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High-resolution characterization of gene function using single-cell CRISPR tiling screen

Author

Listed:
  • Lu Yang

    (Beckman Research Institute)

  • Anthony K. N. Chan

    (Beckman Research Institute)

  • Kazuya Miyashita

    (Beckman Research Institute)

  • Christopher D. Delaney

    (Dana-Farber Cancer Institute—Harvard Medical School)

  • Xi Wang

    (Dana-Farber Cancer Institute—Harvard Medical School)

  • Hongzhi Li

    (City of Hope Comprehensive Cancer Center)

  • Sheela Pangeni Pokharel

    (Beckman Research Institute)

  • Sandra Li

    (Beckman Research Institute)

  • Mingli Li

    (Beckman Research Institute)

  • Xiaobao Xu

    (Beckman Research Institute)

  • Wei Lu

    (Beckman Research Institute)

  • Qiao Liu

    (Beckman Research Institute)

  • Nicole Mattson

    (Beckman Research Institute)

  • Kevin Yining Chen

    (Dana-Farber Cancer Institute—Harvard Medical School)

  • Jinhui Wang

    (City of Hope Comprehensive Cancer Center)

  • Yate-Ching Yuan

    (City of Hope Comprehensive Cancer Center)

  • David Horne

    (City of Hope Comprehensive Cancer Center)

  • Steven T. Rosen

    (City of Hope Comprehensive Cancer Center)

  • Yadira Soto-Feliciano

    (Rockefeller University)

  • Zhaohui Feng

    (Dana-Farber Cancer Institute—Harvard Medical School)

  • Takayuki Hoshii

    (Dana-Farber Cancer Institute—Harvard Medical School)

  • Gang Xiao

    (Beckman Research Institute
    Zhejiang University School of Medicine)

  • Markus Müschen

    (Beckman Research Institute
    Yale School of Medicine)

  • Jianjun Chen

    (Beckman Research Institute
    City of Hope Comprehensive Cancer Center)

  • Scott A. Armstrong

    (Dana-Farber Cancer Institute—Harvard Medical School)

  • Chun-Wei Chen

    (Beckman Research Institute
    Dana-Farber Cancer Institute—Harvard Medical School
    City of Hope Comprehensive Cancer Center)

Abstract

Identification of novel functional domains and characterization of detailed regulatory mechanisms in cancer-driving genes is critical for advanced cancer therapy. To date, CRISPR gene editing has primarily been applied to defining the role of individual genes. Recently, high-density mutagenesis via CRISPR tiling of gene-coding exons has been demonstrated to identify functional regions in genes. Furthermore, breakthroughs in combining CRISPR library screens with single-cell droplet RNA sequencing (sc-RNAseq) platforms have revealed the capacity to monitor gene expression changes upon genetic perturbations at single-cell resolution. Here, we present “sc-Tiling,” which integrates a CRISPR gene-tiling screen with single-cell transcriptomic and protein structural analyses. Distinct from other reported single-cell CRISPR screens focused on observing gene function and gene-to-gene/enhancer-to-gene regulation, sc-Tiling enables the capacity to identify regulatory mechanisms within a gene-coding region that dictate gene activity and therapeutic response.

Suggested Citation

  • Lu Yang & Anthony K. N. Chan & Kazuya Miyashita & Christopher D. Delaney & Xi Wang & Hongzhi Li & Sheela Pangeni Pokharel & Sandra Li & Mingli Li & Xiaobao Xu & Wei Lu & Qiao Liu & Nicole Mattson & Ke, 2021. "High-resolution characterization of gene function using single-cell CRISPR tiling screen," Nature Communications, Nature, vol. 12(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-24324-0
    DOI: 10.1038/s41467-021-24324-0
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