Improved CRISPR/Cas9 knock-in efficiency via the self-excising cassette (SEC) selection method in C. elegans

通过秀丽隐杆线虫中的自切除盒 (SEC) 选择方法提高 CRISPR/Cas9 敲入效率

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作者:George Huang, Bailey de Jesus, Alex Koh, Sara Blanco, Aubrie Rettmann, Ella DeMott, Melynda Sylvester, Cassie Ren, Carrie Meng, Skye Waterland, Anita Rhodes, Persephone Alicea, Abbey Flynn, Daniel J Dickinson, Ryan Doonan
期刊:microPublication Biology影响因子:
时间:2021起止号:2021 Sep 16:2021:10.17912/micropub.biology.000460.
doi:10.17912/micropub.biology.000460研究方向: 微生物学

Abstract

Streamlined, selection-based CRISPR knock-in protocols for C. elegans were first introduced six years ago (Dickinson et al. 2015; Schwartz and Jorgensen 2016). Though these selection-based approaches are powerful, one drawback has been the requirement to inject large numbers of P0 worms (~30-60 per gene target). We have found that a combination of high-purity DNA and a lower concentration of Cas9/sgRNA plasmid dramatically improves efficiency, often resulting in multiple independent CRISPR knock-ins via as few as 10 injected worms, comparable to the efficiency of melted dsDNA templates and purified Cas9 protein (Dokshin et al. 2018; Ghanta and Mello 2020).

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