An omnibus permutation test on ensembles of two-locus analyses can detect pure epistasis and genetic heterogeneity in genome-wide association studies
This article presents the ability of an omnibus permutation test on ensembles of two-locus analyses (2LOmb) to detect pure epistasis in the presence of genetic heterogeneity. The performance of 2LOmb is evaluated in various simulation scenarios covering two independent causes of complex disease wher...
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th-mahidol.328232018-10-19T12:51:00Z An omnibus permutation test on ensembles of two-locus analyses can detect pure epistasis and genetic heterogeneity in genome-wide association studies Damrongrit Setsirichok Phuwadej Tienboon Nattapong Jaroonruang Somkit Kittichaijaroen Waranyu Wongseree Theera Piroonratana Touchpong Usavanarong Chanin Limwongse Chatchawit Aporntewan Marongx Phadoongsidhi Nachol Chaiyaratana King Mongkut's University of Technology North Bangkok King Mongkuts University of Technology Thonburi Mahidol University Chulalongkorn University Multidisciplinary This article presents the ability of an omnibus permutation test on ensembles of two-locus analyses (2LOmb) to detect pure epistasis in the presence of genetic heterogeneity. The performance of 2LOmb is evaluated in various simulation scenarios covering two independent causes of complex disease where each cause is governed by a purely epistatic interaction. Different scenarios are set up by varying the number of available single nucleotide polymorphisms (SNPs) in data, number of causative SNPs and ratio of case samples from two affected groups. The simulation results indicate that 2LOmb outperforms multifactor dimensionality reduction (MDR) and random forest (RF) techniques in terms of a low number of output SNPs and a high number of correctly-identified causative SNPs. Moreover, 2LOmb is capable of identifying the number of independent interactions in tractable computational time and can be used in genome-wide association studies. 2LOmb is subsequently applied to a type 1 diabetes mellitus (T1D) data set, which is collected from a UK population by the Wellcome Trust Case Control Consortium (WTCCC). After screening for SNPs that locate within or near genes and exhibit no marginal single-locus effects, the T1D data set is reduced to 95,991 SNPs from 12,146 genes. The 2LOmb search in the reduced T1D data set reveals that 12 SNPs, which can be divided into two independent sets, are associated with the disease. The first SNP set consists of three SNPs from MUC21 (mucin 21, cell surface associated), three SNPs from MUC22 (mucin 22), two SNPs from PSORS1C1 (psoriasis susceptibility 1 candidate 1) and one SNP from TCF19 (transcription factor 19). A four-locus interaction between these four genes is also detected. The second SNP set consists of three SNPs from ATAD1 (ATPase family, AAA domain containing 1). Overall, the findings indicate the detection of pure epistasis in the presence of genetic heterogeneity and provide an alternative explanation for the aetiology of T1D in the UK population. © 2013 Setsirichok et al. 2018-10-19T05:51:00Z 2018-10-19T05:51:00Z 2013-06-14 Article SpringerPlus. Vol.2, No.1 (2013) 10.1186/2193-1801-2-230 21931801 2-s2.0-84878777179 https://repository.li.mahidol.ac.th/handle/123456789/32823 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84878777179&origin=inward |
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Multidisciplinary Damrongrit Setsirichok Phuwadej Tienboon Nattapong Jaroonruang Somkit Kittichaijaroen Waranyu Wongseree Theera Piroonratana Touchpong Usavanarong Chanin Limwongse Chatchawit Aporntewan Marongx Phadoongsidhi Nachol Chaiyaratana An omnibus permutation test on ensembles of two-locus analyses can detect pure epistasis and genetic heterogeneity in genome-wide association studies |
| description |
This article presents the ability of an omnibus permutation test on ensembles of two-locus analyses (2LOmb) to detect pure epistasis in the presence of genetic heterogeneity. The performance of 2LOmb is evaluated in various simulation scenarios covering two independent causes of complex disease where each cause is governed by a purely epistatic interaction. Different scenarios are set up by varying the number of available single nucleotide polymorphisms (SNPs) in data, number of causative SNPs and ratio of case samples from two affected groups. The simulation results indicate that 2LOmb outperforms multifactor dimensionality reduction (MDR) and random forest (RF) techniques in terms of a low number of output SNPs and a high number of correctly-identified causative SNPs. Moreover, 2LOmb is capable of identifying the number of independent interactions in tractable computational time and can be used in genome-wide association studies. 2LOmb is subsequently applied to a type 1 diabetes mellitus (T1D) data set, which is collected from a UK population by the Wellcome Trust Case Control Consortium (WTCCC). After screening for SNPs that locate within or near genes and exhibit no marginal single-locus effects, the T1D data set is reduced to 95,991 SNPs from 12,146 genes. The 2LOmb search in the reduced T1D data set reveals that 12 SNPs, which can be divided into two independent sets, are associated with the disease. The first SNP set consists of three SNPs from MUC21 (mucin 21, cell surface associated), three SNPs from MUC22 (mucin 22), two SNPs from PSORS1C1 (psoriasis susceptibility 1 candidate 1) and one SNP from TCF19 (transcription factor 19). A four-locus interaction between these four genes is also detected. The second SNP set consists of three SNPs from ATAD1 (ATPase family, AAA domain containing 1). Overall, the findings indicate the detection of pure epistasis in the presence of genetic heterogeneity and provide an alternative explanation for the aetiology of T1D in the UK population. © 2013 Setsirichok et al. |
| author2 |
King Mongkut's University of Technology North Bangkok |
| author_facet |
King Mongkut's University of Technology North Bangkok Damrongrit Setsirichok Phuwadej Tienboon Nattapong Jaroonruang Somkit Kittichaijaroen Waranyu Wongseree Theera Piroonratana Touchpong Usavanarong Chanin Limwongse Chatchawit Aporntewan Marongx Phadoongsidhi Nachol Chaiyaratana |
| format |
Article |
| author |
Damrongrit Setsirichok Phuwadej Tienboon Nattapong Jaroonruang Somkit Kittichaijaroen Waranyu Wongseree Theera Piroonratana Touchpong Usavanarong Chanin Limwongse Chatchawit Aporntewan Marongx Phadoongsidhi Nachol Chaiyaratana |
| author_sort |
Damrongrit Setsirichok |
| title |
An omnibus permutation test on ensembles of two-locus analyses can detect pure epistasis and genetic heterogeneity in genome-wide association studies |
| title_short |
An omnibus permutation test on ensembles of two-locus analyses can detect pure epistasis and genetic heterogeneity in genome-wide association studies |
| title_full |
An omnibus permutation test on ensembles of two-locus analyses can detect pure epistasis and genetic heterogeneity in genome-wide association studies |
| title_fullStr |
An omnibus permutation test on ensembles of two-locus analyses can detect pure epistasis and genetic heterogeneity in genome-wide association studies |
| title_full_unstemmed |
An omnibus permutation test on ensembles of two-locus analyses can detect pure epistasis and genetic heterogeneity in genome-wide association studies |
| title_sort |
omnibus permutation test on ensembles of two-locus analyses can detect pure epistasis and genetic heterogeneity in genome-wide association studies |
| publishDate |
2018 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/32823 |
| _version_ |
1763495102744887296 |