Abstract The advent of molecular markers has created opportunities for a better understanding of quantitative inheritance and for developing novel strategies for genetic improvement of agricultural species, using information on quantitative trait loci (QTL). A QTL analysis relies on accurate genetic marker maps. At present, most statistical methods used for map construction ignore the fact that molecular data may be read with error. Often, however, there is ambiguity about some marker genotypes. A Bayesian MCMC approach for inferences about a genetic marker map when random miscoding of genotypes occurs is presented, and simulated and real data sets are analyzed. The results suggest that unless there is strong reason to believe that genotype...
We describe a general statistical framework for the genetic analysis of quantitative trait data in i...
Genomic prediction and quantitative trait loci (QTL) mapping typically analyze one trait at a time b...
In crop plants quantitative variation is a feature of many important traits, such as yield, quality ...
The advent of molecular markers has created opportunities for a better understanding of quantitative...
The analysis of genetic data is complicated by problems of uncertainty in many aspects of the data. ...
A technique is presented whereby a marker map can be constructed using resource family data with an ...
Augmentation of marker genotypes for ungenotyped individuals is implemented in a Bayesian approach v...
Quantitative trait loci (QTL) mapping is one of the applications of statistics in genetics.This diss...
A Bayesian approach is presented for mapping a quantitative trait locus (QTL) using the 'Fernando an...
QTL mapping experiments in plant breeding may involve multiple populations or pedigrees that are rel...
Background: Information for mapping of quantitative trait loci (QTL) comes from two sources: linkage...
Quantitative variation is a feature of many important traits such as yield, quality and disease resi...
Polyploids are species with more than two copies of each chromosome in their genome. These additiona...
<p>Quantitative variation is a feature of many important traits such as yield, quality and dis...
Genetic mapping studies provide improved estimates for novel genomic loci, allelic effects and gene ...
We describe a general statistical framework for the genetic analysis of quantitative trait data in i...
Genomic prediction and quantitative trait loci (QTL) mapping typically analyze one trait at a time b...
In crop plants quantitative variation is a feature of many important traits, such as yield, quality ...
The advent of molecular markers has created opportunities for a better understanding of quantitative...
The analysis of genetic data is complicated by problems of uncertainty in many aspects of the data. ...
A technique is presented whereby a marker map can be constructed using resource family data with an ...
Augmentation of marker genotypes for ungenotyped individuals is implemented in a Bayesian approach v...
Quantitative trait loci (QTL) mapping is one of the applications of statistics in genetics.This diss...
A Bayesian approach is presented for mapping a quantitative trait locus (QTL) using the 'Fernando an...
QTL mapping experiments in plant breeding may involve multiple populations or pedigrees that are rel...
Background: Information for mapping of quantitative trait loci (QTL) comes from two sources: linkage...
Quantitative variation is a feature of many important traits such as yield, quality and disease resi...
Polyploids are species with more than two copies of each chromosome in their genome. These additiona...
<p>Quantitative variation is a feature of many important traits such as yield, quality and dis...
Genetic mapping studies provide improved estimates for novel genomic loci, allelic effects and gene ...
We describe a general statistical framework for the genetic analysis of quantitative trait data in i...
Genomic prediction and quantitative trait loci (QTL) mapping typically analyze one trait at a time b...
In crop plants quantitative variation is a feature of many important traits, such as yield, quality ...