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Multiplex profiling of developmental cis-regulatory elements with quantitative single-cell expression reporters.

Jean-Beno Æt LalanneSamuel G RegaladoSilvia DomckeDiego CalderonBeth K MartinXiaoyi LiTony LiChase C SuiterCholi LeeCole TrapnellJay Shendure
Published in: Nature methods (2024)
The inability to scalably and precisely measure the activity of developmental cis-regulatory elements (CREs) in multicellular systems is a bottleneck in genomics. Here we develop a dual RNA cassette that decouples the detection and quantification tasks inherent to multiplex single-cell reporter assays. The resulting measurement of reporter expression is accurate over multiple orders of magnitude, with a precision approaching the limit set by Poisson counting noise. Together with RNA barcode stabilization via circularization, these scalable single-cell quantitative expression reporters provide high-contrast readouts, analogous to classic in situ assays but entirely from sequencing. Screening >200 regions of accessible chromatin in a multicellular in vitro model of early mammalian development, we identify 13 (8 previously uncharacterized) autonomous and cell-type-specific developmental CREs. We further demonstrate that chimeric CRE pairs generate cognate two-cell-type activity profiles and assess gain- and loss-of-function multicellular expression phenotypes from CRE variants with perturbed transcription factor binding sites. Single-cell quantitative expression reporters can be applied in developmental and multicellular systems to quantitatively characterize native, perturbed and synthetic CREs at scale, with high sensitivity and at single-cell resolution.
Keyphrases
  • single cell
  • high throughput
  • rna seq
  • poor prognosis
  • transcription factor
  • binding protein
  • magnetic resonance
  • gene expression
  • crispr cas
  • dna damage
  • working memory
  • cell therapy
  • air pollution
  • genome wide
  • heat shock