Large-scale genome-wide association (GWA) studies using thousands of high-density SNP microarrays are becoming an essential tool in the search for loci related to heritable variation in many phenotypes. However, the cost of GWA remains beyond the reach of many researchers. Fortunately, the majority of statistical power can still be obtained by estimating allele frequencies from DNA pools, reducing the cost to that of tens, rather than thousands of arrays. We present a set of software tools for processing SNPMaP (SNP microarrays and pooling) data from CEL files to Relative Allele Scores in the rich R statistical computing environment. © 2008 The Author(s)
With millions of single-nucleotide polymorphisms (SNPs) identified and characterized, genomewide ass...
Background: Genome-wide association studies have become very popular in identifying genetic contribu...
Population genetics and genomics have developed and been treated as independent fields of study desp...
The identification of quantitative trait loci (QTLs) of small effect size that underlie complex trai...
We report the development and validation of experimental methods, study designs, and analysis softwa...
Background: Genetic influences underpinning complex traits are thought to involve multiple quantitat...
Pooling genomic DNA samples within clinical classes of disease for use in whole-genome single nucleo...
Association mapping aimed at identifying DNA polymorphisms that contribute to variation in complex ...
BACKGROUND: Genotyping technology has advanced such that genome-wide association studies of complex ...
Background: Quantitative trait locus (QTL) theory predicts that genetic influence on complex traits ...
AbstractHigh-throughput genotyping chips have produced huge datasets for genome-wide association stu...
The recent development of microarray platforms, capable to genotype more than thousands of single nu...
In order to provide a high-throughput, large-scale genotyping facility at the national level we have...
Extent: 6p.Background: We report an attempt to extend the previously successful approach of combinin...
The recent advances in genomic technologies, have made it possible to collect large-scale informatio...
With millions of single-nucleotide polymorphisms (SNPs) identified and characterized, genomewide ass...
Background: Genome-wide association studies have become very popular in identifying genetic contribu...
Population genetics and genomics have developed and been treated as independent fields of study desp...
The identification of quantitative trait loci (QTLs) of small effect size that underlie complex trai...
We report the development and validation of experimental methods, study designs, and analysis softwa...
Background: Genetic influences underpinning complex traits are thought to involve multiple quantitat...
Pooling genomic DNA samples within clinical classes of disease for use in whole-genome single nucleo...
Association mapping aimed at identifying DNA polymorphisms that contribute to variation in complex ...
BACKGROUND: Genotyping technology has advanced such that genome-wide association studies of complex ...
Background: Quantitative trait locus (QTL) theory predicts that genetic influence on complex traits ...
AbstractHigh-throughput genotyping chips have produced huge datasets for genome-wide association stu...
The recent development of microarray platforms, capable to genotype more than thousands of single nu...
In order to provide a high-throughput, large-scale genotyping facility at the national level we have...
Extent: 6p.Background: We report an attempt to extend the previously successful approach of combinin...
The recent advances in genomic technologies, have made it possible to collect large-scale informatio...
With millions of single-nucleotide polymorphisms (SNPs) identified and characterized, genomewide ass...
Background: Genome-wide association studies have become very popular in identifying genetic contribu...
Population genetics and genomics have developed and been treated as independent fields of study desp...