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Optimization of AsCas12a for combinatorial genetic screens in human cells.

Authors :
DeWeirdt, Peter C.
Sanson, Kendall R.
Sangree, Annabel K.
Hegde, Mudra
Hanna, Ruth E.
Feeley, Marissa N.
Griffith, Audrey L.
Teng, Teng
Borys, Samantha M.
Strand, Christine
Joung, J. Keith
Kleinstiver, Benjamin P.
Pan, Xuewen
Huang, Alan
Doench, John G.
Source :
Nature Biotechnology; 2021, Vol. 39 Issue 1, p94-104, 11p
Publication Year :
2021

Abstract

Cas12a RNA-guided endonucleases are promising tools for multiplexed genetic perturbations because they can process multiple guide RNAs expressed as a single transcript, and subsequently cleave target DNA. However, their widespread adoption has lagged behind Cas9-based strategies due to low activity and the lack of a well-validated pooled screening toolkit. In the present study, we describe the optimization of enhanced Cas12a from Acidaminococcus (enAsCas12a) for pooled, combinatorial genetic screens in human cells. By assaying the activity of thousands of guides, we refine on-target design rules and develop a comprehensive set of off-target rules to predict and exclude promiscuous guides. We also identify 38 direct repeat variants that can substitute for the wild-type sequence. We validate our optimized AsCas12a toolkit by screening for synthetic lethalities in OVCAR8 and A375 cancer cells, discovering an interaction between MARCH5 and WSB2. Finally, we show that enAsCas12a delivers similar performance to Cas9 in genome-wide dropout screens but at greatly reduced library size, which will facilitate screens in challenging models. Improved Cas12a variants and sgRNA design rules enhance genome-wide screens. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
10870156
Volume :
39
Issue :
1
Database :
Complementary Index
Journal :
Nature Biotechnology
Publication Type :
Academic Journal
Accession number :
148042674
Full Text :
https://doi.org/10.1038/s41587-020-0600-6