Machine learning prediction of prime editing efficiency across diverse chromatin contexts

利用机器学习预测不同染色质环境下的酶促编辑效率

阅读:2
作者:Mathis,Nicolas,Allam,Ahmed,Tálas,András,Kissling,Lucas,Benvenuto,Elena,Schmidheini,Lukas,Schep,Ruben,Damodharan,Tanav,Balázs,Zsolt,Janjuha,Sharan,Ioannidi,Eleonora I,Böck,Desirée,van Steensel,Bas,Krauthammer,Michael,Schwank,Gerald
期刊:Nature Biotechnology影响因子:
时间:2025起止号:2025 May;43(5):712-719
doi:10.1038/s41587-024-02268-2

Abstract

The success of prime editing depends on the prime editing guide RNA (pegRNA) design and target locus. Here, we developed machine learning models that reliably predict prime editing efficiency. PRIDICT2.0 assesses the performance of pegRNAs for all edit types up to 15 bp in length in mismatch repair-deficient and mismatch repair-proficient cell lines and in vivo in primary cells. With ePRIDICT, we further developed a model that quantifies how local chromatin environments impact prime editing rates.

特别声明

1、本页面内容包含部分的内容是基于公开信息的合理引用;引用内容仅为补充信息,不代表本站立场。

2、若认为本页面引用内容涉及侵权,请及时与本站联系,我们将第一时间处理。

3、其他媒体/个人如需使用本页面原创内容,需注明“来源:[生知库]”并获得授权;使用引用内容的,需自行联系原作者获得许可。

4、投稿及合作请联系:info@biocloudy.com。