Scientific Reports (Feb 2022)

A multiparametric fluorescence assay for screening aptamer–protein interactions based on microbeads

  • Carsten Schmidt,
  • Anne Kammel,
  • Julian A. Tanner,
  • Andrew B. Kinghorn,
  • Muhammad Moman Khan,
  • Werner Lehmann,
  • Marcus Menger,
  • Uwe Schedler,
  • Peter Schierack,
  • Stefan Rödiger

DOI
https://doi.org/10.1038/s41598-022-06817-0
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 10

Abstract

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Abstract For improving aptamer-ligand binding we have developed a screening system that defines optimal binding buffer composition. Using multiplex assays, one buffer system is needed which guarantees the specific binding of all aptamers. We investigated nine peer-reviewed DNA aptamers. Non-specific binding of aptamers is an obstacle. To address this, we investigated 16 proteins as specificity controls bound covalently to encoded microbeads in a multiplex assay. Increasing the NaCl concentration decreased the binding for all aptamers. Changing pH values by one unit higher or lower did not influence the aptamer binding significantly. However, pH < 5 led to non-specific binding for all aptamers. The PfLDH-aptamer selected in the absence of divalent cations exhibited doubling of its binding signal by the addition of Ca2+ and Mg2+. We confirmed Ca2+ and Mg2+ dependency of the aptamers for streptavidin and thrombin by observing a 90% and 50% binding decrease, respectively. We also achieved a doubling of binding for the streptavidin aptamer when replacing Ca2+ and Mg2+ by Mn2+. A buffer suitable for all aptamers can have considerable variations in pH or ionic strength, but divalent cations (Ca2+, Mg2+, Mn2+) are essential.