Authors
Tunahan Ergünay, Özgecan Ayhan, Arda B Celen, Panagiota Georgiadou, Emre Pekbilir, Yusuf T Abaci, Duygu Yesildag, Mandy Rettel, Ulduz Sobhiafshar, Anna Ogmen, NC Tolga Emre, Umut Sahin
Publication date
2022/4/1
Journal
Life Science Alliance
Volume
5
Issue
4
Publisher
Life Science Alliance
Description
CRISPR/Cas9 is a popular genome editing technology. Although widely used, little is known about how this prokaryotic system behaves in humans. An unwanted consequence of eukaryotic Cas9 expression is off-target DNA binding leading to mutagenesis. Safer clinical implementation of CRISPR/Cas9 necessitates a finer understanding of the regulatory mechanisms governing Cas9 behavior in humans. Here, we report our discovery of Cas9 sumoylation and ubiquitylation, the first post-translational modifications to be described on this enzyme. We found that the major SUMO2/3 conjugation site on Cas9 is K848, a key positively charged residue in the HNH nuclease domain that is known to interact with target DNA and contribute to off-target DNA binding. Our results suggest that Cas9 ubiquitylation leads to decreased stability via proteasomal degradation. Preventing Cas9 sumoylation through conversion of K848 …
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Scholar articles
T Ergünay, Ö Ayhan, AB Celen, P Georgiadou… - Life Science Alliance, 2022