Litcius/Paper detail

TriTag: an integrative tool to correlate chromatin dynamics and gene expression in living cells

Haiyue Xu, Junyan Wang, Ying Liang, Yujuan Fu, Sihui Li, Jinghan Huang, Heng Xu, Wei Zou, Baohui Chen

2020Nucleic Acids Research22 citationsDOIOpen Access PDF

Abstract

A wealth of single-cell imaging studies have contributed novel insights into chromatin organization and gene regulation. However, a comprehensive understanding of spatiotemporal gene regulation requires developing tools to combine multiple monitoring systems in a single study. Here, we report a versatile tag, termed TriTag, which integrates the functional capabilities of CRISPR-Tag (DNA labeling), MS2 aptamer (RNA imaging) and fluorescent protein (protein tracking). Using this tag, we correlate changes in chromatin dynamics with the progression of endogenous gene expression, by recording both transcriptional bursting and protein production. This strategy allows precise measurements of gene expression at single-allele resolution across the cell cycle or in response to stress. TriTag enables capturing an integrated picture of gene expression, thus providing a powerful tool to study transcriptional heterogeneity and regulation.

Topics & Concepts

BiologyChromatinGene expressionRegulation of gene expressionCRISPRComputational biologyGeneRNAGeneticsCell biologySingle-cell and spatial transcriptomicsCRISPR and Genetic EngineeringGene Regulatory Network Analysis