Evolution of abiotic cubane chemistries in a nucleic acid aptamer allows selective recognition of a malaria biomarker

Author:

Cheung Yee-Wai,Röthlisberger PascalORCID,Mechaly Ariel E.ORCID,Weber Patrick,Levi-Acobas Fabienne,Lo YoungORCID,Wong Alvin W. C.,Kinghorn Andrew B.,Haouz AhmedORCID,Savage G. PaulORCID,Hollenstein MarcelORCID,Tanner Julian A.ORCID

Abstract

Nucleic acid aptamers selected through systematic evolution of ligands by exponential enrichment (SELEX) fold into exquisite globular structures in complex with protein targets with diverse translational applications. Varying the chemistry of nucleotides allows evolution of nonnatural nucleic acids, but the extent to which exotic chemistries can be integrated into a SELEX selection to evolve nonnatural macromolecular binding interfaces is unclear. Here, we report the identification of a cubane-modified aptamer (cubamer) against the malaria biomarkerPlasmodium vivaxlactate dehydrogenase (PvLDH). The crystal structure of the complex reveals an unprecedented binding mechanism involving a multicubane cluster within a hydrophobic pocket. The binding interaction is further stabilized through hydrogen bonding via cubyl hydrogens, previously unobserved in macromolecular binding interfaces. This binding mechanism allows discriminatory recognition ofP. vivaxoverPlasmodium falciparumlactate dehydrogenase, thereby distinguishing these highly conserved malaria biomarkers for diagnostic applications. Together, our data demonstrate that SELEX can be used to evolve exotic nucleic acids bearing chemical functional groups which enable remarkable binding mechanisms which have never been observed in biology. Extending to other exotic chemistries will open a myriad of possibilities for functional nucleic acids.

Funder

HKU Seed fund for basic research

HKU Seed Fund for Basic Research

Institut Pasteur

University of Hong Kong Outsanding Young-Researcher Award

University of Hong Kong Outstanding Research Student Supervisor Award

Publisher

Proceedings of the National Academy of Sciences

Subject

Multidisciplinary

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