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Algorithm-driven artifacts in median polish summarization of microarray data.


ABSTRACT: High-throughput measurement of transcript intensities using Affymetrix type oligonucleotide microarrays has produced a massive quantity of data during the last decade. Different preprocessing techniques exist to convert the raw signal intensities measured by these chips into gene expression estimates. Although these techniques have been widely benchmarked in the context of differential gene expression analysis, there are only few examples where their performance has been assessed in respect to coexpression-based studies such as sample classification.In the present paper we benchmark the three most used normalization procedures (MAS5, RMA and GCRMA) in the context of inter-array correlation analysis, confirming and extending the finding that RMA and GCRMA consistently overestimate sample similarity upon normalization. We determine that median polish summarization is responsible for generating a large proportion of these over-similarity artifacts. Furthermore, we show that most affected probesets show also internal signal disagreement, and tend to be composed by individual probes hitting different gene transcripts. We finally provide a correction to the RMA/GCRMA summarization procedure that massively reduces inter-array correlation artifacts, without affecting the detection of differentially expressed genes.We propose tRMA as a modification of RMA to normalize microarray experiments for correlation-based analysis.

SUBMITTER: Giorgi FM 

PROVIDER: S-EPMC2998528 | biostudies-literature | 2010

REPOSITORIES: biostudies-literature

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Algorithm-driven artifacts in median polish summarization of microarray data.

Giorgi Federico M FM   Bolger Anthony M AM   Lohse Marc M   Usadel Bjoern B  

BMC bioinformatics 20101111


<h4>Background</h4>High-throughput measurement of transcript intensities using Affymetrix type oligonucleotide microarrays has produced a massive quantity of data during the last decade. Different preprocessing techniques exist to convert the raw signal intensities measured by these chips into gene expression estimates. Although these techniques have been widely benchmarked in the context of differential gene expression analysis, there are only few examples where their performance has been asses  ...[more]

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