A programmable ribozyme for RNA signal transduction.

RNA detection applications can be augmented if a sensed RNA can be directly functionally transduced. However, there is no generalisable approach that allows an RNA trigger itself to directly activate diverse non-coding RNA effectors. Here, we report engineering of a programmable, RNA trigger-activated, dual-site self-cleaving ribozyme with modular sensing domain and cleavage product. This platform, UNlocked by Activating RNA (UNBAR), is entirely encoded within one RNA strand. The ribozyme can be designed to be almost completely inactive in absence of trigger, and to exhibit single-nucleotide trigger specificity. UNBAR ribozymes carry out cell-free sensing and protein-free amplification of microRNA and viral RNA sequences, and trigger-dependent release of ncRNA effectors sgRNA, shRNA and aptamer. We demonstrate RNA detection and functional transduction by a cleaved aptamer, whose fluorescence can be directly read out as a function of trigger RNA. We further engineer the ribozyme for function in cells, and demonstrate trigger-dependent regulation of CRISPR-Cas9 editing by sgRNA-embedded ribozymes in zebrafish embryos and human cells. UNBAR is a first-in-class modality with potential to be developed into a versatile platform for synthetic biology, diagnostics and gene regulation.