Spatial epigenome–transcriptome comapping technology

Spatial omics facilitate an in-depth understanding of cell states and cell interactions. Recent work by Zhang et al. simultaneously seizes spatial epigenetic priming, differentiation, and gene regulation at nearly single-cell resolution by developing an epigenome–transcriptome comapping technology....

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Veröffentlicht in:	Trends in cell biology 2023-06, Vol.33 (6), p.449-450
Hauptverfasser:	Jin, Ming-Zhu, Jin, Wei-Lin
Format:	Artikel
Sprache:	eng
Schlagworte:	epigenome Epigenome - genetics gene expression Gene Expression Regulation Genome single-cell resolution spatial omics Technology transcriptome Transcriptome - genetics
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description	Spatial omics facilitate an in-depth understanding of cell states and cell interactions. Recent work by Zhang et al. simultaneously seizes spatial epigenetic priming, differentiation, and gene regulation at nearly single-cell resolution by developing an epigenome–transcriptome comapping technology. This work displays how epigenetic features influence cell dynamics and transcriptional phenotypes at spatial and genome-wide levels.
doi_str_mv	10.1016/j.tcb.2023.03.011
format	Article
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subjects	epigenome Epigenome - genetics gene expression Gene Expression Regulation Genome single-cell resolution spatial omics Technology transcriptome Transcriptome - genetics
title	Spatial epigenome–transcriptome comapping technology
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