Direct Characterization of Cis-Regulatory Elements and Functional Dissection of Complex Genetic Associations Using HCR–FlowFISH
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Gosai, Sager J.
Mackay-Smith, Ava
Mouri, Kousuke
Berenzy, Daniel
Kales, Susan
Butler, Gina M.
Gladden-Young, Adrianne
Bhuiyan, Redwan M.
Stitzel, Michael L.
Finucane, Hilary K.
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https://doi.org/10.1038/s41588-021-00900-4Metadata
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Reilly, Steven K, Sager J Gosai, Alan Gutierrez, Ava Mackay-Smith, Jacob C Ulirsch, Masahiro Kanai, Kousuke Mouri, et al. 2021. “Direct Characterization of Cis-Regulatory Elements and Functional Dissection of Complex Genetic Associations Using HCR-FlowFISH.” Nature Genetics 53 (8): 1166–76.Abstract
Abstract: Effective interpretation of genome function and genetic variation requires a shift from epigenetic mapping of cis-regulatory elements (CREs) to characterization of endogenous function. We developed HCR-FlowFISH, a broadly applicable approach to characterize CRISPR-perturbed CREs via accurate quantification of native transcripts, alongside CASA (CRISPR Activity Screen Analysis), a hierarchical Bayesian model to quantify CRE activity. Across >325,000 perturbations, we provide evidence that CREs can regulate multiple genes, skip over the nearest gene, and can display activating and/or silencing effects. At the cholesterol-level associated FADS locus, we combine endogenous screens with reporter assays to exhaustively characterize multiple genome-wide association signals, functionally nominating causal variants and identifying their target genes.Citable link to this page
https://nrs.harvard.edu/URN-3:HUL.INSTREPOS:37374309
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