Publication | Closed Access
A Programmable Signaling Molecular Recognition Nanocavity Prepared by Molecular Imprinting and Post‐Imprinting Modifications
27
Citations
25
References
2016
Year
Post‐imprinting ModificationsEngineeringBiomimetic MaterialsMolecular Recognition FieldsPolymer NanotechnologyPeptide EngineeringResponsive PolymersMolecular BiologyBiofabricationBiomedical EngineeringPolymersMolecular Recognition AbilitiesMacromolecular EngineeringBiosensing SystemsBiomedical ApplicationsBioimagingMolecular RecognitionPolymer ChemistryBiophysicsNanotechnologyNanobiotechnologyMolecular ImprintingMolecular EngineeringBiomolecular EngineeringPolymer-drug ConjugateNatural SciencesPolymer ScienceSmall Molecules
Abstract Inspired by biosystems, a process is proposed for preparing next‐generation artificial polymer receptors with molecular recognition abilities capable of programmable site‐directed modification following construction of nanocavities to provide multi‐functionality. The proposed strategy involves strictly regulated multi‐step chemical modifications: 1) fabrication of scaffolds by molecular imprinting for use as molecular recognition fields possessing reactive sites for further modifications at pre‐determined positions, and 2) conjugation of appropriate functional groups with the reactive sites by post‐imprinting modifications to develop programmed functionalizations designed prior to polymerization, allowing independent introduction of multiple functional groups. The proposed strategy holds promise as a reliable, affordable, and versatile approach, facilitating the emergence of polymer‐based artificial antibodies bearing desirable functions that are beyond those of natural antibodies.
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