Electrochemical aptasensors: unravelling the critical interactions between aptamers, ligands, and electrodes

Aptamers are synthetic nucleic acid single-stranded oligonucleotides that bind to a wide range of ligands, including cells, proteins, DNA strands, metal ions, and small molecules, with high specificity and affinity. Aptamers have also proven to be highly stable, readily adaptable to chemical modifications, and exhibit reversible binding. As a result, aptamer-based biosensors (aptasensors) are promising replacements for antibody-based biosensors in many applications, particularly for small molecule ligands. This thesis explores an aptamer that binds the drug methamphetamine, and its prospects when incorporated in an electrochemical (e-chem) signal transduction platform. Specifically, we examine the range of interactions between the aptamer and ligand, and with electrodes, and identify a number of challenges in generating robust e-chem aptasensors. Due to their size and limited number of functional groups, further understanding of the aptamer-small molecule ligand interactions is required for the design of future aptasensors – particularly the thermodynamics and structural information about the aptamer-ligand interaction. In fact, detecting small molecules with aptasensors can become challenging because target addition may induce little structural change, and therefore numerous nonspecific interactions may emerge as transduced signals from the biosensor. In this thesis, the combination of spectroscopic and calorimetric analytical techniques reveals a conformational selection binding model, in which binding is entropically driven, and the meth binds via hydrophobic and electrostatic interactions and only induces a modest structural change. This first-of-its-kind study is important for the selection and the design of the aptasensor transduction system. Electrochemical (e-chem) aptasensors offer high inherent sensitivity and practicality as a signal transduction platform. Indeed, different e-chem aptasensor formats have been published before, including labelled and label-free sensors. In screening the viability of ...