全基因组CRISPR/SpCas9基因敲除筛选的评估与设计

Evaluation and Design of Genome-Wide CRISPR/SpCas9 Knockout Screens.

作者信息

Hart Traver, Tong Amy Hin Yan, Chan Katie, Van Leeuwen Jolanda, Seetharaman Ashwin, Aregger Michael, Chandrashekhar Megha, Hustedt Nicole, Seth Sahil, Noonan Avery, Habsid Andrea, Sizova Olga, Nedyalkova Lyudmila, Climie Ryan, Tworzyanski Leanne, Lawson Keith, Sartori Maria Augusta, Alibeh Sabriyeh, Tieu David, Masud Sanna, Mero Patricia, Weiss Alexander, Brown Kevin R, Usaj Matej, Billmann Maximilian, Rahman Mahfuzur, Constanzo Michael, Myers Chad L, Andrews Brenda J, Boone Charles, Durocher Daniel, Moffat Jason

机构信息

Department of Bioinformatics and Computational Biology, The University of Texas MD Anderson Cancer Center, Houston, Texas 77030

Donnelly Centre, University of Toronto, Ontario M5S3E1, Canada.

出版信息

G3 (Bethesda). 2017 Aug 7;7(8):2719-2727. doi: 10.1534/g3.117.041277.

DOI:10.1534/g3.117.041277

PMID:28655737

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5555476/

Abstract

The adaptation of CRISPR/SpCas9 technology to mammalian cell lines is transforming the study of human functional genomics. Pooled libraries of CRISPR guide RNAs (gRNAs) targeting human protein-coding genes and encoded in viral vectors have been used to systematically create gene knockouts in a variety of human cancer and immortalized cell lines, in an effort to identify whether these knockouts cause cellular fitness defects. Previous work has shown that CRISPR screens are more sensitive and specific than pooled-library shRNA screens in similar assays, but currently there exists significant variability across CRISPR library designs and experimental protocols. In this study, we reanalyze 17 genome-scale knockout screens in human cell lines from three research groups, using three different genome-scale gRNA libraries. Using the Bayesian Analysis of Gene Essentiality algorithm to identify essential genes, we refine and expand our previously defined set of human core essential genes from 360 to 684 genes. We use this expanded set of reference core essential genes, CEG2, plus empirical data from six CRISPR knockout screens to guide the design of a sequence-optimized gRNA library, the Toronto KnockOut version 3.0 (TKOv3) library. We then demonstrate the high effectiveness of the library relative to reference sets of essential and nonessential genes, as well as other screens using similar approaches. The optimized TKOv3 library, combined with the CEG2 reference set, provide an efficient, highly optimized platform for performing and assessing gene knockout screens in human cell lines.

摘要

CRISPR/SpCas9技术对哺乳动物细胞系的适应性正在改变人类功能基因组学的研究。靶向人类蛋白质编码基因并编码于病毒载体中的CRISPR引导RNA（gRNA）文库已被用于在多种人类癌症和永生化细胞系中系统地创建基因敲除，以确定这些敲除是否会导致细胞适应性缺陷。先前的研究表明，在类似实验中，CRISPR筛选比汇集文库的shRNA筛选更灵敏、更具特异性，但目前CRISPR文库设计和实验方案存在显著差异。在本研究中，我们使用三个不同的基因组规模gRNA文库，重新分析了来自三个研究小组的人类细胞系中的17个基因组规模敲除筛选。使用基因必需性的贝叶斯分析算法来识别必需基因，我们将先前定义的人类核心必需基因集从360个细化并扩展到684个基因。我们使用这个扩展的参考核心必需基因集CEG2，加上来自六个CRISPR敲除筛选的经验数据，来指导序列优化的gRNA文库——多伦多敲除版本3.0（TKOv3）文库的设计。然后，我们证明了该文库相对于必需和非必需基因参考集以及使用类似方法的其他筛选的高效性。优化后的TKOv3文库与CEG2参考集相结合，为在人类细胞系中进行和评估基因敲除筛选提供了一个高效、高度优化的平台。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2438/5555476/7f534466480e/2719f1.jpg

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全基因组CRISPR/SpCas9基因敲除筛选的评估与设计

Evaluation and Design of Genome-Wide CRISPR/SpCas9 Knockout Screens.

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