A Single-Cell Transcriptional Atlas of the Developing Murine Cerebellum

Overview

Journal Curr Biol

Publisher Cell Press

Specialty Biology

Date 2018 Sep 18

PMID 30220501

Citations 97

Authors

Robert A Carter

Laure Bihannic

Celeste Rosencrance

Jennifer L Hadley

Yiai Tong

Timothy N Phoenix

Sivaraman Natarajan

John Easton

Paul A Northcott

Charles Gawad

Affiliations

Soon will be listed here.

Abstract

The cerebellum develops from a restricted number of cell types that precisely organize to form the circuitry that controls sensory-motor coordination and some higher-order cognitive processes. To acquire an enhanced understanding of the molecular processes that mediate cerebellar development, we performed single-cell RNA-sequencing of 39,245 murine cerebellar cells at twelve critical developmental time points. Using recognized lineage markers, we confirmed that the single-cell data accurately recapitulate cerebellar development. We then followed distinct populations from emergence through migration and differentiation, and determined the associated transcriptional cascades. After identifying key lineage commitment decisions, focused analyses uncovered waves of transcription factor expression at those branching points. Finally, we created Cell Seek, a flexible online interface that facilitates exploration of the dataset. Our study provides a transcriptional summarization of cerebellar development at single-cell resolution that will serve as a valuable resource for future investigations of cerebellar development, neurobiology, and disease.

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