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Clickable APEX2 Probes for Enhanced RNA Proximity Labeling in Live Cells.

Jiying LiangJinghua HanXutao GaoHan JiaRan LiEdmund Chun Ming TseYing Li
Published in: Analytical chemistry (2023)
Although APEX2-mediated proximity labeling has been extensively implemented for studying RNA subcellular localization in live cells, the biotin-phenoxyl radical used for labeling RNAs has a relatively low efficiency, which can limit its compatibility with other profiling methods. Herein, a set of phenol derivatives were designed as APEX2 probes through balancing reactivity, hydrophilicity, and lipophilicity. Among these derivatives, Ph_N 3 exhibited reliable labeling ability and enabled two biotinylation routes for downstream analysis. As a proof of concept, we used APEX2/Ph_N 3 labeling with high-throughput sequencing analysis to examine the transcriptomes in the mitochondrial matrix, demonstrating high sensitivity and specificity. To further expand the utility of Ph_N 3 , we employed mechanistically orthogonal APEX2 and singlet oxygen ( 1 O 2 )-mediated strategies for dual location labeling in live cells. Specifically, DRAQ5, a DNA-intercalating photosensitizer, was applied for nucleus-restricted 1 O 2 labeling. We validated the orthogonality of APEX2/Ph_N 3 and DRAQ5- 1 O 2 at the imaging level, providing an attractive and feasible approach for future studies of RNA translocation in live cells.
Keyphrases
  • induced apoptosis
  • cell cycle arrest
  • oxidative stress
  • small molecule
  • endoplasmic reticulum stress
  • photodynamic therapy
  • single cell
  • multidrug resistant
  • living cells
  • fluorescence imaging
  • high throughput sequencing