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Review
. 2021 Jan 18;22(1):20-29.
doi: 10.1093/bib/bbaa042.

Computational methods for the integrative analysis of single-cell data

Mattia Forcato  1 Oriana Romano  2 Silvio Bicciato  3
Affiliations
Review

Computational methods for the integrative analysis of single-cell data

Mattia Forcato et al. Brief Bioinform. .

Abstract

Recent advances in single-cell technologies are providing exciting opportunities for dissecting tissue heterogeneity and investigating cell identity, fate and function. This is a pristine, exploding field that is flooding biologists with a new wave of data, each with its own specificities in terms of complexity and information content. The integrative analysis of genomic data, collected at different molecular layers from diverse cell populations, holds promise to address the full-scale complexity of biological systems. However, the combination of different single-cell genomic signals is computationally challenging, as these data are intrinsically heterogeneous for experimental, technical and biological reasons. Here, we describe the computational methods for the integrative analysis of single-cell genomic data, with a focus on the integration of single-cell RNA sequencing datasets and on the joint analysis of multimodal signals from individual cells.

Keywords: bioinformatics; data integration; single cell genomics.

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Figures

Figure 1
Figure 1
Schematic representation of the different types of single-cell data integration scenarios.
See this image and copyright information in PMC

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