Photoclick chemistry led to the identification of HELLS as a helicase for DNA G-quadruplexes
Zi Gao, Yiewoon Chong, Xiaomei He, Jun Yuan, Yinsheng Wang

TL;DR
This study uses a new chemical method to identify proteins that interact with DNA G-quadruplexes, revealing HELLS as a protein that can bind and resolve these structures.
Contribution
A novel photoclick chemistry-based method was developed to identify G4-binding proteins, leading to the discovery of HELLS as a G4 helicase.
Findings
99 proteins were identified as enriched with G4 structures from the human telomere.
HELLS was shown to bind and resolve G4 structures in vitro and in chromatin.
The interaction between HELLS and G4 structures modulates gene expression.
Abstract
Guanine quadruplexes (G4s) are unique secondary structures of nucleic acids with functions in many biological processes. Understanding the functions of DNA G4s requires knowledge about their recognition by cellular proteins. Here, we developed a method involving photoclick chemistry and LC-MS/MS-based quantitative proteomics for uncovering G4-binding proteins (G4BPs). By incorporating a photoactivatable ortho-nitrobenzylamine moiety into G4 DNA probes and employing UVA irradiation along with stringent washing, we identified 99 proteins enriched with G4 structures derived from the human telomere. By employing fluorescence anisotropy, fluorescence resonance energy transfer, immunofluorescence microscopy, and ChIP-seq analyses, we demonstrated the abilities of one of these proteins, HELLS, in binding and resolving G4 structures in vitro and in chromatin. We also found that HELLS-G4…
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Taxonomy
TopicsDNA and Nucleic Acid Chemistry · Photochromic and Fluorescence Chemistry · Advanced biosensing and bioanalysis techniques
