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Integrated single-cell transcriptomic and epigenetic study of cell state transition and lineage commitment in embryonic mouse cerebellum

Nagham Khouri‐Farah, Qiuxia Guo, Kerry Morgan, Jihye Shin, James Y. H. Li

2022Science Advances36 citationsDOIOpen Access PDF

Abstract

Recent studies using single-cell RNA-sequencing have revealed cellular heterogeneity in the developing mammalian cerebellum, yet the regulatory logic underlying this cellular diversity remains to be elucidated. Using integrated single-cell RNA and ATAC analyses, we resolved developmental trajectories of cerebellar progenitors and identified putative trans- and cis-elements that control cell state transition. We reverse engineered gene regulatory networks (GRNs) of each cerebellar cell type. Through in silico simulations and in vivo experiments, we validated the efficacy of GRN analyses and uncovered the molecular control of a posterior transitory zone (PTZ), a distinct progenitor zone residing immediately anterior to the morphologically defined rhombic lip (RL). We showed that perturbing cell fate specification in the PTZ and RL causes posterior cerebellar vermis hypoplasia, the most common cerebellar birth defect in humans. Our study provides a foundation for comprehensive studies of developmental programs of the mammalian cerebellum.

Topics & Concepts

CerebellumBiologyProgenitor cellEmbryonic stem cellPurkinje cellProgenitorIn silicoCell fate determinationNeuroscienceTranscriptomeCell typeCellCell biologyStem cellGeneticsGeneGene expressionTranscription factorSingle-cell and spatial transcriptomicsCancer-related molecular mechanisms researchRNA Research and Splicing
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