MIPdatabase
Authors: Ertürk G, Akhoundian M, Lueg-Althoff K, Shinde S, Yeung SY, Hedström M, Schrader T, Mattiasson B, Sellergren B
Article Title: Bisphosphonate ligand mediated ultrasensitive capacitive protein sensor: complementary match of supramolecular and dynamic chemistry.
Publication date: 2019
Journal: New Journal of Chemistry
Volume: 43
Issue: (2)
Page numbers: 847-852.
DOI: 10.1039/C8NJ05238G
Abstract: Modern healthcare demands rapid and accurate detection of proteins/enzymes at the ultratrace level. Herein we present a molecularly imprinted capacitive sensor for trypsin, developed by microcontact imprinting. High affinity and selectivity was achieved by doping the prepolymerization mixture with a stoichiometric amount of methacrylamide-based bisphosphonate (BP) monomer. Taking advantage of the specific interaction between bisphosphonate binding monomers and lysine/arginine residues on the surface of trypsin, we have constructed a powerful polymeric sensor. The BP based sensor has the ability to recognize trypsin over other arginine-rich proteins, even in high ionic strength buffers with a sub-picomolar detection limit (pM). We believe that the combination of supramolecular chemistry, molecular imprinting and advanced instrumentation has a potential for future drug development and diagnostics that extends beyond biomolecular recognition
Template and target information: protein, trypsin
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