The problem of identifying complex epistatic quantitative trait loci (QTL) across the entire genome continues to be a formidable challenge for geneticists. The complexity of genome-wide epistatic analysis results mainly from the number of QTL being unknown and the number of possible epistatic effects being huge. In this article, we use a composite model space approach to develop a Bayesian model selection framework for identifying epistatic QTL for complex traits in experimental crosses from two inbred lines. By placing a liberal constraint on the upper bound of the number of detectable QTL we restrict attention to models of fixed dimension, greatly simplifying calculations. Indicators specify which main and epistatic effects of pu...
Although complex diseases and traits are thought to have multifactorial genetic basis, the common me...
A fundamental issue in quantitative trait locus (QTL) mapping is to determine the plausibility of t...
Identification of genetic loci in complex traits has focused largely on one-dimensional genome scans...
We extend our Bayesian model selection framework for mapping epistatic QTL in experimental crosses t...
Epistasis is a common and important phenomenon, as indicated by results from a number of recent expe...
Epistasis is a common and important phenomenon, as indicated by results from a number of recent expe...
Background Recent developments in genetic technology and methodology enable accurate detection of QT...
Abstract A quantitative trait depends on multiple quantitative trait loci (QTL) and on the interacti...
Background We analyzed simulated data from the 14th QTL-MAS workshop using a Bayesian approach imple...
Simultaneous analysis of multiple genetic variants is an essential strategy for understanding geneti...
The discovery of epistatically interacting QTL is hampered by the intractability and low power to de...
A quantitative trait depends on multiple quantitative trait loci (QTL) and on the interaction betwe...
Quantitative trait loci (QTL) experiments have yielded important biological and biochemical informat...
Background - We analyzed simulated data from the 14th QTL-MAS workshop using a Bayesian approach imp...
Although complex diseases and traits are thought to have multifactorial genetic basis, the common me...
Although complex diseases and traits are thought to have multifactorial genetic basis, the common me...
A fundamental issue in quantitative trait locus (QTL) mapping is to determine the plausibility of t...
Identification of genetic loci in complex traits has focused largely on one-dimensional genome scans...
We extend our Bayesian model selection framework for mapping epistatic QTL in experimental crosses t...
Epistasis is a common and important phenomenon, as indicated by results from a number of recent expe...
Epistasis is a common and important phenomenon, as indicated by results from a number of recent expe...
Background Recent developments in genetic technology and methodology enable accurate detection of QT...
Abstract A quantitative trait depends on multiple quantitative trait loci (QTL) and on the interacti...
Background We analyzed simulated data from the 14th QTL-MAS workshop using a Bayesian approach imple...
Simultaneous analysis of multiple genetic variants is an essential strategy for understanding geneti...
The discovery of epistatically interacting QTL is hampered by the intractability and low power to de...
A quantitative trait depends on multiple quantitative trait loci (QTL) and on the interaction betwe...
Quantitative trait loci (QTL) experiments have yielded important biological and biochemical informat...
Background - We analyzed simulated data from the 14th QTL-MAS workshop using a Bayesian approach imp...
Although complex diseases and traits are thought to have multifactorial genetic basis, the common me...
Although complex diseases and traits are thought to have multifactorial genetic basis, the common me...
A fundamental issue in quantitative trait locus (QTL) mapping is to determine the plausibility of t...
Identification of genetic loci in complex traits has focused largely on one-dimensional genome scans...