Dynamics and Spatial Genomics of the Nascent Transcriptome by Intron seqFISH.

IF: 66.850

Cited by: 209

Abstract

Visualization of the transcriptome and the nuclear organization in situ has been challenging for single-cell analysis. Here, we demonstrate a multiplexed single-molecule in situ method, intron seqFISH, that allows imaging of 10,421 genes at their nascent transcription active sites in single cells, followed by mRNA and lncRNA seqFISH and immunofluorescence. This nascent transcriptome-profiling method can identify different cell types and states with mouse embryonic stem cells and fibroblasts. The nascent sites of RNA synthesis tend to be localized on the surfaces of chromosome territories, and their organization in individual cells is highly variable. Surprisingly, the global nascent transcription oscillated asynchronously in individual cells with a period of 2 hr in mouse embryonic stem cells, as well as in fibroblasts. Together, spatial genomics of the nascent transcriptome by intron seqFISH reveals nuclear organizational principles and fast dynamics in single cells that are otherwise obscured.

Keywords

Intron seqFISH

smFISH

seqFISH+

Spatial Genomics

chromosome

intron

nascent transcriptome

oscillations

transcription

MeSH terms

Animals

Catalytic Domain

Cell Line

Chromosomes

Fibroblasts

In Situ Hybridization, Fluorescence

Introns

Mice

Microscopy, Fluorescence

Microscopy, Video

Mouse Embryonic Stem Cells

RNA Polymerase II

RNA, Long Noncoding

RNA, Messenger

Single-Cell Analysis

Transcriptome

Authors

Shah, Sheel

Takei, Yodai

Zhou, Wen

Lubeck, Eric

Yun, Jina

Eng, Chee-Huat Linus

Koulena, Noushin

Cronin, Christopher

Karp, Christoph

Liaw, Eric J

Amin, Mina

Cai, Long

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