Comprehensive Characterization of Tissue-specific Chromatin Accessibility in L2 Nematodes

Overview

Journal Genome Res

Specialty Genetics

Date 2021 Apr 23

PMID 33888511

Citations 6

Authors

Timothy J Durham

Riza M Daza

Louis Gevirtzman

Darren A Cusanovich

Olubusayo Bolonduro

William Stafford Noble

Jay Shendure

Robert H Waterston

Affiliations

Soon will be listed here.

Abstract

Recently developed single-cell technologies allow researchers to characterize cell states at ever greater resolution and scale. is a particularly tractable system for studying development, and recent single-cell RNA-seq studies characterized the gene expression patterns for nearly every cell type in the embryo and at the second larval stage (L2). Gene expression patterns give insight about gene function and into the biochemical state of different cell types; recent advances in other single-cell genomics technologies can now also characterize the regulatory context of the genome that gives rise to these gene expression levels at a single-cell resolution. To explore the regulatory DNA of individual cell types in , we collected single-cell chromatin accessibility data using the sci-ATAC-seq assay in L2 larvae to match the available single-cell RNA-seq data set. By using a novel implementation of the latent Dirichlet allocation algorithm, we identify 37 clusters of cells that correspond to different cell types in the worm, providing new maps of putative cell type-specific gene regulatory sites, with promise for better understanding of cellular differentiation and gene regulation.

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