We have recently developed analysis methods (GREML) to estimate the genetic variance of a complex trait/disease and the genetic correlation between two complex traits/diseases using genome-wide single nucleotide polymorphism (SNP) data in unrelated individuals. Here we use analytical derivations and simulations to quantify the sampling variance of the estimate of the proportion of phenotypic variance captured by all SNPs for quantitative traits and case-control studies. We also derive the approximate sampling variance of the estimate of a genetic correlation in a bivariate analysis, when two complex traits are either measured on the same or different individuals. We show that the sampling variance is inversely proportional to the number of ...
For most human complex diseases and traits, SNPs identified by genome-wide association studies (GWAS...
Genome-wide association studies are designed to discover SNPs that are associated with a complex tra...
The proportion of variation in complex traits that can be attributed to non-additive genetic effects...
We have recently developed analysis methods (GREML) to estimate the genetic variance of a complex tr...
The genetic analysis of quantitative traits in humans is changing as a result of the availability of...
One of the central motivators behind genetic research is to understand how genetic variation relates...
For human complex traits, non-additive genetic variation has been invoked to explain “missing herita...
For human complex traits, non-additive genetic variation has been invoked to explain "missing herita...
A major finding from the last decade of genome-wide association studies (GWAS) is that variant-pheno...
Variance-component methods that estimate the aggregate contribution of large sets of variants to the...
Genetic correlations are the genome-wide aggregate effects of causal variants affecting multiple tra...
Genome-wide association studies are designed to discover SNPs that are associated with a complex tra...
Genetic correlations are the genome-wide aggregate effects of causal variants affecting multiple tra...
For most human complex diseases and traits, SNPs identified by genome-wide association studies (GWAS...
Narrow-sense heritability (h(2)) is an important genetic parameter that quantifies the proportion of...
For most human complex diseases and traits, SNPs identified by genome-wide association studies (GWAS...
Genome-wide association studies are designed to discover SNPs that are associated with a complex tra...
The proportion of variation in complex traits that can be attributed to non-additive genetic effects...
We have recently developed analysis methods (GREML) to estimate the genetic variance of a complex tr...
The genetic analysis of quantitative traits in humans is changing as a result of the availability of...
One of the central motivators behind genetic research is to understand how genetic variation relates...
For human complex traits, non-additive genetic variation has been invoked to explain “missing herita...
For human complex traits, non-additive genetic variation has been invoked to explain "missing herita...
A major finding from the last decade of genome-wide association studies (GWAS) is that variant-pheno...
Variance-component methods that estimate the aggregate contribution of large sets of variants to the...
Genetic correlations are the genome-wide aggregate effects of causal variants affecting multiple tra...
Genome-wide association studies are designed to discover SNPs that are associated with a complex tra...
Genetic correlations are the genome-wide aggregate effects of causal variants affecting multiple tra...
For most human complex diseases and traits, SNPs identified by genome-wide association studies (GWAS...
Narrow-sense heritability (h(2)) is an important genetic parameter that quantifies the proportion of...
For most human complex diseases and traits, SNPs identified by genome-wide association studies (GWAS...
Genome-wide association studies are designed to discover SNPs that are associated with a complex tra...
The proportion of variation in complex traits that can be attributed to non-additive genetic effects...