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Robust enhancer-gene regulation identified by single-cell transcriptomes and epigenomes

Fangming Xie, Ethan J. Armand, Zizhen Yao, Hanqing Liu, Anna Bartlett, M. Margarita Behrens, Yang Eric Li, Jacinta Lucero, Chongyuan Luo, Joseph R. Nery, António Pinto‐Duarte, Olivier Poirion, Sebastian Preißl, Angeline Rivkin, Bosiljka Tasic, Hongkui Zeng, Bing Ren, Joseph R. Ecker, Eran A. Mukamel

2023Cell Genomics21 citationsDOIOpen Access PDF

Abstract

Single-cell sequencing could help to solve the fundamental challenge of linking millions of cell-type-specific enhancers with their target genes. However, this task is confounded by patterns of gene co-expression in much the same way that genetic correlation due to linkage disequilibrium confounds fine-mapping in genome-wide association studies (GWAS). We developed a non-parametric permutation-based procedure to establish stringent statistical criteria to control the risk of false-positive associations in enhancer-gene association studies (EGAS). We applied our procedure to large-scale transcriptome and epigenome data from multiple tissues and species, including the mouse and human brain, to predict enhancer-gene associations genome wide. We tested the functional validity of our predictions by comparing them with chromatin conformation data and causal enhancer perturbation experiments. Our study shows how controlling for gene co-expression enables robust enhancer-gene linkage using single-cell sequencing data.

Topics & Concepts

EnhancerBiologyComputational biologyGeneticsEpigenomeGenome-wide association studyChromatinGeneEpigenomicsLinkage disequilibriumGenomeGenetic associationRegulation of gene expressionHuman genomeGene expressionSingle-nucleotide polymorphismDNA methylationAlleleHaplotypeGenotypeGenomics and Chromatin DynamicsSingle-cell and spatial transcriptomicsRNA Research and Splicing