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High-throughput iSpinach fluorescent aptamer-based real-time monitoring of in vitro transcription

Weitong Qin, Liang Li, Fan Yang, Siyuan Wang, Guangyu Yang

2022Bioresources and Bioprocessing13 citationsDOIOpen Access PDF

Abstract

In vitro transcription (IVT) is an essential technique for RNA synthesis. Methods for the accurate and rapid screening of IVT conditions will facilitate RNA polymerase engineering, promoter optimization, and screening for new transcription inhibitor drugs. However, traditional polyacrylamide gel electrophoresis (PAGE) and high-performance liquid chromatography methods are labor intensive, time consuming and not compatible with real-time analysis. Here, we developed an inexpensive, high-throughput, and real-time detection method for the monitoring of in vitro RNA synthesis called iSpinach aptamer-based monitoring of Transcription Activity in Real-time (STAR). STAR has a detection speed at least 100 times faster than conventional PAGE method and provides comparable results in the analysis of in vitro RNA synthesis reactions. It also can be used as an easy and quantitative method to detect the catalytic activity of T7 RNA polymerase. To further demonstrate the utility of STAR, it was applied to optimize the initially transcribed region of the green fluorescent protein gene and the 3T4T variants demonstrated significantly enhanced transcription output, with at least 1.7-fold and 2.8-fold greater output than the wild-type DNA template and common transcription template, respectively. STAR may provide a valuable tool for many biotechnical applications related to the transcription process, which may pave the way for the development of better RNA-related enzymes and new drugs.

Topics & Concepts

Transcription (linguistics)RNAT7 RNA polymeraseAptamerIn vitroComputational biologyDNARNA polymerase IIPolymeraseMolecular biologyBiologyChemistryPromoterGeneGene expressionBiochemistryEscherichia coliLinguisticsPhilosophyBacteriophageAdvanced biosensing and bioanalysis techniquesRNA and protein synthesis mechanismsCRISPR and Genetic Engineering
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