Gene expression can be studied at a genome-wide scale with the aid of modern microarray technologies. Expression profiling of tens to hundreds of individuals in a genetic population can reveal the consequences of genetic variation. In this paper it is argued that the design and analysis of such a study is not a matter of simply applying the existing and more-or-less standard computational tools for microarrays to a new type of experimental data. It is shown how to fully exploit the power of genetics through optimal experimental design and analysis for two major microarray technologies, cDNA two-colour arrays and Affymetrix short oligonucleotide arrays.
The advent of microarray technology has significantly changed the way we can quantitatively measure ...
Disclosures from the genome sequencing projects facilitated the development of novel techniques able...
DNA microarray technology is a new and powerful technology that will substantially increase the spee...
Gene expression can be studied at a genome-wide scale with the aid of modern microarray technologies...
Gene expression microarrays are an innovative technology with enormous promise to help geneticists e...
Microarrays technology reveals an unprecedented view into the biology of DNA. Information science is...
Microarray technology is now widely available and is being applied to address increasingly complex s...
Whole-genome profiling of gene expression in a segregating population has the potential to identify ...
Gene expression profiling measures the relative abundance of a large number of individual mRNA speci...
Introduction Microarray hybridisation experiments are used to measure concentrations of many differ...
Microarrays are powerful tools for surveying the expression levels of many thousands of genes simult...
The advent of molecular technologies that allow the collection and analysis of large amounts of gene...
Microarrays are a powerful method for the global analysis of gene or protein content and expression,...
The last decade provided biologists with wealth of DNA sequence information. This rich resource is n...
Combining global gene-expression profiling and genetic analysis of natural allelic variation (geneti...
The advent of microarray technology has significantly changed the way we can quantitatively measure ...
Disclosures from the genome sequencing projects facilitated the development of novel techniques able...
DNA microarray technology is a new and powerful technology that will substantially increase the spee...
Gene expression can be studied at a genome-wide scale with the aid of modern microarray technologies...
Gene expression microarrays are an innovative technology with enormous promise to help geneticists e...
Microarrays technology reveals an unprecedented view into the biology of DNA. Information science is...
Microarray technology is now widely available and is being applied to address increasingly complex s...
Whole-genome profiling of gene expression in a segregating population has the potential to identify ...
Gene expression profiling measures the relative abundance of a large number of individual mRNA speci...
Introduction Microarray hybridisation experiments are used to measure concentrations of many differ...
Microarrays are powerful tools for surveying the expression levels of many thousands of genes simult...
The advent of molecular technologies that allow the collection and analysis of large amounts of gene...
Microarrays are a powerful method for the global analysis of gene or protein content and expression,...
The last decade provided biologists with wealth of DNA sequence information. This rich resource is n...
Combining global gene-expression profiling and genetic analysis of natural allelic variation (geneti...
The advent of microarray technology has significantly changed the way we can quantitatively measure ...
Disclosures from the genome sequencing projects facilitated the development of novel techniques able...
DNA microarray technology is a new and powerful technology that will substantially increase the spee...