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Genetically Encoded Ratiometric RNA‐Based Sensors for Quantitative Imaging of Small Molecules in Living Cells
Authors:Rigumula Wu  Aruni P. K. K. Karunanayake Mudiyanselage  Fatemeh Shafiei  Bin Zhao  Yousef Bagheri  Qikun Yu  Kathleen McAuliffe  Kewei Ren  Mingxu You
Abstract:Precisely determining the intracellular concentrations of metabolites and signaling molecules is critical in studying cell biology. Fluorogenic RNA‐based sensors have emerged to detect various targets in living cells. However, it is still challenging to apply these genetically encoded sensors to quantify the cellular concentrations and distributions of targets. Herein, using a pair of orthogonal fluorogenic RNA aptamers, DNB and Broccoli, we engineered a modular sensor system to apply the DNB‐to‐Broccoli fluorescence ratio to quantify the cell‐to‐cell variations of target concentrations. These ratiometric sensors can be broadly applied for live‐cell imaging and quantification of metabolites, signaling molecules, and other synthetic compounds.
Keywords:Aptamere  Biosensoren  Fluorogene RNA  Kontrastmittel  Ratiometrische Sensoren
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