Add to ORKGwhich permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Background. Epistatic miniarray profile (EMAP) studies have enabled the mapping of large-scale genetic interaction networks and generated large amounts of data in model organisms. One approach to analyze EMAP data is to identify gene modules with densely interacting genes. In addition, genetic interaction score
Global quantitative analysis of genetic interactions provides a powerful approach for deciphering th...
We investigate a variety of methods to first discover and then understand genetic interactions. Begi...
Genetic interactions describe how the presence of one gene affects the function of a second gene. Ne...
Background. Epistatic miniarray profile (EMAP) studies have enabled the mapping of large-scale genet...
Recent technological developments in genetic screening approaches have offered the means to start ex...
Epistasis Miniarray Profiles(EMAP) has enabled the mapping of large-scale genetic interaction networ...
Background: Epistatic Miniarray Profiles (EMAP) enable the research of genetic interaction as an imp...
Researchers in biological sciences nowadays often encounter the curse of high-dimensionality. A seri...
Large-scale epistasis studies can give new clues to system-level genetic mechanisms and a better und...
A popular large-scale gene interaction discovery platform is the Epistatic Miniarray Profile (E-MAP)...
Motivation: Epistatic or genetic interactions, representing the effects of mutating one gene on the ...
Genome-wide association studies can potentially unravel the mechanisms behind complex traits and com...
Motivation: Genetic interaction measures how different genes collectively contribute to a phenotype,...
Epistasis, refers to the phenomenon, in which the phenotypic effect of one gene depends on or is mod...
Extraction of all the biological information inherent in large-scale genetic interaction datasets re...
Global quantitative analysis of genetic interactions provides a powerful approach for deciphering th...
We investigate a variety of methods to first discover and then understand genetic interactions. Begi...
Genetic interactions describe how the presence of one gene affects the function of a second gene. Ne...
Background. Epistatic miniarray profile (EMAP) studies have enabled the mapping of large-scale genet...
Recent technological developments in genetic screening approaches have offered the means to start ex...
Epistasis Miniarray Profiles(EMAP) has enabled the mapping of large-scale genetic interaction networ...
Background: Epistatic Miniarray Profiles (EMAP) enable the research of genetic interaction as an imp...
Researchers in biological sciences nowadays often encounter the curse of high-dimensionality. A seri...
Large-scale epistasis studies can give new clues to system-level genetic mechanisms and a better und...
A popular large-scale gene interaction discovery platform is the Epistatic Miniarray Profile (E-MAP)...
Motivation: Epistatic or genetic interactions, representing the effects of mutating one gene on the ...
Genome-wide association studies can potentially unravel the mechanisms behind complex traits and com...
Motivation: Genetic interaction measures how different genes collectively contribute to a phenotype,...
Epistasis, refers to the phenomenon, in which the phenotypic effect of one gene depends on or is mod...
Extraction of all the biological information inherent in large-scale genetic interaction datasets re...
Global quantitative analysis of genetic interactions provides a powerful approach for deciphering th...
We investigate a variety of methods to first discover and then understand genetic interactions. Begi...
Genetic interactions describe how the presence of one gene affects the function of a second gene. Ne...