We propose a family-based association test, FBAT-PC, for studies with quantitative traits that are measured repeatedly. The traits may be influenced by partially or completely unknown factors that may vary for each measurement. Using generalized principal component analysis, FBAT-PC amplifies the genetic effects of each measurement by constructing an overall phenotype with maximal heritability. Analytically, and in the simulation studies, we compare FBAT-PC with standard methodology and assess both the heritability of the overall phenotype and the power of FBAT-PC. Compared to univariate analysis, FBAT-PC achieves power gains of up to 200%. Applications of FBAT-PC to an osteoporosis study and to an asthma study show the practical relevance ...
Family-based association studies are commonly used in genetic research because they can be robust to...
International audienceMany human traits are highly correlated. This correlation can be leveraged to ...
Association studies test for genetic variation influencing disease risk. We explore here the applica...
In the present article, we address family-based association tests (FBATs) for quantitative traits. W...
For genetic association studies with multiple phenotypes, we propose a new strategy for multiple tes...
For genetic association studies with multiple phenotypes, we propose a new strategy for multiple tes...
For genetic association studies with multiple phenotypes, we propose a new strategy for multiple tes...
The availability of a large number of dense SNPs, high-throughput genotyping and computation methods...
Association mapping based on family studies can identify genes that influence complex human traits w...
In this paper we propose a multivariate extension of family-based association tests based on general...
We introduce a new powerful nonparametric testing strategy for family-based association studies in w...
In this paper we propose a multivariate extension of family-based association tests based on general...
We use likelihood-based score statistics to test for association between a disease and a diallelic p...
Joint analysis of multiple phenotypes can increase statistical power in genetic association studies....
For genome-wide association studies in family-based designs, we propose a new, universally applicabl...
Family-based association studies are commonly used in genetic research because they can be robust to...
International audienceMany human traits are highly correlated. This correlation can be leveraged to ...
Association studies test for genetic variation influencing disease risk. We explore here the applica...
In the present article, we address family-based association tests (FBATs) for quantitative traits. W...
For genetic association studies with multiple phenotypes, we propose a new strategy for multiple tes...
For genetic association studies with multiple phenotypes, we propose a new strategy for multiple tes...
For genetic association studies with multiple phenotypes, we propose a new strategy for multiple tes...
The availability of a large number of dense SNPs, high-throughput genotyping and computation methods...
Association mapping based on family studies can identify genes that influence complex human traits w...
In this paper we propose a multivariate extension of family-based association tests based on general...
We introduce a new powerful nonparametric testing strategy for family-based association studies in w...
In this paper we propose a multivariate extension of family-based association tests based on general...
We use likelihood-based score statistics to test for association between a disease and a diallelic p...
Joint analysis of multiple phenotypes can increase statistical power in genetic association studies....
For genome-wide association studies in family-based designs, we propose a new, universally applicabl...
Family-based association studies are commonly used in genetic research because they can be robust to...
International audienceMany human traits are highly correlated. This correlation can be leveraged to ...
Association studies test for genetic variation influencing disease risk. We explore here the applica...