BMC Genomics (Dec 2023)

High-capacity sample multiplexing for single cell chromatin accessibility profiling

  • Gregory T. Booth,
  • Riza M. Daza,
  • Sanjay R. Srivatsan,
  • José L. McFaline-Figueroa,
  • Rula Green Gladden,
  • Andrew C. Mullen,
  • Scott N. Furlan,
  • Jay Shendure,
  • Cole Trapnell

DOI
https://doi.org/10.1186/s12864-023-09832-1
Journal volume & issue
Vol. 24, no. 1
pp. 1 – 23

Abstract

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Abstract Single-cell chromatin accessibility has emerged as a powerful means of understanding the epigenetic landscape of diverse tissues and cell types, but profiling cells from many independent specimens is challenging and costly. Here we describe a novel approach, sciPlex-ATAC-seq, which uses unmodified DNA oligos as sample-specific nuclear labels, enabling the concurrent profiling of chromatin accessibility within single nuclei from virtually unlimited specimens or experimental conditions. We first demonstrate our method with a chemical epigenomics screen, in which we identify drug-altered distal regulatory sites predictive of compound- and dose-dependent effects on transcription. We then analyze cell type-specific chromatin changes in PBMCs from multiple donors responding to synthetic and allogeneic immune stimulation. We quantify stimulation-altered immune cell compositions and isolate the unique effects of allogeneic stimulation on chromatin accessibility specific to T-lymphocytes. Finally, we observe that impaired global chromatin decondensation often coincides with chemical inhibition of allogeneic T-cell activation.

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