Genome-wide association studies (GWAS) for complex disorders with large case-control populations have been performed on hundreds of traits in more than 1200 published studies (http://www.genome.gov/gwastudies/) but the variants detected by GWAS account for little of the heritability of these traits, leading to an increasing interest in using family based designs. While GWAS studies are designed to find common variants with low to moderate attributable risks, family based studies are expected to find rare variants with high attributable risk. Because family-based designs can better control both genetic and environmental background, this study design is robust to heterogeneity and population stratification. Moreover, in family-based analysis,...
High-throughput sequencing technology allows researchers to test associations between phenotypes and...
The Human Genome Project and its spin-offs are making it increasingly feasible to determine the gene...
Advances in high-throughput sequencing technologies are transforming the landscape of biomedical res...
In the last 2 years, the effort to identify genes affecting common diseases and complex traits has b...
Large numbers of control individuals with genome-wide genotype data are now available through variou...
Large numbers of control individuals with genome-wide genotype data are now available through variou...
Contains fulltext : 87223.pdf (publisher's version ) (Closed access)Large numbers ...
Complex human diseases are a major challenge for biological research. The goal of my research is to ...
The importance of genetic determinants and risk factors of diseases has been consistently recognized...
Genome-wide association studies (GWAS) have delivered many novel insights about the etiology of many...
Association mapping has successfully identified common SNPs associated with many diseases. However, ...
The theme of this dissertation is to develop statistical methods for genetic studies with family his...
© 2016 The Author(s). Both population-based and family-based designs are commonly used in genetic as...
The advent of genotyping and sequencing technologies has enabled human genetics to discover numerous...
In the past decade, rapid advances in genomic technologies have dramatically changed the genetic stu...
High-throughput sequencing technology allows researchers to test associations between phenotypes and...
The Human Genome Project and its spin-offs are making it increasingly feasible to determine the gene...
Advances in high-throughput sequencing technologies are transforming the landscape of biomedical res...
In the last 2 years, the effort to identify genes affecting common diseases and complex traits has b...
Large numbers of control individuals with genome-wide genotype data are now available through variou...
Large numbers of control individuals with genome-wide genotype data are now available through variou...
Contains fulltext : 87223.pdf (publisher's version ) (Closed access)Large numbers ...
Complex human diseases are a major challenge for biological research. The goal of my research is to ...
The importance of genetic determinants and risk factors of diseases has been consistently recognized...
Genome-wide association studies (GWAS) have delivered many novel insights about the etiology of many...
Association mapping has successfully identified common SNPs associated with many diseases. However, ...
The theme of this dissertation is to develop statistical methods for genetic studies with family his...
© 2016 The Author(s). Both population-based and family-based designs are commonly used in genetic as...
The advent of genotyping and sequencing technologies has enabled human genetics to discover numerous...
In the past decade, rapid advances in genomic technologies have dramatically changed the genetic stu...
High-throughput sequencing technology allows researchers to test associations between phenotypes and...
The Human Genome Project and its spin-offs are making it increasingly feasible to determine the gene...
Advances in high-throughput sequencing technologies are transforming the landscape of biomedical res...