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Full-Text Articles in Life Sciences
Multiplexed Capture Of Spatial Configuration And Temporal Dynamics Of Locus-Specific 3d Chromatin By Biotinylated Dcas9., Xin Liu, Yong Chen, Yuannyu Zhang, Yuxuan Liu, Nan Liu, Giovanni A Botten, Hui Cao, Stuart H Orkin, Michael Q Zhang, Jian Xu
Multiplexed Capture Of Spatial Configuration And Temporal Dynamics Of Locus-Specific 3d Chromatin By Biotinylated Dcas9., Xin Liu, Yong Chen, Yuannyu Zhang, Yuxuan Liu, Nan Liu, Giovanni A Botten, Hui Cao, Stuart H Orkin, Michael Q Zhang, Jian Xu
Faculty Scholarship for the College of Science & Mathematics
The spatiotemporal control of 3D genome is fundamental for gene regulation, yet it remains challenging to profile high-resolution chromatin structure at cis-regulatory elements (CREs). Using C-terminally biotinylated dCas9, endogenous biotin ligases, and pooled sgRNAs, we describe the dCas9-based CAPTURE method for multiplexed analysis of locus-specific chromatin interactions. The redesigned system allows for quantitative analysis of the spatial configuration of a few to hundreds of enhancers or promoters in a single experiment, enabling comparisons across CREs within and between gene clusters. Multiplexed analyses of the spatiotemporal configuration of erythroid super-enhancers and promoter-centric interactions reveal organizational principles of genome structure and function.