Selection and Characterization of SARS-CoV-2 Spike Binding Clickmers.
Nima Moradzadeh, Anna Jonczyk, Anton Schmitz, Volkmar Fieberg, Laia Civit, Julián Valero, Michael Famulok, Günter Mayer
Abstract
Open AccessExpanding the chemical repertoire of canonical nucleotides is key to unlocking the full functional potential of aptamers for diagnostic use. Herein, click-systematic evolution of ligands by exponential enrichment (SELEX) is employed to generate chemically modified DNA aptamers, termed clickmers, that target the SARS-CoV-2 spike (CoV2-S) glycoprotein. Two independent split-combine selection strategies yield distinct clickmer families functionalized with benzofuran or indole moieties. Lead candidates (BF1 and N2) demonstrate nanomolar affinity for wild-type CoV2-S and maintain binding to multiple variants, including Alpha, Delta, and Mu, as validated by flow cytometry, surface plasmon resonance, and microscale thermophoresis. Structure-function analysis reveals essential click-in positions for both full-length clickmers and a truncated N2 variant, as short as 31 nucleotides, which displays increased binding to the Omicron variant. These results highlight the versatility of the click-SELEX platform and exemplify its successful application to a clinically relevant target, advancing previous developments in the field.