Apart from parent-offspring pairs and clones, relative pairs vary in the proportion of the genome that they share identical by descent. In the past, quantitative geneticists have used the expected value of sharing genes by descent to estimate genetic parameters and predict breeding values. With the possibility to genotype individuals for many markers across the genome it is now possible to empirically estimate the actual relationship between relatives. We review some of the theory underlying the variation in genetic identity, show applications to estimating genetic variance for height in humans and discuss other applications
Measuring genetic relatedness is fundamental to many applications of human genomics. Genetic related...
The genetic analysis of quantitative traits in humans is changing as a result of the availability of...
Attributing the similarity between individuals to genetic and non-genetic factors is central to gene...
Apart from parent-offspring pairs and clones, relative pairs vary in the proportion of the genome th...
The study of continuously varying, quantitative traits is important in evolutionary biology, agricul...
The study of continuously varying, quantitative traits is important in evolutionary biology, agricul...
The study of continuously varying, quantitative traits is important in evolutionary biology, agricul...
Height has been used for more than a century as a model by which to understand quantitative genetic ...
Height has been used for more than a century as a model by which to understand quantitative genetic ...
Height has been used for more than a century as a model by which to understand quantitative genetic ...
Abstract: The genetic analysis of quantitative or complex traits has been based mainly on statistica...
We estimate and partition genetic variation for height, body mass index (BMI), von Willebrand factor...
Quantitative genetics is primarily concerned with two subjects: the correlation between relatives an...
The concept of genetic identity-by-descent (IBD) has markedly advanced our understanding of the gene...
Height has been studied in human genetics since the late 1800s. We review what we have learned about...
Measuring genetic relatedness is fundamental to many applications of human genomics. Genetic related...
The genetic analysis of quantitative traits in humans is changing as a result of the availability of...
Attributing the similarity between individuals to genetic and non-genetic factors is central to gene...
Apart from parent-offspring pairs and clones, relative pairs vary in the proportion of the genome th...
The study of continuously varying, quantitative traits is important in evolutionary biology, agricul...
The study of continuously varying, quantitative traits is important in evolutionary biology, agricul...
The study of continuously varying, quantitative traits is important in evolutionary biology, agricul...
Height has been used for more than a century as a model by which to understand quantitative genetic ...
Height has been used for more than a century as a model by which to understand quantitative genetic ...
Height has been used for more than a century as a model by which to understand quantitative genetic ...
Abstract: The genetic analysis of quantitative or complex traits has been based mainly on statistica...
We estimate and partition genetic variation for height, body mass index (BMI), von Willebrand factor...
Quantitative genetics is primarily concerned with two subjects: the correlation between relatives an...
The concept of genetic identity-by-descent (IBD) has markedly advanced our understanding of the gene...
Height has been studied in human genetics since the late 1800s. We review what we have learned about...
Measuring genetic relatedness is fundamental to many applications of human genomics. Genetic related...
The genetic analysis of quantitative traits in humans is changing as a result of the availability of...
Attributing the similarity between individuals to genetic and non-genetic factors is central to gene...