Addressing the dNTP bottleneck restricting prime editing activity.

Karthikeyan PonnienselvanPengpeng LiuThomas NyalileSarah OikemusAnya T JoyntKaren KellyDongsheng GuoZexiang ChenJeong Min LeeCelia A SchifferCharles P EmersonNathan D LawsonJonathan K WattsErik J Sontheimer Jeremy Luban Scot A Wolfe

Published in: bioRxiv : the preprint server for biology (2023)

Prime editing efficiency is modest in cells that are quiescent or slowly proliferating where intracellular dNTP levels are tightly regulated. MMLV-reverse transcriptase - the prime editor polymerase subunit - requires high intracellular dNTPs levels for efficient polymerization. We report that prime editing efficiency in primary cells and in vivo is increased by mutations that enhance the enzymatic properties of MMLV-reverse transcriptase and can be further complemented by targeting SAMHD1 for degradation.

Keyphrases

crispr cas
induced apoptosis
cell cycle arrest
endoplasmic reticulum stress
oxidative stress
reactive oxygen species
nitric oxide
cell proliferation