontology to identify authentic associations among those found by statistical association tests. The method is developed for the allelic association analysis of pooled DNA samples, but it can be easily generalized to the analysis of individually genotyped samples. We evaluate the approach using data sets from diverse genome wide association studies including fetal hemoglobin levels in sickle cell anemia and a sample of centenarians and show that the approach is highly reproducible and allows for discovery at different levels of synthesis.</p> <p>Conclusion</p> <p>Results from the integration of Bayesian tests and other machine learning techniques with linkage disequilibrium data suggest that we do not need to use too stringent thresholds to reduce the number of false positive associations. This method yields increased power even with relatively small samples. In fact, our evaluation shows that the method can reach almost 70% sensitivity with samples of only 100 subjects.</p> http://www.biomedcentral.com/1471-2156/9/6
collection DOAJ
language English
format Article
sources DOAJ
author Melista Efthymia
Montano Monty
Doria Alessandro
Sedgewick Amanda E
Hartley Stephen W
Riva Alberto
Abad-Grau Maria M
Zhao Zhenming
Sebastiani Paola
Terry Dellara
Perls Thomas T
Steinberg Martin H
Baldwin Clinton T
spellingShingle Melista Efthymia
Montano Monty
Doria Alessandro
Sedgewick Amanda E
Hartley Stephen W
Riva Alberto
Abad-Grau Maria M
Zhao Zhenming
Sebastiani Paola
Terry Dellara
Perls Thomas T
Steinberg Martin H
Baldwin Clinton T
A hierarchical and modular approach to the discovery of robust associations in genome-wide association studies from pooled DNA samples
BMC Genetics
author_facet Melista Efthymia
Montano Monty
Doria Alessandro
Sedgewick Amanda E
Hartley Stephen W
Riva Alberto
Abad-Grau Maria M
Zhao Zhenming
Sebastiani Paola
Terry Dellara
Perls Thomas T
Steinberg Martin H
Baldwin Clinton T
author_sort Melista Efthymia
title A hierarchical and modular approach to the discovery of robust associations in genome-wide association studies from pooled DNA samples
title_short A hierarchical and modular approach to the discovery of robust associations in genome-wide association studies from pooled DNA samples
title_full A hierarchical and modular approach to the discovery of robust associations in genome-wide association studies from pooled DNA samples
title_fullStr A hierarchical and modular approach to the discovery of robust associations in genome-wide association studies from pooled DNA samples
title_full_unstemmed A hierarchical and modular approach to the discovery of robust associations in genome-wide association studies from pooled DNA samples
title_sort hierarchical and modular approach to the discovery of robust associations in genome-wide association studies from pooled dna samples
publisher BMC
series BMC Genetics
issn 1471-2156
publishDate 2008-01-01
description <p>Abstract</p> <p>Background</p> <p>One of the challenges of the analysis of pooling-based genome wide association studies is to identify authentic associations among potentially thousands of false positive associations.</p> <p>Results</p> <p>We present a hierarchical and modular approach to the analysis of genome wide genotype data that incorporates quality control, linkage disequilibrium, physical distance and gene ontology to identify authentic associations among those found by statistical association tests. The method is developed for the allelic association analysis of pooled DNA samples, but it can be easily generalized to the analysis of individually genotyped samples. We evaluate the approach using data sets from diverse genome wide association studies including fetal hemoglobin levels in sickle cell anemia and a sample of centenarians and show that the approach is highly reproducible and allows for discovery at different levels of synthesis.</p> <p>Conclusion</p> <p>Results from the integration of Bayesian tests and other machine learning techniques with linkage disequilibrium data suggest that we do not need to use too stringent thresholds to reduce the number of false positive associations. This method yields increased power even with relatively small samples. In fact, our evaluation shows that the method can reach almost 70% sensitivity with samples of only 100 subjects.</p>
url http://www.biomedcentral.com/1471-2156/9/6
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