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High-throughput identification of synthetic riboswitches by barcode-free amplicon-sequencing in human cells

Benjamin Strobel, Maike Spöring, Holger Klein, Dragica Blazevic, Werner Rust, Sergi Sayols, Jörg S. Hartig, Sebastian Kreuz

2020Nature Communications49 citationsDOIOpen Access PDF

Abstract

Abstract Synthetic riboswitches mediating ligand-dependent RNA cleavage or splicing-modulation represent elegant tools to control gene expression in various applications, including next-generation gene therapy. However, due to the limited understanding of context-dependent structure–function relationships, the identification of functional riboswitches requires large-scale-screening of aptamer-effector-domain designs, which is hampered by the lack of suitable cellular high-throughput methods. Here we describe a fast and broadly applicable method to functionally screen complex riboswitch libraries (~1.8 × 10 4 constructs) by cDNA-amplicon-sequencing in transiently transfected and stimulated human cells. The self-barcoding nature of each construct enables quantification of differential mRNA levels without additional pre-selection or cDNA-manipulation steps. We apply this method to engineer tetracycline- and guanine-responsive ON- and OFF-switches based on hammerhead, hepatitis-delta-virus and Twister ribozymes as well as U1-snRNP polyadenylation-dependent RNA devices. In summary, our method enables fast and efficient high-throughput riboswitch identification, thereby overcoming a major hurdle in the development cascade for therapeutically applicable gene switches.

Topics & Concepts

RiboswitchComputational biologyRibozymeRNABiologyRNA splicingPseudoknotPolyadenylationGeneGeneticsNon-coding RNARNA and protein synthesis mechanismsRNA modifications and cancerRNA Research and Splicing