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Symmetry-breaking malachite green as a near-infrared light-activated fluorogenic photosensitizer for RNA proximity labeling

Lan Li, Jinghua Han, Hei‐Yong G. Lo, Winnie Wai Ling Tam, Jia Han, Edmund C. M. Tse, J. Matthew Taliaferro, Ying Li

2024Nucleic Acids Research16 citationsDOIOpen Access PDF

Abstract

Cellular RNA is asymmetrically distributed in cells and the regulation of RNA localization is crucial for proper cellular functions. However, limited chemical tools are available to capture dynamic RNA localization in complex biological systems with high spatiotemporal resolution. Here, we developed a new method for RNA proximity labeling activated by near-infrared (NIR) light, which holds the potential for deep penetration. Our method, termed FAP-seq, utilizes a genetically encoded fluorogen activating protein (FAP) that selectively binds to a set of substrates known as malachite green (MG). FAP binding restricts the rotation of MG and rapidly activates its fluorescence in a wash-free manner. By introducing a monoiodo modification to MG, we created a photosensitizer (MG-HI) with the highest singlet oxygen generation ability among various MG derivatives, enabling both protein and RNA proximity labeling in live cells. New insights are provided in the transcriptome analysis with FAP-seq, while a deeper understanding of the symmetry-breaking structural arrangement of FAP-MG-HI was obtained through molecular dynamics simulations. Overall, our wash-free and NIR light-inducible RNA proximity labeling method (FAP-seq) offers a powerful and versatile approach for investigating complex mechanisms underlying RNA-related biological processes.

Topics & Concepts

BiologyMalachite greenPhotosensitizerRNABiophysicsPhotochemistryMolecular biologyBiochemistryGeneChemistryOrganic chemistryAdsorptionRNA and protein synthesis mechanismsAdvanced Chemical Sensor TechnologiesClick Chemistry and Applications
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