Inaccurate genetic ( or linkage ) maps can reduce the power to detect linkage, increase type I error, and distort haplotype and relationship inference. To improve the accuracy of existing maps, I propose a meta-analysis-based method that combines independent map estimates into a single estimate of the linkage map. The method uses the variance of each independent map estimate to combine them efficiently, whether the map estimates use the same set of markers or not. As compared with a joint analysis of the pooled genotype data, the proposed method is attractive for three reasons: (1) it has comparable efficiency to the maximum likelihood map estimate when the pooled data are homogeneous; (2) relative to existing map estimation methods, it can...
Increasing availability of large whole genome sequencing and genomics data have brought both opportu...
We present the results of a simulation study that indicate that true haplotypes at multiple, tightly...
The estimation of genetic linkage maps is a key component in plant and animal research, providing bo...
As a result of previous large, multipoint linkage studies there is a substantial amount of existing ...
Background: Accurate genetic maps are required for successful and efficient linkage mapping of disea...
Abstract Background Accurate genetic maps are require...
Ambitious programs have recently been advocated or launched to create genomewide databases for meta-...
The identification of genes contributing to complex diseases and quantitative traits requires geneti...
The ratio of male and female genetic map distances varies dramatically across the human genome. Desp...
This paper describes a novel combination of techniques for the construction of dense genetic linkage...
It is well known that genotyping errors lead to loss of power in gene-mapping studies and underestim...
Genetic linkage analysis entails estimating the distance between two genes on a chromosome using gen...
SummaryTo refine the location of a disease gene within the bounds provided by linkage analysis, many...
We present the results of a simulation study that indicate that true haplotypes at multiple, tightly...
Meta-analysis is an important tool in linkage analysis. The pooling of results across primary linkag...
Increasing availability of large whole genome sequencing and genomics data have brought both opportu...
We present the results of a simulation study that indicate that true haplotypes at multiple, tightly...
The estimation of genetic linkage maps is a key component in plant and animal research, providing bo...
As a result of previous large, multipoint linkage studies there is a substantial amount of existing ...
Background: Accurate genetic maps are required for successful and efficient linkage mapping of disea...
Abstract Background Accurate genetic maps are require...
Ambitious programs have recently been advocated or launched to create genomewide databases for meta-...
The identification of genes contributing to complex diseases and quantitative traits requires geneti...
The ratio of male and female genetic map distances varies dramatically across the human genome. Desp...
This paper describes a novel combination of techniques for the construction of dense genetic linkage...
It is well known that genotyping errors lead to loss of power in gene-mapping studies and underestim...
Genetic linkage analysis entails estimating the distance between two genes on a chromosome using gen...
SummaryTo refine the location of a disease gene within the bounds provided by linkage analysis, many...
We present the results of a simulation study that indicate that true haplotypes at multiple, tightly...
Meta-analysis is an important tool in linkage analysis. The pooling of results across primary linkag...
Increasing availability of large whole genome sequencing and genomics data have brought both opportu...
We present the results of a simulation study that indicate that true haplotypes at multiple, tightly...
The estimation of genetic linkage maps is a key component in plant and animal research, providing bo...