BACKGROUND: SNP genotyping microarrays have revolutionized the study of complex disease. The current range of commercially available genotyping products contain extensive catalogues of low frequency and rare variants. Existing SNP calling algorithms have difficulty dealing with these low frequency variants, as the underlying models rely on each genotype having a reasonable number of observations to ensure accurate clustering. RESULTS: Here we develop KRLMM, a new method for converting raw intensities into genotype calls that aims to overcome this issue. Our method is unique in that it applies careful between sample normalization and allows a variable number of clusters k (1, 2 or 3) for each SNP, where k is predicted using the available dat...
Background: Along with the improvement of high throughput sequencing technologies, the genetics comm...
Motivation: Modern strategies for mapping disease loci require efficient genotyping of a large numbe...
We present a novel method for simultaneous genotype calling and haplotype-phase inference. Our metho...
Motivation: Next-generation genotyping microarrays have been designed with insights from 1000 Genome...
Summary: Genotype calling from high throughput platforms such as Illumina and Affymetrix is a critic...
Summary: Genotype calling from high-throughput platforms such as Illumina and Affymetrix is a critic...
Illumina's Infinium SNP BeadChips are extensively used in both small and large-scale genetic studies...
M3-S: a genotype calling method incorporating information from samples with known genotypes Gengxin ...
Genotype microarrays assay hundreds of thousands of genetic variants on an individual's genome. The ...
Motivation: Large-scale genotyping relies on the use of unsuper-vised automated calling algorithms t...
∗ These authors contributed equally to this work Large-scale genotyping of Single Nucleotide Polymor...
High-throughput SNP genotyping platforms use automated genotype calling algorithms to assign genotyp...
Next-generation sequencing is revolutionising in genetics, where base-by base information for the wh...
MOTIVATION: Large-scale genotyping relies on the use of unsupervised automated calling algorithms to...
MOTIVATION: Given the current costs of next-generation sequencing, large studies carry out low-cover...
Background: Along with the improvement of high throughput sequencing technologies, the genetics comm...
Motivation: Modern strategies for mapping disease loci require efficient genotyping of a large numbe...
We present a novel method for simultaneous genotype calling and haplotype-phase inference. Our metho...
Motivation: Next-generation genotyping microarrays have been designed with insights from 1000 Genome...
Summary: Genotype calling from high throughput platforms such as Illumina and Affymetrix is a critic...
Summary: Genotype calling from high-throughput platforms such as Illumina and Affymetrix is a critic...
Illumina's Infinium SNP BeadChips are extensively used in both small and large-scale genetic studies...
M3-S: a genotype calling method incorporating information from samples with known genotypes Gengxin ...
Genotype microarrays assay hundreds of thousands of genetic variants on an individual's genome. The ...
Motivation: Large-scale genotyping relies on the use of unsuper-vised automated calling algorithms t...
∗ These authors contributed equally to this work Large-scale genotyping of Single Nucleotide Polymor...
High-throughput SNP genotyping platforms use automated genotype calling algorithms to assign genotyp...
Next-generation sequencing is revolutionising in genetics, where base-by base information for the wh...
MOTIVATION: Large-scale genotyping relies on the use of unsupervised automated calling algorithms to...
MOTIVATION: Given the current costs of next-generation sequencing, large studies carry out low-cover...
Background: Along with the improvement of high throughput sequencing technologies, the genetics comm...
Motivation: Modern strategies for mapping disease loci require efficient genotyping of a large numbe...
We present a novel method for simultaneous genotype calling and haplotype-phase inference. Our metho...