Genetic prediction for complex traits is usually based on models including individual (infinitesimal) or marker effects. Here, we concentrate on models including both the individual and the marker effects. In particular, we develop a ''Mendelian segregation'' model combining infinitesimal effects for base individuals and realized Mendelian sampling in descendants described by the available DNA data. The model is illustrated with an example and the analyses of a public simulated data file. Further, the potential contribution of such models is assessed by simulation. Accuracy, measured as the correlation between true (simulated) and predicted genetic values, was similar for all models compared under different genetic backgrounds. As expected,...
BACKGROUND: In silico models have recently been created in order to predict which genetic variants a...
Heritability is a central parameter in quantitative genetics, from both an evolutionary and a breedi...
The functional characterization of genes involved in many complex traits (phenotypes) of plants, ani...
Abstract Genetic prediction for complex traits is usually based on models including individual (infi...
<div><p>We developed a marker based infinitesimal model for quantitative trait analysis. In contrast...
We developed a marker based infinitesimal model for quantitative trait analysis. In contrast to the ...
We developed a marker based infinitesimal model for quantitative trait analysis. In contrast to the ...
Existing genetic prediction tools typically assume that genetic variants contribute equally towards ...
The study of genetic architecture of complex traits has been dramatically influenced by implementing...
Genome-wide association studies have helped us identify a wealth of genetic variants associated with...
<div><p>Despite important advances from Genome Wide Association Studies (GWAS), for most complex hum...
Our focus here is on the infinitesimal model. In this model, one or several quantitative traits are ...
Traditional approach delineates the genetic analysis of quantitative or complex traits had been dep...
Heritability is a central parameter in quantitative genetics, both from an evolutionary and a breedi...
Prediction of phenotypes from genotypes is an important objective to fulfill the promises of genomic...
BACKGROUND: In silico models have recently been created in order to predict which genetic variants a...
Heritability is a central parameter in quantitative genetics, from both an evolutionary and a breedi...
The functional characterization of genes involved in many complex traits (phenotypes) of plants, ani...
Abstract Genetic prediction for complex traits is usually based on models including individual (infi...
<div><p>We developed a marker based infinitesimal model for quantitative trait analysis. In contrast...
We developed a marker based infinitesimal model for quantitative trait analysis. In contrast to the ...
We developed a marker based infinitesimal model for quantitative trait analysis. In contrast to the ...
Existing genetic prediction tools typically assume that genetic variants contribute equally towards ...
The study of genetic architecture of complex traits has been dramatically influenced by implementing...
Genome-wide association studies have helped us identify a wealth of genetic variants associated with...
<div><p>Despite important advances from Genome Wide Association Studies (GWAS), for most complex hum...
Our focus here is on the infinitesimal model. In this model, one or several quantitative traits are ...
Traditional approach delineates the genetic analysis of quantitative or complex traits had been dep...
Heritability is a central parameter in quantitative genetics, both from an evolutionary and a breedi...
Prediction of phenotypes from genotypes is an important objective to fulfill the promises of genomic...
BACKGROUND: In silico models have recently been created in order to predict which genetic variants a...
Heritability is a central parameter in quantitative genetics, from both an evolutionary and a breedi...
The functional characterization of genes involved in many complex traits (phenotypes) of plants, ani...