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Removing Batch Effects from Longitudinal Gene Expression - Quantile Normalization Plus ComBat as Best Approach for Microarray Transcriptome Data
Removing Batch Effects from Longitudinal Gene Expression - Quantile Normalization Plus ComBat as Best Approach for Microarray Transcriptome Data
by Proust, Carole , Ziegler, Andreas , Schnabel, Renate B. , Pfeiffer, Norbert , Müller, Christian , Zeller, Tanja , Binder, Harald , Schillert, Arne , Röthemeier, Caroline , Lackner, Karl J. , Blankenberg, Stefan , Trégouët, David-Alexandre , Tiret, Laurence , Beutel, Manfred , Wild, Philipp S.
in Adult / Aged / Bioinformatics / Biological effects / Biology and Life Sciences / Biometrics / Body mass / Body mass index / Body size / Cardiology / DNA microarrays / Female / Gene expression / Gene Expression Profiling - methods / Genomics / Heart / Human health and pathology / Humans / Laboratories / Life Sciences / Longitudinal Studies / Male / Middle Aged / Monocytes / Monocytes - chemistry / Nonlinear Dynamics / Nutrition / Oligonucleotide Array Sequence Analysis - methods / Physical Sciences / Physiological aspects / Preventive medicine / Principal Component Analysis / Principal components analysis / Prospective Studies / Regression analysis / Research and analysis methods / Sampling methods / Studies / Variability / Variation
2016
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Removing Batch Effects from Longitudinal Gene Expression - Quantile Normalization Plus ComBat as Best Approach for Microarray Transcriptome Data
by Proust, Carole , Ziegler, Andreas , Schnabel, Renate B. , Pfeiffer, Norbert , Müller, Christian , Zeller, Tanja , Binder, Harald , Schillert, Arne , Röthemeier, Caroline , Lackner, Karl J. , Blankenberg, Stefan , Trégouët, David-Alexandre , Tiret, Laurence , Beutel, Manfred , Wild, Philipp S.
in Adult / Aged / Bioinformatics / Biological effects / Biology and Life Sciences / Biometrics / Body mass / Body mass index / Body size / Cardiology / DNA microarrays / Female / Gene expression / Gene Expression Profiling - methods / Genomics / Heart / Human health and pathology / Humans / Laboratories / Life Sciences / Longitudinal Studies / Male / Middle Aged / Monocytes / Monocytes - chemistry / Nonlinear Dynamics / Nutrition / Oligonucleotide Array Sequence Analysis - methods / Physical Sciences / Physiological aspects / Preventive medicine / Principal Component Analysis / Principal components analysis / Prospective Studies / Regression analysis / Research and analysis methods / Sampling methods / Studies / Variability / Variation
2016
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Removing Batch Effects from Longitudinal Gene Expression - Quantile Normalization Plus ComBat as Best Approach for Microarray Transcriptome Data
Removing Batch Effects from Longitudinal Gene Expression - Quantile Normalization Plus ComBat as Best Approach for Microarray Transcriptome Data
by Proust, Carole , Ziegler, Andreas , Schnabel, Renate B. , Pfeiffer, Norbert , Müller, Christian , Zeller, Tanja , Binder, Harald , Schillert, Arne , Röthemeier, Caroline , Lackner, Karl J. , Blankenberg, Stefan , Trégouët, David-Alexandre , Tiret, Laurence , Beutel, Manfred , Wild, Philipp S.
in Adult / Aged / Bioinformatics / Biological effects / Biology and Life Sciences / Biometrics / Body mass / Body mass index / Body size / Cardiology / DNA microarrays / Female / Gene expression / Gene Expression Profiling - methods / Genomics / Heart / Human health and pathology / Humans / Laboratories / Life Sciences / Longitudinal Studies / Male / Middle Aged / Monocytes / Monocytes - chemistry / Nonlinear Dynamics / Nutrition / Oligonucleotide Array Sequence Analysis - methods / Physical Sciences / Physiological aspects / Preventive medicine / Principal Component Analysis / Principal components analysis / Prospective Studies / Regression analysis / Research and analysis methods / Sampling methods / Studies / Variability / Variation
2016

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Removing Batch Effects from Longitudinal Gene Expression - Quantile Normalization Plus ComBat as Best Approach for Microarray Transcriptome Data
Removing Batch Effects from Longitudinal Gene Expression - Quantile Normalization Plus ComBat as Best Approach for Microarray Transcriptome Data
Journal Article

Removing Batch Effects from Longitudinal Gene Expression - Quantile Normalization Plus ComBat as Best Approach for Microarray Transcriptome Data

Proust, Carole,
Ziegler, Andreas,
Schnabel, Renate B.,
Pfeiffer, Norbert,
Müller, Christian,
Zeller, Tanja,
Binder, Harald,
Schillert, Arne,
Röthemeier, Caroline,
Lackner, Karl J.,
Blankenberg, Stefan,
Trégouët, David-Alexandre,
Tiret, Laurence,
Beutel, Manfred,
Wild, Philipp S.
2016
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Overview
Technical variation plays an important role in microarray-based gene expression studies, and batch effects explain a large proportion of this noise. It is therefore mandatory to eliminate technical variation while maintaining biological variability. Several strategies have been proposed for the removal of batch effects, although they have not been evaluated in large-scale longitudinal gene expression data. In this study, we aimed at identifying a suitable method for batch effect removal in a large study of microarray-based longitudinal gene expression. Monocytic gene expression was measured in 1092 participants of the Gutenberg Health Study at baseline and 5-year follow up. Replicates of selected samples were measured at both time points to identify technical variability. Deming regression, Passing-Bablok regression, linear mixed models, non-linear models as well as ReplicateRUV and ComBat were applied to eliminate batch effects between replicates. In a second step, quantile normalization prior to batch effect correction was performed for each method. Technical variation between batches was evaluated by principal component analysis. Associations between body mass index and transcriptomes were calculated before and after batch removal. Results from association analyses were compared to evaluate maintenance of biological variability. Quantile normalization, separately performed in each batch, combined with ComBat successfully reduced batch effects and maintained biological variability. ReplicateRUV performed perfectly in the replicate data subset of the study, but failed when applied to all samples. All other methods did not substantially reduce batch effects in the replicate data subset. Quantile normalization plus ComBat appears to be a valuable approach for batch correction in longitudinal gene expression data.
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Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject

Adult

/ Aged

/ Bioinformatics

/ Biological effects

/ Biology and Life Sciences

/ Biometrics

/ Body mass

/ Body mass index

/ Body size

/ Cardiology

/ DNA microarrays

/ Female

/ Gene expression

/ Gene Expression Profiling - methods

/ Genomics

/ Heart

/ Human health and pathology

/ Humans

/ Laboratories

/ Life Sciences

/ Longitudinal Studies

/ Male

/ Middle Aged

/ Monocytes

/ Monocytes - chemistry

/ Nonlinear Dynamics

/ Nutrition

/ Oligonucleotide Array Sequence Analysis - methods

/ Physical Sciences

/ Physiological aspects

/ Preventive medicine

/ Principal Component Analysis

/ Principal components analysis

/ Prospective Studies

/ Regression analysis

/ Research and analysis methods

/ Sampling methods

/ Studies

/ Variability

/ Variation

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