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Testing for Trends in Dose-Response Microarray Experiments: A Comparison of Several Testing Procedures, Multiplicity and Resampling-Based Inference

Author

Listed:
  • Lin Dan

    (Hasselt University)

  • Shkedy Ziv

    (Hasselt University)

  • Yekutieli Dani

    (Tel Aviv University)

  • Burzykowski Tomasz

    (Hasselt University)

  • Göhlmann Hinrich W.H.

    (Johnson & Johnson PRD)

  • De Bondt An

    (Johnson & Johnson PRD)

  • Perera Tim

    (Johnson & Johnson PRD)

  • Geerts Tamara

    (Johnson & Johnson PRD)

  • Bijnens Luc

    (Johnson & Johnson PRD)

Abstract

Dose-response studies are commonly used in experiments in pharmaceutical research in order to investigate the dependence of the response on dose, i.e., a trend of the response level toxicity with respect to dose. In this paper we focus on dose-response experiments within a microarray setting in which several microarrays are available for a sequence of increasing dose levels. A gene is called differentially expressed if there is a monotonic trend (with respect to dose) in the gene expression. We review several testing procedures which can be used in order to test equality among the gene expression means against ordered alternatives with respect to dose, namely Williams' (Williams 1971 and 1972), Marcus' (Marcus 1976), global likelihood ratio test (Bartholomew 1961, Barlow et al. 1972, and Robertson et al. 1988), and M (Hu et al. 2005) statistics. Additionally we introduce a modification to the standard error of the M statistic. We compare the performance of these five test statistics. Moreover, we discuss the issue of one-sided versus two-sided testing procedures. False Discovery Rate (Benjamni and Hochberg 1995, Ge et al. 2003), and resampling-based Familywise Error Rate (Westfall and Young 1993) are used to handle the multiple testing issue. The methods above are applied to a data set with 4 doses (3 arrays per dose) and 16,998 genes. Results on the number of significant genes from each statistic are discussed. A simulation study is conducted to investigate the power of each statistic. A R library IsoGene implementing the methods is available from the first author.

Suggested Citation

  • Lin Dan & Shkedy Ziv & Yekutieli Dani & Burzykowski Tomasz & Göhlmann Hinrich W.H. & De Bondt An & Perera Tim & Geerts Tamara & Bijnens Luc, 2007. "Testing for Trends in Dose-Response Microarray Experiments: A Comparison of Several Testing Procedures, Multiplicity and Resampling-Based Inference," Statistical Applications in Genetics and Molecular Biology, De Gruyter, vol. 6(1), pages 1-28, October.
    • Handle: RePEc:bpj:sagmbi:v:6:y:2007:i:1:n:26
    DOI: 10.2202/1544-6115.1283
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    Citations

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    Cited by:

    1. Sweeney Elizabeth & Crainiceanu Ciprian & Gertheiss Jan, 2016. "Testing differentially expressed genes in dose-response studies and with ordinal phenotypes," Statistical Applications in Genetics and Molecular Biology, De Gruyter, vol. 15(3), pages 213-235, June.
    2. Wenge Guo & Sanat K. Sarkar & Shyamal D. Peddada, 2010. "Controlling False Discoveries in Multidimensional Directional Decisions, with Applications to Gene Expression Data on Ordered Categories," Biometrics, The International Biometric Society, vol. 66(2), pages 485-492, June.
    3. Conde David & Salvador Bonifacio & Rueda Cristina & Fernández Miguel A., 2013. "Performance and estimation of the true error rate of classification rules built with additional information. An application to a cancer trial," Statistical Applications in Genetics and Molecular Biology, De Gruyter, vol. 12(5), pages 583-602, October.

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