Abstract 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 corre-lation between true (simulated) and predicted genetic val-ues, was similar for all models compared under different genetic backgrounds. ...
Advances in DNA sequencing technologies allow us to genotype most of the genetic variants and invest...
Recent advances in molecular genetic techniques will make dense marker maps available and genotyping...
Studies involving the effects of single genes on quantitative traits may involve closed populations,...
International audienceGenetic prediction for complex traits is usually based on models including ind...
Genetic prediction for complex traits is usually based on models including individual (infinitesimal...
<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 ...
The study of genetic architecture of complex traits has been dramatically influenced by implementing...
Existing genetic prediction tools typically assume that genetic variants contribute equally towards ...
The mixed model of segregation analysis specifies major gene effects and partitions the residual var...
Genetic Analysis Workshop 14 simulated data have been analyzed with MASC(marker association segregat...
<div><p>We established a genomic model of quantitative trait with genomic additive and dominance rel...
We established a genomic model of quantitative trait with genomic additive and dominance relationshi...
Methodology for mapping quantitative trait loci (QTL) has focused primarily on treating the QTL as a...
Advances in DNA sequencing technologies allow us to genotype most of the genetic variants and invest...
Recent advances in molecular genetic techniques will make dense marker maps available and genotyping...
Studies involving the effects of single genes on quantitative traits may involve closed populations,...
International audienceGenetic prediction for complex traits is usually based on models including ind...
Genetic prediction for complex traits is usually based on models including individual (infinitesimal...
<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 ...
The study of genetic architecture of complex traits has been dramatically influenced by implementing...
Existing genetic prediction tools typically assume that genetic variants contribute equally towards ...
The mixed model of segregation analysis specifies major gene effects and partitions the residual var...
Genetic Analysis Workshop 14 simulated data have been analyzed with MASC(marker association segregat...
<div><p>We established a genomic model of quantitative trait with genomic additive and dominance rel...
We established a genomic model of quantitative trait with genomic additive and dominance relationshi...
Methodology for mapping quantitative trait loci (QTL) has focused primarily on treating the QTL as a...
Advances in DNA sequencing technologies allow us to genotype most of the genetic variants and invest...
Recent advances in molecular genetic techniques will make dense marker maps available and genotyping...
Studies involving the effects of single genes on quantitative traits may involve closed populations,...