Assessment of Data Processing to Improve Reliability of Microarray Experiments using Genomic DNA Reference
Background: Using genomic DNA as common reference in microarray experiments has recently been tested by different laboratories. Conflicting results have been reported with regard to the reliability of microarray results using this method. To explain it, we hypothesize that data processing is a critical element that impacts the data quality. Results: Microarray experiments were performed in a γ-proteobacterium Shewanella oneidensis. Pair-wise comparison of three experimental conditions was obtained either with two labeled cDNA samples co-hybridized to the same array, or by employing Shewanella genomic DNA as a standard reference. Various data processing techniques were exploited to reduce the amount of inconsistency between both methods and the results were assessed. We discovered that data quality was significantly improved by imposing the constraint of minimal number of replicates, logarithmic transformation and random error analyses. Conclusion: These findings demonstrate that data processing significantly influences data quality, which provides an explanation for the conflicting evaluation in the literature. This work could serve as a guideline for microarray data analysis using genomic DNA as a standard reference.
MSU Digital Commons Citation
Yang, Yunfeng; Zhu, Michelle; Wu, Liyou; and Zhou, Jizhong, "Assessment of Data Processing to Improve Reliability of Microarray Experiments using Genomic DNA Reference" (2008). Department of Computer Science Faculty Scholarship and Creative Works. 128.