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Synergistic DNA‐ and Protein‐Based Recognition Promote an RNA‐Templated Bio‐orthogonal Reaction

Niall M. McLoughlin, Arne Kuepper, Saskia Neubacher, Tom N. Grossmann

2021Chemistry - A European Journal13 citationsDOIOpen Access PDF

Abstract

Biomolecular assemblies composed of proteins and oligonucleotides play a central role in biological processes. While in nature, oligonucleotides and proteins usually assemble via non-covalent interactions, synthetic conjugates have been developed which covalently link both modalities. The resulting peptide-oligonucleotide conjugates have facilitated novel biological applications as well as the design of functional supramolecular systems and materials. However, despite the importance of concerted protein/oligonucleotide recognition in nature, conjugation approaches have barely utilized the synergistic recognition abilities of such complexes. Herein, the structure-based design of peptide-DNA conjugates that bind RNA through Watson-Crick base pairing combined with peptide-mediated major groove recognition is reported. Two distinct conjugate families with tunable binding characteristics have been designed to adjacently bind a particular RNA sequence. In the resulting ternary complex, their peptide elements are located in proximity, a feature that was used to enable an RNA-templated click reaction. The introduced structure-based design approach opens the door to novel functional biomolecular assemblies.

Topics & Concepts

OligonucleotideRNAPeptideMolecular recognitionConjugateDNASupramolecular chemistryCombinatorial chemistryComputational biologyChemistryBase pairBiologyBiochemistryMoleculeGeneMathematical analysisMathematicsOrganic chemistryAdvanced biosensing and bioanalysis techniquesDNA and Nucleic Acid ChemistryClick Chemistry and Applications
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