Add to ORKGNext-generation sequencing technologies are making it possible to study the role of rare variants in human disease. Many studies balance statistical power with cost-effectiveness by (a) sampling from phenotypic extremes and (b) utilizing a two-stage design. Two-stage designs include a broad-based discovery phase and selection of a subset of potential causal genes/variants to be further examined in independent samples. We evaluate three parameters: first, the gain in statistical power due to extreme sampling to discover causal variants; second, the informativeness of initial (Phase I) association statistics to select genes/variants for follow-up; third, the impact of extreme and random sampling in (Phase 2) replication. We present a quantita...
<p>500 simulations were based on haplotype distribution for each of 13 deep sequenced candidate gene...
Rapid advances in sequencing technologies set the stage for the large-scale medical sequencing effor...
There is solid evidence that complex traits can be caused by rare variants. Next-generation sequenci...
Next-generation sequencing technologies are making it possible to study the role of rare variants in...
Next-generation sequencing technology provides an unprecedented opportunity to identify rare suscept...
The role of rare variants in complex disease is hotly debated, but the design of genetic association...
Abstract Use of trait-dependent sampling designs in whole-genome association studies o...
Abstract Use of trait-dependent sampling designs in whole-genome association studies o...
Genome and exome sequencing in large cohorts enables characterization of the role of rare variation ...
Genome and exome sequencing in large cohorts enables characterization of the role of rare variation ...
Genome and exome sequencing in large cohorts enables characterization of the role of rare variation ...
Genome and exome sequencing in large cohorts enables characterization of the role of rare variation ...
Next-generation sequencing technology has made it possible to detect rare genetic variants associate...
<div><p>Genome and exome sequencing in large cohorts enables characterization of the role of rare va...
Group 14 of Genetic Analysis Workshop 17 examined several issues related to analysis of complex trai...
<p>500 simulations were based on haplotype distribution for each of 13 deep sequenced candidate gene...
Rapid advances in sequencing technologies set the stage for the large-scale medical sequencing effor...
There is solid evidence that complex traits can be caused by rare variants. Next-generation sequenci...
Next-generation sequencing technologies are making it possible to study the role of rare variants in...
Next-generation sequencing technology provides an unprecedented opportunity to identify rare suscept...
The role of rare variants in complex disease is hotly debated, but the design of genetic association...
Abstract Use of trait-dependent sampling designs in whole-genome association studies o...
Abstract Use of trait-dependent sampling designs in whole-genome association studies o...
Genome and exome sequencing in large cohorts enables characterization of the role of rare variation ...
Genome and exome sequencing in large cohorts enables characterization of the role of rare variation ...
Genome and exome sequencing in large cohorts enables characterization of the role of rare variation ...
Genome and exome sequencing in large cohorts enables characterization of the role of rare variation ...
Next-generation sequencing technology has made it possible to detect rare genetic variants associate...
<div><p>Genome and exome sequencing in large cohorts enables characterization of the role of rare va...
Group 14 of Genetic Analysis Workshop 17 examined several issues related to analysis of complex trai...
<p>500 simulations were based on haplotype distribution for each of 13 deep sequenced candidate gene...
Rapid advances in sequencing technologies set the stage for the large-scale medical sequencing effor...
There is solid evidence that complex traits can be caused by rare variants. Next-generation sequenci...