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Programmable human histone phosphorylation and gene activation using a CRISPR/Cas9-based chromatin kinase

Jing Li, Barun Mahata, Mario Escobar, Jacob Goell, Kaiyuan Wang, Pranav Khemka and Isaac B. Hilton ()
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Jing Li: Rice University
Barun Mahata: Rice University
Mario Escobar: Rice University
Jacob Goell: Rice University
Kaiyuan Wang: Rice University
Pranav Khemka: Rice University
Isaac B. Hilton: Rice University

Nature Communications, 2021, vol. 12, issue 1, 1-10

Abstract: Abstract Histone phosphorylation is a ubiquitous post-translational modification that allows eukaryotic cells to rapidly respond to environmental stimuli. Despite correlative evidence linking histone phosphorylation to changes in gene expression, establishing the causal role of this key epigenomic modification at diverse loci within native chromatin has been hampered by a lack of technologies enabling robust, locus-specific deposition of endogenous histone phosphorylation. To address this technological gap, here we build a programmable chromatin kinase, called dCas9-dMSK1, by directly fusing nuclease-null CRISPR/Cas9 to a hyperactive, truncated variant of the human MSK1 histone kinase. Targeting dCas9-dMSK1 to human promoters results in increased target histone phosphorylation and gene activation and demonstrates that hyperphosphorylation of histone H3 serine 28 (H3S28ph) in particular plays a causal role in the transactivation of human promoters. In addition, we uncover mediators of resistance to the BRAF V600E inhibitor PLX-4720 in human melanoma cells using genome-scale screening with dCas9-dMSK1. Collectively, our findings enable a facile way to reshape human chromatin using CRISPR/Cas9-based epigenome editing and further define the causal link between histone phosphorylation and human gene activation.

Date: 2021
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DOI: 10.1038/s41467-021-21188-2

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