Genetical genomics combines acquired high-throughput genomic data with genetic analysis. In this chapter, we discuss the application of genetical genomics for evolutionary studies, where new high-throughput molecular technologies are combined with mapping quantitative trait loci (QTL) on the genome in segregating populations.The recent explosion of high-throughput data—measuring thousands of proteins and metabolites, deep sequencing, chromatin, and methyl-DNA immunoprecipitation—allows the study of the genetic variation underlying quantitative phenotypes, together termed xQTL. At the same time, mining information is not getting easier. To deal with the sheer amount of information, powerful statistical tools are needed to analyze multidimens...
Abstract: The genetic analysis of quantitative or complex traits has been based mainly on statistica...
This open access book addresses the challenge of analyzing and understanding the evolutionary dynami...
A major challenge in biology is to identify how different species arose and acquired distinct phenot...
Genetical genomics combines acquired high-throughput genomic data with genetic analysis. In this cha...
Systems genetics combines high-throughput genomic data with genetic analysis. In this chapter, we re...
Systems genetics combines high-throughput genomic data with genetic analysis. In this chapter, we re...
A central challenge in evolutionary biology is to identify genes underlying ecologically important t...
Although the term quantitative trait locus (QTL) strictly refers merely to a genetic variant that ca...
Expression quantitative trait locus (eQTL) analysis is rapidly moving from a cutting-edge concept in...
Current technologies for high-throughput molecular profiling of large numbers of genetically differe...
Most characteristics in living organisms show continuous variation, which suggests that they are con...
Advances in DNA sequencing technology have resulted in the ability to generate genetic data at costs...
Combining genetic inheritance information, for both molecular profiles and complex traits, is a prom...
The discovery of expression quantitative trait loci (eQTLs) and their target genes (eGenes) has not ...
AbstractGenome-wide association studies (GWASs) have shown a large number of genetic variants to be ...
Abstract: The genetic analysis of quantitative or complex traits has been based mainly on statistica...
This open access book addresses the challenge of analyzing and understanding the evolutionary dynami...
A major challenge in biology is to identify how different species arose and acquired distinct phenot...
Genetical genomics combines acquired high-throughput genomic data with genetic analysis. In this cha...
Systems genetics combines high-throughput genomic data with genetic analysis. In this chapter, we re...
Systems genetics combines high-throughput genomic data with genetic analysis. In this chapter, we re...
A central challenge in evolutionary biology is to identify genes underlying ecologically important t...
Although the term quantitative trait locus (QTL) strictly refers merely to a genetic variant that ca...
Expression quantitative trait locus (eQTL) analysis is rapidly moving from a cutting-edge concept in...
Current technologies for high-throughput molecular profiling of large numbers of genetically differe...
Most characteristics in living organisms show continuous variation, which suggests that they are con...
Advances in DNA sequencing technology have resulted in the ability to generate genetic data at costs...
Combining genetic inheritance information, for both molecular profiles and complex traits, is a prom...
The discovery of expression quantitative trait loci (eQTLs) and their target genes (eGenes) has not ...
AbstractGenome-wide association studies (GWASs) have shown a large number of genetic variants to be ...
Abstract: The genetic analysis of quantitative or complex traits has been based mainly on statistica...
This open access book addresses the challenge of analyzing and understanding the evolutionary dynami...
A major challenge in biology is to identify how different species arose and acquired distinct phenot...