Parallel characterization of cis-regulatory elements for multiple genes using CRISPRpath

Current pooled CRISPR screens for cis-regulatory elements (CREs), based on transcriptional output changes, are typically limited to characterizing CREs of only one gene. Here, we describe CRISPRpath, a scalable screening strategy for parallelly characterizing CREs of genes linked to the same biologi...

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Veröffentlicht in:	Science advances 2021-09, Vol.7 (38), p.eabi4360-eabi4360, Article 4360
Hauptverfasser:	Ren, Xingjie, Wang, Mengchi, Li, Bingkun, Jamieson, Kirsty, Zheng, Lina, Jones, Ian R., Li, Bin, Takagi, Maya Asami, Lee, Jerry, Maliskova, Lenka, Tam, Tsz Wai, Yu, Miao, Hu, Rong, Lee, Lindsay, Abnousi, Armen, Li, Gang, Li, Yun, Hu, Ming, Ren, Bing, Wang, Wei, Shen, Yin
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creator	Ren, Xingjie Wang, Mengchi Li, Bingkun Jamieson, Kirsty Zheng, Lina Jones, Ian R. Li, Bin Takagi, Maya Asami Lee, Jerry Maliskova, Lenka Tam, Tsz Wai Yu, Miao Hu, Rong Lee, Lindsay Abnousi, Armen Li, Gang Li, Yun Hu, Ming Ren, Bing Wang, Wei Shen, Yin
description	Current pooled CRISPR screens for cis-regulatory elements (CREs), based on transcriptional output changes, are typically limited to characterizing CREs of only one gene. Here, we describe CRISPRpath, a scalable screening strategy for parallelly characterizing CREs of genes linked to the same biological pathway and converging phenotypes. We demonstrate the ability of CRISPRpath for simultaneously identifying functional enhancers of six genes in the 6-thioguanine-induced DNA mismatch repair pathway using both CRISPR interference (CRISPRi) and CRISPR nuclease (CRISPRn) approaches. Sixty percent of the identified enhancers are known promoters with distinct epigenomic features compared to other active promoters, including increased chromatin accessibility and interactivity. Furthermore, by imposing different levels of selection pressure, CRISPRpath can distinguish enhancers exerting strong impact on gene expression from those exerting weak impact. Our results offer a nuanced view of cis-regulation and demonstrate that CRISPRpath can be leveraged for understanding the complex gene regulatory program beyond transcriptional output at scale.
doi_str_mv	10.1126/sciadv.abi4360
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Here, we describe CRISPRpath, a scalable screening strategy for parallelly characterizing CREs of genes linked to the same biological pathway and converging phenotypes. We demonstrate the ability of CRISPRpath for simultaneously identifying functional enhancers of six genes in the 6-thioguanine-induced DNA mismatch repair pathway using both CRISPR interference (CRISPRi) and CRISPR nuclease (CRISPRn) approaches. Sixty percent of the identified enhancers are known promoters with distinct epigenomic features compared to other active promoters, including increased chromatin accessibility and interactivity. Furthermore, by imposing different levels of selection pressure, CRISPRpath can distinguish enhancers exerting strong impact on gene expression from those exerting weak impact. 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subjects	Biomedicine and Life Sciences Genetics Molecular Biology Multidisciplinary Sciences SciAdv r-articles Science & Technology Science & Technology - Other Topics
title	Parallel characterization of cis-regulatory elements for multiple genes using CRISPRpath
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