A Bayesian approach to analyze complex traits is presented that can help plant eneticists and breeders in exploiting the marker and phenotypic data on pedigreed populations as available from ongoing breeding programs. The statistical model for the quantitative trait may include non-genetic and genetic components. The latter component can be divided into QTL on known marker linkage groups, major genes and a polygenic component. The full probability model, prior assumptions on model variables are presented and criterion for model selection and posterior inferences are given. Simulated data on a known pedigreed population structure of the EU project HiDRAS was used to illustrate the use of the Bayesian approach to analyze complex traits. It wa...
In the past decade plant geneticists began using complex plant populations to identify QTL by associ...
Most important agronomic and quality traits of crops are quantitative in nature. The genetic variati...
Key message - Proof of concept of Bayesian integrated QTL analyses across pedigree-related families ...
QTL mapping experiments in plant breeding may involve multiple populations or pedigrees that are rel...
Augmentation of marker genotypes for ungenotyped individuals is implemented in a Bayesian approach v...
The development of quantitative trait locus (QTL) mapping in diploid species has evolved from QTL ma...
Quantitative Trait Locus (QTL) mapping in polyploids is complicated by the un-observable parental QT...
Abstract: The endosperm of plants is a major source of food, feed and industrial raw materials. The ...
We describe four extensions to existing Bayesian methods for the analysis of genetic structure in po...
Variance components must be obtained to estimate genetic parameters and predict breeding values. Thi...
The empirical evidence accumulated to date indicates that the genetic architecture of the different ...
The genetic architecture of a trait is defined by the set of genes contributing to genetic variation...
Two outlines for mixed model based approaches to quantitative trait locus (QTL) mapping in existing ...
The global aim of this dissertation is to develop advanced statistical modeling to understand the ge...
Two outlines for mixed model based approaches to quantitative trait locus (QTL) mapping in existing ...
In the past decade plant geneticists began using complex plant populations to identify QTL by associ...
Most important agronomic and quality traits of crops are quantitative in nature. The genetic variati...
Key message - Proof of concept of Bayesian integrated QTL analyses across pedigree-related families ...
QTL mapping experiments in plant breeding may involve multiple populations or pedigrees that are rel...
Augmentation of marker genotypes for ungenotyped individuals is implemented in a Bayesian approach v...
The development of quantitative trait locus (QTL) mapping in diploid species has evolved from QTL ma...
Quantitative Trait Locus (QTL) mapping in polyploids is complicated by the un-observable parental QT...
Abstract: The endosperm of plants is a major source of food, feed and industrial raw materials. The ...
We describe four extensions to existing Bayesian methods for the analysis of genetic structure in po...
Variance components must be obtained to estimate genetic parameters and predict breeding values. Thi...
The empirical evidence accumulated to date indicates that the genetic architecture of the different ...
The genetic architecture of a trait is defined by the set of genes contributing to genetic variation...
Two outlines for mixed model based approaches to quantitative trait locus (QTL) mapping in existing ...
The global aim of this dissertation is to develop advanced statistical modeling to understand the ge...
Two outlines for mixed model based approaches to quantitative trait locus (QTL) mapping in existing ...
In the past decade plant geneticists began using complex plant populations to identify QTL by associ...
Most important agronomic and quality traits of crops are quantitative in nature. The genetic variati...
Key message - Proof of concept of Bayesian integrated QTL analyses across pedigree-related families ...