TY - JOUR
T1 - EPIBLASTER-fast exhaustive two-locus epistasis detection strategy using graphical processing units
AU - Kam-Thong, Tony
AU - Czamara, Darina
AU - Tsuda, Koji
AU - Borgwardt, Karsten
AU - Lewis, Cathryn M.
AU - Erhardt-Lehmann, Angelika
AU - Hemmer, Bernhard
AU - Rieckmann, Peter
AU - Daake, Markus
AU - Weber, Frank
AU - Wolf, Christiane
AU - Ziegler, Andreas
AU - Pütz, Benno
AU - Holsboer, Florian
AU - Schölkopf, Bernhard
AU - Müller-Myhsok, Bertram
N1 - Funding Information:
This work was funded in part by the Max Planck Society. Support through the German ministry for Education and Research (BMBF) through the NGFN (Moods—01GS08145 to BMM) and the project Control-MS within the German Competence Network Multiple Sclerosis (KKNMS) is gratefully acknowledged. KT is supported by MEXT Kakenhi 21680025 and the FIRST program.
PY - 2011/4
Y1 - 2011/4
N2 - Detection of epistatic interaction between loci has been postulated to provide a more in-depth understanding of the complex biological and biochemical pathways underlying human diseases. Studying the interaction between two loci is the natural progression following traditional and well-established single locus analysis. However, the added costs and time duration required for the computation involved have thus far deterred researchers from pursuing a genome-wide analysis of epistasis. In this paper, we propose a method allowing such analysis to be conducted very rapidly. The method, dubbed EPIBLASTER, is applicable to case-control studies and consists of a two-step process in which the difference in Pearson's correlation coefficients is computed between controls and cases across all possible SNP pairs as an indication of significant interaction warranting further analysis. For the subset of interactions deemed potentially significant, a second-stage analysis is performed using the likelihood ratio test from the logistic regression to obtain the P-value for the estimated coefficients of the individual effects and the interaction term. The algorithm is implemented using the parallel computational capability of commercially available graphical processing units to greatly reduce the computation time involved. In the current setup and example data sets (211 cases, 222 controls, 299468 SNPs; and 601 cases, 825 controls, 291095 SNPs), this coefficient evaluation stage can be completed in roughly 1 day. Our method allows for exhaustive and rapid detection of significant SNP pair interactions without imposing significant marginal effects of the single loci involved in the pair.
AB - Detection of epistatic interaction between loci has been postulated to provide a more in-depth understanding of the complex biological and biochemical pathways underlying human diseases. Studying the interaction between two loci is the natural progression following traditional and well-established single locus analysis. However, the added costs and time duration required for the computation involved have thus far deterred researchers from pursuing a genome-wide analysis of epistasis. In this paper, we propose a method allowing such analysis to be conducted very rapidly. The method, dubbed EPIBLASTER, is applicable to case-control studies and consists of a two-step process in which the difference in Pearson's correlation coefficients is computed between controls and cases across all possible SNP pairs as an indication of significant interaction warranting further analysis. For the subset of interactions deemed potentially significant, a second-stage analysis is performed using the likelihood ratio test from the logistic regression to obtain the P-value for the estimated coefficients of the individual effects and the interaction term. The algorithm is implemented using the parallel computational capability of commercially available graphical processing units to greatly reduce the computation time involved. In the current setup and example data sets (211 cases, 222 controls, 299468 SNPs; and 601 cases, 825 controls, 291095 SNPs), this coefficient evaluation stage can be completed in roughly 1 day. Our method allows for exhaustive and rapid detection of significant SNP pair interactions without imposing significant marginal effects of the single loci involved in the pair.
UR - http://www.scopus.com/inward/record.url?scp=79952740772&partnerID=8YFLogxK
U2 - 10.1038/ejhg.2010.196
DO - 10.1038/ejhg.2010.196
M3 - Journal articles
C2 - 21150885
AN - SCOPUS:79952740772
SN - 1018-4813
VL - 19
SP - 465
EP - 471
JO - European Journal of Human Genetics
JF - European Journal of Human Genetics
IS - 4
ER -