High throughput characterization of genetic effects on DNA:protein binding and gene transcription

  1. Francesca Luca1,4
  1. 1 Wayne State University;
  2. 2 University of Pennsylvania;
  3. 3 University of Michigan
  • * Corresponding author; email: fluca{at}wayne.edu

    • Abstract

    Many variants associated with complex traits are in non-coding regions, and contribute to phenotypes by disrupting regulatory sequences. To characterize these variants, we developed a streamlined protocol for a high-throughput reporter assay, BiT-STARR-seq (Biallelic Tar- geted STARR-seq), that identifies allele-specific expression (ASE) while accounting for PCR duplicates through unique molecular identifiers. We tested 75,501 oligos (43,500 SNPs) and identified 2,720 SNPs with significant ASE (FDR 10%). To validate disruption of binding as one of the mechanisms underlying ASE, we developed a new high throughput allele specific binding assay for NFKB1. We identified 2,684 SNPs with allele-specific binding (ASB) (FDR 10%); 256 of these SNPs also had ASE (OR=1.97, p-value=0.0006). Of variants associated with complex traits, 1,531 resulted in ASE and 1,662 showed ASB. For example, we characterized that the Crohn's disease risk variant for rs3810936 increases NFKB1 binding and results in altered gene expression.

    • Received March 26, 2018.
    • Accepted September 20, 2018.

    This manuscript is Open Access.

    This article, published in Genome Research, is available under a Creative Commons License (Attribution 4.0 International license), as described at http://creativecommons.org/licenses/by/4.0/.

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    1. Published in Advance September 25, 2018, doi: 10.1101/gr.237354.118 Genome Res. gr.237354.118 Published by Cold Spring Harbor Laboratory Press

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    1. Profile for Luca, F.http://orcid.org/0000-0001-8252-9052

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