Synthetic bPNAs as Allosteric Triggers of Hammerhead Ribozyme Catalysis

07 February 2019, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

The biochemistry and structural biology of the hammerhead ribozyme (HHR) has been well-elucidated. The secondary and tertiary structural elements that enable sugar-phosphate bond scission to be be catalyzed by this RNA are clearly understood. We have taken advantage of this knowledge base to test the extent to which synthetic molecules, may be used to trigger structure in secondary structure and tertiary interactions and thereby control HHR catalysis. These molecules belong to a family of molecules we call generally call “bPNAs” based on our work on bifacial peptide nucleic acid (bPNA). This family of molecules display the “bifacial” heterocycle melamine, which acts as a base-triple upon capturing two equivalents of thymine or uracil. Loosely structured internal oligouridylate bulges of 4-20 nucleotides can be restructured as triplex hybrid stems upon binding bPNAs. As such, a duplex stem element can be replaced with a bPNA triplex hybrid stem; similarly, a tertiary loop-stem interaction can be replaced with a loop-bPNA-stem complex. In this chapter, we discuss how bPNAs are prepared and applied to study structure-function turn-on in the hammerhead ribozyme system.

Keywords

bPNA
RNA
hammerhead
allosteric
protocols

Supplementary materials

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Methods Enz base triple (2)
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