Impact of regulatory variation across human iPSCs and differentiated cells

Journal article

Banovich, Nicholas E., Li, Yang I., Raj, Anil, Ward, Michelle C., Greenside, Peyton, Calderon, Diego, Tung, Po Yuan, Burnett, Jonathan E., Myrthil, Marsha, Thomas, Samantha M., Burrows, Courtney K., Gallego Romero, Irene, Pavlovic, Bryan J., Kundaje, Anshul, Pritchard, Jonathan K. and Gilad, Yoav. (2018). Impact of regulatory variation across human iPSCs and differentiated cells. Genome Research. 28(1), pp. 122-131. https://doi.org/10.1101/gr.224436.117

Publication dates
Authors	Banovich, Nicholas E., Li, Yang I., Raj, Anil, Ward, Michelle C., Greenside, Peyton, Calderon, Diego, Tung, Po Yuan, Burnett, Jonathan E., Myrthil, Marsha, Thomas, Samantha M., Burrows, Courtney K., Gallego Romero, Irene, Pavlovic, Bryan J., Kundaje, Anshul, Pritchard, Jonathan K. and Gilad, Yoav
Abstract	Induced pluripotent stem cells (iPSCs) are an essential tool for studying cellular differentiation and cell types that are otherwise difficult to access. We investigated the use of iPSCs and iPSC-derived cells to study the impact of genetic variation on gene regulation across different cell types and as models for studies of complex disease. To do so, we established a panel of iPSCs from 58 well-studied Yoruba lymphoblastoid cell lines (LCLs); 14 of these lines were further differentiated into cardiomyocytes. We characterized regulatory variation across individuals and cell types by measuring gene expression levels, chromatin accessibility, and DNA methylation. Our analysis focused on a comparison of inter-individual regulatory variation across cell types. While most cell-type–specific regulatory quantitative trait loci (QTLs) lie in chromatin that is open only in the affected cell types, we found that 20% of cell-type–specific regulatory QTLs are in shared open chromatin. This observation motivated us to develop a deep neural network to predict open chromatin regions from DNA sequence alone. Using this approach, we were able to use the sequences of segregating haplotypes to predict the effects of common SNPs on cell-type–specific chromatin accessibility.
Year	2018
Journal	Genome Research
Journal citation	28 (1), pp. 122-131
Publisher	Cold Spring Harbor Laboratory Press
ISSN	1088-9051
Digital Object Identifier (DOI)	https://doi.org/10.1101/gr.224436.117
PubMed ID	29208628
Scopus EID	2-s2.0-85039994149
PubMed Central ID	PMC5749177
Open access	Published as ‘gold’ (paid) open access
Page range	122-131
Funder	National Institutes of Health (NIH), United States of America
	Center for Computational, Evolutionary and Human Genomics
	European Molecular Biology Organization (EMBO)
	Marie Skłodowska-Curie Actions
	Howard Hughes Medical Institute
Publisher's version	OA_Banovich_2018_Impact_of_regulatory_variation_across_human.pdf License CC BY 4.0 File Access Level Open
Output status	Published
Online	05 Dec 2017
Publication process dates
Accepted	20 Nov 2017
Deposited	24 Apr 2025
Grant ID	GM007197
	AG 044948
	MH084703
	MH101825
	HG007036
	CA149145
	HL092206
	ALTF 751-2014
Additional information	© 2018 Banovich et al.; Published by Cold Spring Harbor Laboratory Press. This article, published in Genome Research, is available under a Creative Commons License (Attribution 4.0 International), as described at http://creativecommons.org/licenses/by/4.0/.

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