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Imaging intracellular metabolite and protein changes in live mammalian cells with bright fluorescent RNA-based genetically encoded sensors

Mengyue Fang, Huiwen Li, Xin Xie, Hui Wang, Ying Jiang, Tianyu Li, Bibi Zhang, Xin Jiang, Yueyang Cao, Rui Zhang, Dasheng Zhang, Yuzheng Zhao, Linyong Zhu, Xianjun Chen, Yi Yang

2023Biosensors and Bioelectronics21 citationsDOIOpen Access PDF

Abstract

Fluorescent RNA (FR)-based genetically encoded sensors have been engineered to detect various essential metabolites in living systems. However, the unfavorable characteristics of FR impede sensor applications. Here, we describe a strategy for converting Pepper fluorescent RNA into a series of fluorescent sensors to detect their cognate targets both in vitro and in live cells. Compared to previously developed FR-based sensors, Pepper-based sensors exhibited expanded emission of up to 620 nm and markedly improved cellular brightness, allowing robust and real-time monitoring of the pharmacologic-triggered dynamics changes in the intracellular level of S-adenosylmethionine (SAM) and the optogenetic manipulated protein translocation in live mammalian cells. Furthermore, signal amplification in fluorescence imaging of the target was achieved using the CRISPR-display strategy by incorporating a Pepper-based sensor into the sgRNA scaffold. Together, these results demonstrate that Pepper can be readily developed into high-performance FR-based sensors to detect various cellular targets.

Topics & Concepts

FluorescenceYellow fluorescent proteinGreen fluorescent proteinRNAOptogeneticsFluorescent proteinCell biologyLive cell imagingMolecular beaconIntracellularBiologyBiophysicsChemistryBiochemistryCellOligonucleotideGeneQuantum mechanicsPhysicsNeuroscienceCRISPR and Genetic EngineeringAdvanced biosensing and bioanalysis techniquesRNA and protein synthesis mechanisms
Imaging intracellular metabolite and protein changes in live mammalian cells with bright fluorescent RNA-based genetically encoded sensors | Litcius