CyTOF workflow: differential discovery in high-throughput high-dimensional cytometry datasets [version 1; referees: 2 approved]

CyTOF workflow: differential discovery in high-throughput high-dimensional cytometry datasets [version 1; referees: 2 approved]

High dimensional mass and flow cytometry (HDCyto) experiments have become a method of choice for high throughput interrogation and characterization of cell populations.Here, we present an R-based pipeline for differential analyses of HDCyto data, largely based on Bioconductor packages. We computatio...

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Main Authors: Malgorzata Nowicka, Carsten Krieg, Lukas M. Weber, Felix J. Hartmann, Silvia Guglietta, Burkhard Becher, Mitchell P. Levesque, Mark D. Robinson
Format: Article
Language:English
Published: F1000 Research Ltd 2017-05-01
Series:F1000Research
Subjects:
Bioinformatics
Biomacromolecule-Ligand Interactions
Cell Signaling
Cell Signaling & Trafficking Structures
Chemical Biology of the Cell
Membranes & Sorting
Nuclear Structure & Function
Online Access:https://f1000research.com/articles/6-748/v1
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spelling doaj-3342771be9604f75942922a14f971e282020-11-25T02:59:28ZengF1000 Research LtdF1000Research2046-14022017-05-01610.12688/f1000research.11622.112553CyTOF workflow: differential discovery in high-throughput high-dimensional cytometry datasets [version 1; referees: 2 approved]Malgorzata Nowicka0Carsten Krieg1Lukas M. Weber2Felix J. Hartmann3Silvia Guglietta4Burkhard Becher5Mitchell P. Levesque6Mark D. Robinson7SIB Swiss Institute of Bioinformatics, University of Zurich, Zurich, 8057, SwitzerlandInstitute of Experimental Immunology, University of Zurich, Zurich, 8057, SwitzerlandSIB Swiss Institute of Bioinformatics, University of Zurich, Zurich, 8057, SwitzerlandInstitute of Experimental Immunology, University of Zurich, Zurich, 8057, SwitzerlandDepartment of Experimental Oncology, European Institute of Oncology, Via Adamello 16, Milan, I-20139, ItalyInstitute of Experimental Immunology, University of Zurich, Zurich, 8057, SwitzerlandDepartment of Dermatology, University Hospital Zurich, Zurich, CH-8091, SwitzerlandSIB Swiss Institute of Bioinformatics, University of Zurich, Zurich, 8057, SwitzerlandHigh dimensional mass and flow cytometry (HDCyto) experiments have become a method of choice for high throughput interrogation and characterization of cell populations.Here, we present an R-based pipeline for differential analyses of HDCyto data, largely based on Bioconductor packages. We computationally define cell populations using FlowSOM clustering, and facilitate an optional but reproducible strategy for manual merging of algorithm-generated clusters. Our workflow offers different analysis paths, including association of cell type abundance with a phenotype or changes in signaling markers within specific subpopulations, or differential analyses of aggregated signals. Importantly, the differential analyses we show are based on regression frameworks where the HDCyto data is the response; thus, we are able to model arbitrary experimental designs, such as those with batch effects, paired designs and so on. In particular, we apply generalized linear mixed models to analyses of cell population abundance or cell-population-specific analyses of signaling markers, allowing overdispersion in cell count or aggregated signals across samples to be appropriately modeled. To support the formal statistical analyses, we encourage exploratory data analysis at every step, including quality control (e.g. multi-dimensional scaling plots), reporting of clustering results (dimensionality reduction, heatmaps with dendrograms) and differential analyses (e.g. plots of aggregated signals).https://f1000research.com/articles/6-748/v1BioinformaticsBiomacromolecule-Ligand InteractionsCell SignalingCell Signaling & Trafficking StructuresChemical Biology of the CellMembranes & SortingNuclear Structure & Function
collection DOAJ
language English
format Article
sources DOAJ
author Malgorzata Nowicka
Carsten Krieg
Lukas M. Weber
Felix J. Hartmann
Silvia Guglietta
Burkhard Becher
Mitchell P. Levesque
Mark D. Robinson
spellingShingle Malgorzata Nowicka
Carsten Krieg
Lukas M. Weber
Felix J. Hartmann
Silvia Guglietta
Burkhard Becher
Mitchell P. Levesque
Mark D. Robinson
CyTOF workflow: differential discovery in high-throughput high-dimensional cytometry datasets [version 1; referees: 2 approved]
F1000Research
Bioinformatics
Biomacromolecule-Ligand Interactions
Cell Signaling
Cell Signaling & Trafficking Structures
Chemical Biology of the Cell
Membranes & Sorting
Nuclear Structure & Function
author_facet Malgorzata Nowicka
Carsten Krieg
Lukas M. Weber
Felix J. Hartmann
Silvia Guglietta
Burkhard Becher
Mitchell P. Levesque
Mark D. Robinson
author_sort Malgorzata Nowicka
title CyTOF workflow: differential discovery in high-throughput high-dimensional cytometry datasets [version 1; referees: 2 approved]
title_short CyTOF workflow: differential discovery in high-throughput high-dimensional cytometry datasets [version 1; referees: 2 approved]
title_full CyTOF workflow: differential discovery in high-throughput high-dimensional cytometry datasets [version 1; referees: 2 approved]
title_fullStr CyTOF workflow: differential discovery in high-throughput high-dimensional cytometry datasets [version 1; referees: 2 approved]
title_full_unstemmed CyTOF workflow: differential discovery in high-throughput high-dimensional cytometry datasets [version 1; referees: 2 approved]
title_sort cytof workflow: differential discovery in high-throughput high-dimensional cytometry datasets [version 1; referees: 2 approved]
publisher F1000 Research Ltd
series F1000Research
issn 2046-1402
publishDate 2017-05-01
description High dimensional mass and flow cytometry (HDCyto) experiments have become a method of choice for high throughput interrogation and characterization of cell populations.Here, we present an R-based pipeline for differential analyses of HDCyto data, largely based on Bioconductor packages. We computationally define cell populations using FlowSOM clustering, and facilitate an optional but reproducible strategy for manual merging of algorithm-generated clusters. Our workflow offers different analysis paths, including association of cell type abundance with a phenotype or changes in signaling markers within specific subpopulations, or differential analyses of aggregated signals. Importantly, the differential analyses we show are based on regression frameworks where the HDCyto data is the response; thus, we are able to model arbitrary experimental designs, such as those with batch effects, paired designs and so on. In particular, we apply generalized linear mixed models to analyses of cell population abundance or cell-population-specific analyses of signaling markers, allowing overdispersion in cell count or aggregated signals across samples to be appropriately modeled. To support the formal statistical analyses, we encourage exploratory data analysis at every step, including quality control (e.g. multi-dimensional scaling plots), reporting of clustering results (dimensionality reduction, heatmaps with dendrograms) and differential analyses (e.g. plots of aggregated signals).
topic Bioinformatics
Biomacromolecule-Ligand Interactions
Cell Signaling
Cell Signaling & Trafficking Structures
Chemical Biology of the Cell
Membranes & Sorting
Nuclear Structure & Function
url https://f1000research.com/articles/6-748/v1
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