Optimization of RNA Pepper sensors for the detection of arbitrary RNA targets

Abstract

ABSTRACTThe development of fluorescent light up RNA aptamers (FLAPs) has paved the way for the creation of sensors to track RNA in live cells. A major challenge with FLAP sensors is their brightness and their limited signal-to-background ratio bothin vivoandin vitro. To address this, we develop sensors using the Pepper aptamer, which exhibits superior brightness and photostability when compared to other FLAPs. The sensors are designed to fold into a low fluorescence conformation, and to switch to a high fluorescence conformation through toehold or loop-mediated interactions with their RNA target. Our sensors detect RNA targets as short as 20 nucleotides in length with a wide dynamic range over 300-foldin vitro, and we describe strategies for optimizing the sensor’s performance for any given RNA targets. To demonstrate the versatility of our design approach, we generate Pepper sensors for a range of specific, biologically relevant RNA sequences. Our design and optimization strategies are portable to other FLAPs, and offer a promising foundation for future development of RNA sensors with high specificity and sensitivity for detecting RNA biomarkers with multiple applications.