A multi-parametric flow cytometric assay to analyze DNA–protein interactions
Mandana Arbab,Shaun Mahony,Hyunjii Cho,Joel M. Chick,P. Alexander Rolfe,John Peter van Hoff,Viveca W.S. Morris,Steven P. Gygi,Richard L. Maas,David K. Gifford,Richard I. Sherwood +10 more
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TLDR
MagPIE is devised, a simple, rapid, multi-parametric assay using flow cytometric immunofluorescence to reveal interactions among TFs, chromatin structure and DNA to analyze complex epigenetic interactions in vitro.Abstract:
Interactions between DNA and transcription factors (TFs) guide cellular function and development, yet the complexities of gene regulation are still far from being understood. Such understanding is limited by a paucity of techniques with which to probe DNA–protein interactions. We have devised magnetic protein immobilization on enhancer DNA (MagPIE), a simple, rapid, multi-parametric assay using flow cytometric immunofluorescence to reveal interactions among TFs, chromatin structure and DNA. In MagPIE, synthesized DNA is bound to magnetic beads, which are then incubated with nuclear lysate, permitting sequence-specific binding by TFs, histones and methylation by native lysate factors that can be optionally inhibited with small molecules. Lysate protein–DNA binding is monitored by flow cytometric immunofluorescence, which allows for accurate comparative measurement of TF-DNA affinity. Combinatorial fluorescent staining allows simultaneous analysis of sequence-specific TF-DNA interaction and chromatin modification. MagPIE provides a simple and robust method to analyze complex epigenetic interactions in vitro.read more
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A DNA-Centric Protein Interaction Map of Ultraconserved Elements Reveals Contribution of Transcription Factor Binding Hubs to Conservation
TL;DR: It is demonstrated based on the data that UCEs consist of strongly conserved overlapping binding sites, and a fine-resolution interactome of a UCE is generated, confirming the hub-like nature of the element.
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Electrophoretic behavior of DNA-methyl-CpG-binding domain protein complexes revealed by capillary electrophoreses laser-induced fluorescence.
TL;DR: In this article, the free solution behavior of DNA-methyl-CpG-binding domain protein (MBD2b) complexes through exploring the relationship between the mobilities, charge, and mass of DNAprotein complexes was studied.
References
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