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On-Demand Electrical Switching of Antibody-Antigen Binding on Surfaces.

Bárbara Santos GomesEleonora CantiniStefano TommasoneJoshua S GibsonXingyong WangQiang ZhuJing MaJames D McGettrickTrystan M WatsonJon A PreeceJackson C Kirkman-BrownStephen J PublicoverPaula M Mendes
Published in: ACS applied bio materials (2018)
The development of stimuli-responsive interfaces between synthetic materials and biological systems is providing the unprecedented ability to modulate biomolecular interactions for a diverse range of biotechnological and biomedical applications. Antibody-antigen binding interactions are at the heart of many biosensing platforms, but no attempts have been made yet to control antibody-antigen binding in an on-demand fashion. Herein, a molecular surface was designed and developed that utilizes an electric potential to drive a conformational change in surface bound peptide moiety, to give on-demand control over antigen-antibody interactions on sensor chips. The molecularly engineered surfaces allow for propagation of conformational changes from the molecular switching unit to a distal progesterone antigen, resulting in promotion (ON state) or inhibition (OFF state) of progesterone antibody binding. The approach presented here can be generally applicable to other antigen-antibody systems and meets the technological needs for in situ long-term assessment of biological processes and disease monitoring on-demand.
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