Statistical Analysis of Relative Labeled Mass Spectrometry Data from Complex Samples Using ANOVA

Abstract: Statistical tools enable unified analysis of data from multiple global proteomic experiments, producing unbiased estimates of normalization terms despite the missing data problem inherent in these studies. The modeling approach, implementation and useful visualization tools are demonstrated via case study of complex biological samples assessed using the iTRAQ™ relative labeling protocol. KeywordsProteomics; ANOVA; iTRAQ™; Normalization; relative labeling protocol; Missing data; GaussSiedel; Backfitting; Fixed … Show more

“…27 To identify proteins most significantly changed in abundance between normal and expanded Htt complexes, we used statistical analysis of variance (ANOVA) approach, which considers both biologic and experimental sources of variability. Relative peptide and protein abundances were estimated based on collected reporter ion peak areas from all observed tandem mass spectra using linear mixed effects models [34][35][36] (and Herbrich et al in preparation). This allows to correct for different amount of material loaded in the channels (as a random effect) and enables a comparison between the relative protein abundances (as random effects), comparing proteins present within expanded and normal Htt complexes.…”

“…Relative peptide and protein abundances were estimated based on collected reporter ion peak areas from all observed tandem mass spectra using linear mixed effects models 34,35 (and Herbrich et al manuscript in preparation). Multiple comparisons were addressed by controlling the family-wise error rate via Bonferroni correction.…”

Huntingtin protein interactions altered by polyglutamine expansion as determined by quantitative proteomic analysis

“…27 To identify proteins most significantly changed in abundance between normal and expanded Htt complexes, we used statistical analysis of variance (ANOVA) approach, which considers both biologic and experimental sources of variability. Relative peptide and protein abundances were estimated based on collected reporter ion peak areas from all observed tandem mass spectra using linear mixed effects models [34][35][36] (and Herbrich et al in preparation). This allows to correct for different amount of material loaded in the channels (as a random effect) and enables a comparison between the relative protein abundances (as random effects), comparing proteins present within expanded and normal Htt complexes.…”

“…Relative peptide and protein abundances were estimated based on collected reporter ion peak areas from all observed tandem mass spectra using linear mixed effects models 34,35 (and Herbrich et al manuscript in preparation). Multiple comparisons were addressed by controlling the family-wise error rate via Bonferroni correction.…”

Huntingtin protein interactions altered by polyglutamine expansion as determined by quantitative proteomic analysis

“…For example, Jain et al 18 state that extremely large outlying expression values can result in poorly powered tests of differential expression, while chance occurrences of genes with similar expression patterns across replicates can lead to increased false positive rates. To mitigate these potential problems 10 , they propose the use of a locally pooled error estimate for their gene-specific differential expression analyses, while Tusher et al 19 add a constant to all error estimates in their popular 'Statistical Analysis of Microarrays' method. For proteomics applications, analysis of proteins one at a time may alleviate some of the computational burden, in particular when combining data across iTRAQ experiments.…”

“…The GPS software calculates the average ratio, GM i , for protein i as (9) where j = 1,...,J i and GM i is the geometric mean of the peptide ratios. The standard deviation of the J i peptide ratios, SD i , for protein i is calculated by the GPS software as (10) where sd i is the standard deviation of the log peptide ratios, {log(X j )}.…”

“…Specifically, a denominator is selected by the user from among the four tags, peptide ratios subsequently are constructed for each tag pair (three in all), and the corresponding protein ratios and standard deviations are calculated from these peptide ratios based on Equations (9) and (10). Typically, GPS software normalizes peptide ratios prior to protein quantitation based on the assumption that the majority of ratios are equal to one.…”

A Statistical Model for iTRAQ Data Analysis

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