Of central importance in the dissection of the components that govern complex traits is understanding the architecture of natural genetic variation. Genetic interaction, or epistasis, constitutes one aspect of this, but epistatic analysis has been largely avoided in genome wide association studies because of statistical and computational difficulties. This thesis explores both issues in the context of two-locus interactions. Initially, through simulation and deterministic calculations it was demonstrated that not only can epistasis maintain deleterious mutations at intermediate frequencies when under selection, but that it may also have a role in the maintenance of additive variance. Based on the epistatic patterns that are evolutio...
Complex traits can be attributed to the effect of two or more genes and their interaction with each ...
Interactions between genetic variants—epistasis—is pervasive in model systems and can profoundly imp...
The origins of complex, heritable traits -- such as familial risk for cancer, diabetes, and neuropsy...
© 2016 Dr. Benjamin William GoudeyIn the last decade, single nucleotide polymorphisms (SNPs) have be...
Genome-wide association studies have been instrumental in identifying genetic variants associated wi...
Genome-wide association studies (GWAS) have been extensively critiqued for their perceived inability...
Over the last few years, main effect genetic association analysis has proven to be a successful tool...
Genome-wide association studies (GWAS) have been extensively critiqued for their perceived inability...
Non-additive interaction between genetic variants, or epistasis, is a possible explanation for the g...
International audienceDuring the past decade, findings of genome-wide association studies (GWAS) imp...
Background: The difficulty in elucidating the genetic basis of complex diseases roots in the many f...
Identification of genetic loci in complex traits has focused largely on one-dimensional genome scans...
Identification of genetic loci in complex traits has focused largely on one-dimensional genome scans...
Studies in model organisms suggest that epistasis may play an important role in the etiology of comp...
Epistasis-nonlinear genetic interactions between polymorphic loci-is the genetic basis of canalizati...
Complex traits can be attributed to the effect of two or more genes and their interaction with each ...
Interactions between genetic variants—epistasis—is pervasive in model systems and can profoundly imp...
The origins of complex, heritable traits -- such as familial risk for cancer, diabetes, and neuropsy...
© 2016 Dr. Benjamin William GoudeyIn the last decade, single nucleotide polymorphisms (SNPs) have be...
Genome-wide association studies have been instrumental in identifying genetic variants associated wi...
Genome-wide association studies (GWAS) have been extensively critiqued for their perceived inability...
Over the last few years, main effect genetic association analysis has proven to be a successful tool...
Genome-wide association studies (GWAS) have been extensively critiqued for their perceived inability...
Non-additive interaction between genetic variants, or epistasis, is a possible explanation for the g...
International audienceDuring the past decade, findings of genome-wide association studies (GWAS) imp...
Background: The difficulty in elucidating the genetic basis of complex diseases roots in the many f...
Identification of genetic loci in complex traits has focused largely on one-dimensional genome scans...
Identification of genetic loci in complex traits has focused largely on one-dimensional genome scans...
Studies in model organisms suggest that epistasis may play an important role in the etiology of comp...
Epistasis-nonlinear genetic interactions between polymorphic loci-is the genetic basis of canalizati...
Complex traits can be attributed to the effect of two or more genes and their interaction with each ...
Interactions between genetic variants—epistasis—is pervasive in model systems and can profoundly imp...
The origins of complex, heritable traits -- such as familial risk for cancer, diabetes, and neuropsy...