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Inhibition of CRISPR-Cas12a DNA targeting by nucleosomes and chromatin

Isabel Strohkendl, Fatema A. Saifuddin, Bryan A. Gibson, Michael K. Rosen, Rick Russell, Ilya J. Finkelstein

2021Science Advances60 citationsDOIOpen Access PDF

Abstract

Genome engineering nucleases must access chromatinized DNA. Here, we investigate how AsCas12a cleaves DNA within human nucleosomes and phase-condensed nucleosome arrays. Using quantitative kinetics approaches, we show that dynamic nucleosome unwrapping regulates target accessibility to Cas12a and determines the extent to which both steps of binding-PAM recognition and R-loop formation-are inhibited by the nucleosome. Relaxing DNA wrapping within the nucleosome by reducing DNA bendability, adding histone modifications, or introducing target-proximal dCas9 enhances DNA cleavage rates over 10-fold. Unexpectedly, Cas12a readily cleaves internucleosomal linker DNA within chromatin-like, phase-separated nucleosome arrays. DNA targeting is reduced only ~5-fold due to neighboring nucleosomes and chromatin compaction. This work explains the observation that on-target cleavage within nucleosomes occurs less often than off-target cleavage within nucleosome-depleted genomic regions in cells. We conclude that nucleosome unwrapping regulates accessibility to CRISPR-Cas nucleases and propose that increasing nucleosome breathing dynamics will improve DNA targeting in eukaryotic cells.

Topics & Concepts

ChromatinNucleosomeCRISPRDNAHistoneBiologyComputational biologyCell biologyGeneticsChemistryGeneCRISPR and Genetic EngineeringEvolution and Genetic DynamicsPluripotent Stem Cells Research
Inhibition of CRISPR-Cas12a DNA targeting by nucleosomes and chromatin | Litcius