The assessment of gene–environment interaction (G × E) has become a major focus for scientists in the field of modern epidemiology. Ideally, for estimating G × E interaction from an epidemiological case-control study, one would have data on both exposure to environmental risk factors collected via ques-tionnaire and genotypes for a disease susceptibility gene deter-mined from genomic DNA. However, one often encounter
Genetic and environmental factors are both known to contribute to susceptibility to complex diseases...
Genetic epidemiology is a relatively new discipline that studies the interaction between genetic and...
The idea that both genetic and environmental influences contribute to behavioral outcomes is widely ...
The assessment of gene–environment interaction (G × E) has become a major focus for scientists in th...
Genetic epidemiology is increasingly focused on the study of common diseases with both genetic and e...
It is a commonly held belief that most complex diseases (e.g., diabetes, asthma, cancer) are affecte...
Cancer risk is determined by a complex interplay of genetic and environmental factors. Genome-wide a...
Complex trait variation is likely to be explained by the combined effects of genes, environmental fa...
Cancer risk is determined by a complex interplay of genetic and environmental factors. Genome-wide a...
As a result of the Human Genome Project, epidemiologists can study thousands of genes and their inte...
Recently, many new approaches, study designs, and statistical and analytical methods have emerged fo...
The interest in performing gene-environment interaction studies has seen a significant increase with...
The content is solely the responsibility of the authors and does not necessarily represent the offic...
peer reviewedThe interest in performing gene-environment interaction studies has seen a significant ...
[[abstract]]Despite the importance of gene-environment (G x E) interactions in the etiology of commo...
Genetic and environmental factors are both known to contribute to susceptibility to complex diseases...
Genetic epidemiology is a relatively new discipline that studies the interaction between genetic and...
The idea that both genetic and environmental influences contribute to behavioral outcomes is widely ...
The assessment of gene–environment interaction (G × E) has become a major focus for scientists in th...
Genetic epidemiology is increasingly focused on the study of common diseases with both genetic and e...
It is a commonly held belief that most complex diseases (e.g., diabetes, asthma, cancer) are affecte...
Cancer risk is determined by a complex interplay of genetic and environmental factors. Genome-wide a...
Complex trait variation is likely to be explained by the combined effects of genes, environmental fa...
Cancer risk is determined by a complex interplay of genetic and environmental factors. Genome-wide a...
As a result of the Human Genome Project, epidemiologists can study thousands of genes and their inte...
Recently, many new approaches, study designs, and statistical and analytical methods have emerged fo...
The interest in performing gene-environment interaction studies has seen a significant increase with...
The content is solely the responsibility of the authors and does not necessarily represent the offic...
peer reviewedThe interest in performing gene-environment interaction studies has seen a significant ...
[[abstract]]Despite the importance of gene-environment (G x E) interactions in the etiology of commo...
Genetic and environmental factors are both known to contribute to susceptibility to complex diseases...
Genetic epidemiology is a relatively new discipline that studies the interaction between genetic and...
The idea that both genetic and environmental influences contribute to behavioral outcomes is widely ...