Eravci Murat, Mansmann Ulrich, Broedel Oliver, Weist Stephanie, Buetow Sandra, Wittke Janosch, Brunkau Cindy, Hummel Manuela, Eravci Selda, Baumgartner Andreas
Department of Radiology and Nuclear Medicine, Charité Universitätsmedizin, Campus Benjamin Franklin, Berlin, Germany.
J Proteome Res. 2009 May;8(5):2601-7. doi: 10.1021/pr800532f.
We performed quantitative comparisons with the two-dimensional gel electrophoresis technique and evaluated the reliability of biostatistical tests for the correction of "false significant" results (alpha-error) by performing repeated runs of an experiment. Results based on uncorrected p-values yielded numerous significant differences in spot intensity which could not be replicated in two additional runs. The best strategy for avoiding these "false-positive" results was strongly dependent on the type of result. In experiments yielding very marked group differences in spot intensity, calculation of the "False Discovery Rate" (FDR) by the Benjamini and Hochberg method corrected the results with sufficient reliability. In experiments yielding relatively small (p-values>0.001) group differences, up to 100% of all results which were significant in two repeated runs were excluded ("false-negative") by calculation of the FDR. In such experiments, significant differences need confirmation by repeated runs.
我们使用二维凝胶电泳技术进行了定量比较,并通过重复进行实验来评估生物统计学检验对“假阳性”结果(α错误)校正的可靠性。基于未校正p值的结果在斑点强度上产生了许多显著差异,而在另外两次重复实验中无法重现。避免这些“假阳性”结果的最佳策略很大程度上取决于结果的类型。在斑点强度产生非常明显的组间差异的实验中,采用Benjamini和Hochberg方法计算“错误发现率”(FDR)能够以足够的可靠性校正结果。在产生相对较小(p值>0.001)组间差异的实验中,通过计算FDR,在两次重复实验中显著的所有结果中高达100%被排除(“假阴性”)。在这类实验中,显著差异需要通过重复实验来确认。