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Multi-Omics of Single Cells: Strategies and Applications

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1 Multi-Omics of Single Cells: Strategies and Applications
Christoph Bock, Matthias Farlik, Nathan C. Sheffield  Trends in Biotechnology  Volume 34, Issue 8, Pages (August 2016) DOI: /j.tibtech Copyright © 2016 The Authors Terms and Conditions

2 Figure 1 Strategies for Multi-Omics Profiling of Single Cells. Conceptual diagram (top) and examples (bottom) showing five complementary strategies for measuring two different omics dimensions (represented by horizontal and vertical lines) in the same cell. The ‘Combine’ approach measures both dimensions in the same experiment (example: protein and metabolite profiles measured by mass spectrometry). The ‘Separate’ approach enriches two types of biomolecule in different fractions and analyzes them in separate experiments (example: DNA and RNA separated with beads). The ‘Split’ approach uses a fraction of the total cell lysate for each experiment (example: RNA and protein analyzed based on different fractions). The ‘Convert’ approach transforms one omics dimension to another and then analyzes the latter (example: DNA methylation and DNA sequence). The computational ‘Predict’ approach measures one omics dimension directly and bioinformatically infers the second based on the data for the first (example: DNA methylation and transcription factor occupancy). Collectively, these approaches provide building blocks that can be adapted and combined to design protocols for integrated analysis of the genome, epigenome, transcriptome, proteome, and/or metabolome of single cells. Trends in Biotechnology  , DOI: ( /j.tibtech ) Copyright © 2016 The Authors Terms and Conditions

3 Figure I Schematic of Multi-Omics Data Analysis and Integration.
Trends in Biotechnology  , DOI: ( /j.tibtech ) Copyright © 2016 The Authors Terms and Conditions

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