Project Details
Ligand-templated assembly of aptamers and ribozymes from short borono-based nucleic acids sequences
Applicant
Professorin Dr. Sabine Müller
Subject Area
Biological and Biomimetic Chemistry
Biochemistry
Organic Molecular Chemistry - Synthesis and Characterisation
Biochemistry
Organic Molecular Chemistry - Synthesis and Characterisation
Term
from 2016 to 2021
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 316800023
The predictable nature of nucleic acid hybridization offers a simple and cutting-edge platform to program assemblies with emerging function. While nucleic acids are known to be versatile biomolecules that play a crucial role in regulating gene expression in various organisms, the burgeoning use of nucleic acids as a material to organize the precise arrangements of specific molecules marked an important milestone in the relatively young history of smart bioarchitectures. While functional DNAs and RNAs hold great promise for future applications in nanotechnology and bioanalysis, in this project, we set out to design and study functional stimuli-responsive nucleic acids-based architectures, capable of self-assembling by formation of reversible linkages. Based on the complementary expertise of the two partners, the main goal of the present project is to induce the self-assembly of small aptamers, ribozymes and aptazymes from short DNA or RNA fragments modified with a 5'-boronic acid, and to demonstrate their functionality. With respect to possible application of our results, we see potential in the field of biosensing; a system composed of a collection of 5'-boronic acid modified oligonucleotides could be used for detection/sensing of a chosen analyte. We consider our work being relevant not only for the field of biosensing, but moreover for investigations into RNA world scenarios, where self-organization and self-assembly of smaller oligonucleotides to larger functional entities might have played an important role. As has been hypothesized, boronic acids forming reversible linkages with the cis-diol of ribose may have preceded RNA phosphate linkages, and the demonstration of boronic acid linkage based self-assembly would strongly support this idea.
DFG Programme
Research Grants
International Connection
France
Partner Organisation
Agence Nationale de la Recherche / The French National Research Agency
Cooperation Partner
Professor Dr. Michael Smietana