Improving DNA array data quality by minimising 'neighbourhood' effects

doi:10.1093/nar/gnf127

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Nucleic Acids Research, 2002, Vol. 30, No. 22 e127
© 2002 Oxford University Press

Improving DNA array data quality by minimising ‘neighbourhood’ effects

Andreas W. Machl, Christoph Schaab and Igor Ivanov^*

GPC Biotech AG, Fraunhoferstrasse 20, D-82152, Planegg/Martinsried, Germany

*To whom correspondence should be addressed. Tel: +49 89 8565 2617; Fax: +49 89 8565 2608; Email: igor.ivanov{at}gpc-biotech.com

Gene expression studies using cDNA arrays require robust andsensitive detection methods. Being extremely sensitive, radioactivedetection suffers from the influence of signals positioned ineach other’s vicinity, the ‘neighbourhood’effect. This limits the gene density of arrays and the qualityof the results obtained. We have investigated the quantitativeinfluence of different parameters on the ‘neighbourhood’effect. By using a model experimental system, we could showthat the effect is linear and depends only on the intensityof the hybridisation signal. We identified a common factor thatcan describe the influence of the neighbour spots based on theirintensities. This factor is <1%, but it has to be taken intoaccount if a high dynamic range of gene expression is to bedetected. We could also derive the factor, although with lessprecision, from comparison of duplicate spots on arrays of 4565different clones and replication of the hybridisation experiments.The calculated coefficient applied to our actual experimentalresults not only revealed previously undetected tissue or cell-specificexpression differences, but also increased the dynamic rangeof detection. It thus provides a relatively simple way of improvingDNA array data quality with few experimental modifications.

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