Generalization of DNA microarray dispersion properties: microarray equivalent of t-distributionReport as inadecuate

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Biology Direct

, 1:27

First Online: 07 September 2006Received: 01 September 2006Accepted: 07 September 2006


BackgroundDNA microarrays are a powerful technology that can provide a wealth of gene expression data for disease studies, drug development, and a wide scope of other investigations. Because of the large volume and inherent variability of DNA microarray data, many new statistical methods have been developed for evaluating the significance of the observed differences in gene expression. However, until now little attention has been given to the characterization of dispersion of DNA microarray data.

ResultsHere we examine the expression data obtained from 682 Affymetrix GeneChips with 22 different types and we demonstrate that the Gaussian normal frequency distribution is characteristic for the variability of gene expression values. However, typically 5 to 15% of the samples deviate from normality. Furthermore, it is shown that the frequency distributions of the difference of expression in subsets of ordered, consecutive pairs of genes consecutive samples in pair-wise comparisons of replicate experiments are also normal. We describe a consecutive sampling method, which is employed to calculate the characteristic function approximating standard deviation and show that the standard deviation derived from the consecutive samples is equivalent to the standard deviation obtained from individual genes. Finally, we determine the boundaries of probability intervals and demonstrate that the coefficients defining the intervals are independent of sample characteristics, variability of data, laboratory conditions and type of chips. These coefficients are very closely correlated with Student-s t- distribution.

ConclusionIn this study we ascertained that the non-systematic variations possess Gaussian distribution, determined the probability intervals and demonstrated that the Kαcoefficients defining these intervals are invariant; these coefficients offer a convenient universal measure of dispersion of data. The fact that the Kαdistributions are so close to t- distribution and independent of conditions and type of arrays suggests that the quantitative data provided by Affymetrix technology give -true- representation of physical processes, involved in measurement of RNA abundance.

ReviewersThis article was reviewed by Yoav Gilad nominated by Doron Lancet, Sach Mukherjee nominated by Sandrine Dudoit and Amir Niknejad and Shmuel Friedland nominated by Neil Smalheiser.

Electronic supplementary materialThe online version of this article doi:10.1186-1745-6150-1-27 contains supplementary material, which is available to authorized users.

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