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A Well-Controlled BioID Design for Endogenous Bait Proteins.

Giel VandemoorteleDelphine De SutterAline MoliereJarne PauwelsKris GevaertSven Eyckerman
Published in: Journal of proteome research (2018)
The CRISPR/Cas9 revolution is profoundly changing the way life sciences technologies are used. Many assays now rely on engineered clonal cell lines to eliminate the overexpression of bait proteins. Control cell lines are typically nonengineered cells or engineered clones, implying a considerable risk for artifacts because of clonal variation. Genome engineering can also transform BioID, a proximity labeling method that relies on fusing a bait protein to a promiscuous biotin ligase, BirA*, resulting in the tagging of vicinal proteins. We here propose an innovative design to enable BioID for endogenous proteins wherein we introduce a T2A-BirA* module at the C-terminus of endogenous p53 by genome engineering, leading to bicistronic expression of both p53 and BirA* under control of the endogenous promoter. By targeting a Cas9-cytidine deaminase base editor to the T2A autocleavage site, we can efficiently derive an isogenic population expressing a functional p53-BirA* fusion protein. Using quantitative proteomics we show significant benefits over the classical ectopic expression of p53-BirA*, and we provide a first well-controlled view of the proximal proteins of endogenous p53 in colon carcinoma cells. This novel application for base editors expands the CRISPR/Cas9 toolbox and can be a valuable addition for synthetic biology.
Keyphrases
  • crispr cas
  • genome editing
  • poor prognosis
  • transcription factor
  • binding protein
  • cell proliferation
  • high resolution
  • induced apoptosis
  • magnetic resonance
  • small molecule
  • long non coding rna
  • amino acid