Advanced Science (Aug 2024)

CRISPR/Pepper‐tDeg: A Live Imaging System Enables Non‐Repetitive Genomic Locus Analysis with One Single‐Guide RNA

  • Meng Chen,
  • Xing Huang,
  • Yakun Shi,
  • Wen Wang,
  • Zhan Huang,
  • Yanli Tong,
  • Xiaoyong Zou,
  • Yuzhi Xu,
  • Zong Dai

DOI
https://doi.org/10.1002/advs.202402534
Journal volume & issue
Vol. 11, no. 32
pp. n/a – n/a

Abstract

Read online

Abstract CRISPR‐based genomic‐imaging systems have been utilized for spatiotemporal imaging of the repetitive genomic loci in living cells, but they are still challenged by limited signal‐to‐noise ratio (SNR) at a non‐repetitive genomic locus. Here, an efficient genomic‐imaging system is proposed, termed CRISPR/Pepper‐tDeg, by engineering the CRISPR sgRNA scaffolds with the degron‐binding Pepper aptamers for binding fluorogenic proteins fused with Tat peptide derived degron domain (tDeg). The target‐dependent stability switches of both sgRNA and fluorogenic protein allow this system to image repetitive telomeres sensitively with a 5‐fold higher SNR than conventional CRISPR/MS2‐MCP system using “always‐on” fluorescent protein tag. Subsequently, CRISPR/Pepper‐tDeg is applied to simultaneously label and track two different genomic loci, telomeres and centromeres, in living cells by combining two systems. Given a further improved SNR by the split fluorescent protein design, CRISPR/Pepper‐tDeg system is extended to non‐repetitive sequence imaging using only one sgRNA with two aptamer insertions. Neither complex sgRNA design nor difficult plasmid construction is required, greatly reducing the technical barriers to define spatiotemporal organization and dynamics of both repetitive and non‐repetitive genomic loci in living cells, and thus demonstrating the large application potential of this genomic‐imaging system in biological research, clinical diagnosis and therapy.

Keywords