Cell Reports (Apr 2020)

A Targeted Multi-omic Analysis Approach Measures Protein Expression and Low-Abundance Transcripts on the Single-Cell Level

  • Florian Mair,
  • Jami R. Erickson,
  • Valentin Voillet,
  • Yannick Simoni,
  • Timothy Bi,
  • Aaron J. Tyznik,
  • Jody Martin,
  • Raphael Gottardo,
  • Evan W. Newell,
  • Martin Prlic

Journal volume & issue
Vol. 31, no. 1

Abstract

Read online

Summary: High-throughput single-cell RNA sequencing (scRNA-seq) has become a frequently used tool to assess immune cell heterogeneity. Recently, the combined measurement of RNA and protein expression was developed, commonly known as cellular indexing of transcriptomes and epitopes by sequencing (CITE-seq). Acquisition of protein expression data along with transcriptome data resolves some of the limitations inherent to only assessing transcripts but also nearly doubles the sequencing read depth required per single cell. Furthermore, there is still a paucity of analysis tools to visualize combined transcript-protein datasets. Here, we describe a targeted transcriptomics approach that combines an analysis of over 400 genes with simultaneous measurement of over 40 proteins on 2 × 104 cells in a single experiment. This targeted approach requires only about one-tenth of the read depth compared to a whole-transcriptome approach while retaining high sensitivity for low abundance transcripts. To analyze these multi-omic datasets, we adapted one-dimensional soli expression by nonlinear stochastic embedding (One-SENSE) for intuitive visualization of protein-transcript relationships on a single-cell level. : Mair et al. describe a targeted transcriptomics approach combined with surface protein measurement to capture immune cell heterogeneity at a low sequencing depth. One-SENSE is used as a visualization tool to intuitively explore the relationship of protein and transcript expression on the single-cell level. Keywords: single-cell RNA sequencing, multi-omic, AbSeq, high-dimensional cytometry, human immunology, One-SENSE, targeted transcriptomics, barcoded antibody, Rhapsody