DNA microarrays are part of a new and promising class of biotechnologies that allow the monitoring of expression levels in cells for thousands of genes simultaneously. An important and common question in DNA microarray experiments is the identification of differentially expressed genes, that is, genes whose expression levels are associated with a response or covariate of interest. The biological question of differential expression can be restated as a problem in multiple hypothesis testing: the simultaneous test for each gene of the null hypothesis of no association between the expression levels and the responses or covariates. As a typical microarray experiment measures expression levels for thousands of genes simultaneously, large multiplicity problems are generated. This article discusses different approaches to multiple hypothesis testing in the context of DNA microarray experiments and compares the procedures on microarray and simulated data sets.
Publié le : 2003-02-14
Classification:
Multiple hypothesis testing,
adjusted p-value,
family-wise Type I error rate,
false discovery rate,
permutation,
DNA microarray.
@article{1056397487,
author = {Dudoit, Sandrine and Shaffer, Juliet Popper and Boldrick, Jennifer C.},
title = {Multiple Hypothesis Testing in Microarray Experiments},
journal = {Statist. Sci.},
volume = {18},
number = {1},
year = {2003},
pages = { 71-103},
language = {en},
url = {http://dml.mathdoc.fr/item/1056397487}
}
Dudoit, Sandrine; Shaffer, Juliet Popper; Boldrick, Jennifer C. Multiple Hypothesis Testing in Microarray Experiments. Statist. Sci., Tome 18 (2003) no. 1, pp. 71-103. http://gdmltest.u-ga.fr/item/1056397487/