Correlation Engine 2.0
Clear Search sequence regions


Sizes of these terms reflect their relevance to your search.

The Mango I and II RNA aptamers have been widely used in vivo and in vitro as genetically encodable fluorogenic markers that undergo large increases in fluorescence upon binding to their ligand, TO1-Biotin. However, while studying nucleic acid sequences, it is often desirable to have trans-acting probes that induce fluorescence upon binding to a target sequence. Here, we rationally design three types of light-up RNA Mango Beacons based on a minimized Mango core that induces fluorescence upon binding to a target RNA strand. Our first design is bimolecular in nature and uses a DNA inhibition strand to prevent folding of the Mango aptamer core until binding to a target RNA. Our second design is unimolecular in nature, and features hybridization arms flanking the core that inhibit G-quadruplex folding until refolding is triggered by binding to a target RNA strand. Our third design builds upon this structure, and incorporates a self-inhibiting domain into one of the flanking arms that deliberately binds to, and precludes folding of, the aptamer core until a target is bound. This design separates G-quadruplex folding inhibition and RNA target hybridization into separate modules, enabling a more universal unimolecular beacon design. All three Mango Beacons feature high contrasts and low costs when compared to conventional molecular beacons, with excellent potential for in vitro and in vivo applications. © 2024 Abdolahzadeh et al.; Published by Cold Spring Harbor Laboratory Press for the RNA Society.

Citation

Amir Abdolahzadeh, Quiana R Ang, Jana R Caine, Shanker Shyam S Panchapakesan, Shinta Thio, Razvan Cojocaru, Peter J Unrau. Turn-on RNA Mango Beacons for trans-acting fluorogenic nucleic acid detection. RNA (New York, N.Y.). 2024 Mar 18;30(4):392-403

Expand section icon Mesh Tags

Expand section icon Substances


PMID: 38282417

View Full Text