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Literature DB >> 26280409

Decoupling competing surface binding kinetics and reconfiguration of receptor footprint for ultrasensitive stress assays.

Samadhan B Patil^1,2, Manuel Vögtli¹, Benjamin Webb^1,3, Giuseppe Mazza⁴, Massimo Pinzani⁴, Yeong-Ah Soh², Rachel A McKendry¹, Joseph W Ndieyira^1,5.

Abstract

Cantilever arrays have been used to monitor biochemical interactions and their associated stress. However, it is often necessary to passivate the underside of the cantilever to prevent unwanted ligand adsorption, and this process requires tedious optimization. Here, we show a way to immobilize membrane receptors on nanomechanical cantilevers so that they can function without passivating the underlying surface. Using equilibrium theory, we quantitatively describe the mechanical responses of vancomycin, human immunodeficiency virus type 1 antigens and coagulation factor VIII captured on the cantilever in the presence of competing stresses from the top and bottom cantilever surfaces. We show that the area per receptor molecule on the cantilever surface influences ligand-receptor binding and plays an important role on stress. Our results offer a new way to sense biomolecules and will aid in the creation of ultrasensitive biosensors.

Entities: Chemical Species

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Year: 2015 PMID： 26280409 DOI： 10.1038/nnano.2015.174

Source DB: PubMed Journal: Nat Nanotechnol ISSN： 1748-3387 Impact factor: 39.213

35 in total

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4. Surface mediated cooperative interactions of drugs enhance mechanical forces for antibiotic action.

Authors: Joseph W Ndieyira; Joe Bailey; Samadhan B Patil; Manuel Vögtli; Matthew A Cooper; Chris Abell; Rachel A McKendry; Gabriel Aeppli
Journal: Sci Rep Date: 2017-02-03 Impact factor: 4.379

5. Delivery of MSCs with a Hybrid β-Sheet Peptide Hydrogel Consisting IGF-1C Domain and D-Form Peptide for Acute Kidney Injury Therapy.

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