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Abstract: In traditional molecular imprinting reactions, the initial radicals generated by thermo- or photo-decomposition are randomly distributed in the reaction mixture. Because a noticeable portion of the initial radicals is able to cause self-polymerization of the crosslinking monomer, a significant part of the polymer product does not contain successfully imprinted molecular recognition sites. To solve this problem, we designed a molecular imprinting method using functionalized radical initiator to replace the conventional combination of initiator and functional monomer. Since the active radicals in the reaction mixture carry a template-binding moiety, the actual radical polymerization becomes more likely to take place nearby the molecular template. As a result, the efficiency of molecular imprinting can be improved. In this work, we report the use of amidine-functionalized initiator to synthesize molecularly imprinted polymers (MIPs) for selective recognition of methotrexate, a cytostatic drug used for cancer therapy. As glutamic acid represents a substructure of methotrexate, we select to use N-terminal protected glutamic acid as template to synthesize the MIPs. An initiator, 2,2'-azobis(2-amidinopropane) dihydrochloride (AAPH) is used to provide strong interaction with the molecular template. Two MIPs synthesized using glutamic acid derivatives as templates display specific binding to the fluorescent amino acid derivative Fmoc-Glu. When the molecular binding is tested against methotrexate, the MIP particles also exhibit specific binding for the cytostatic drug. Using cationic functional initiator to target carboxyl epitope of molecular target, this work provides an additional example of molecular imprinting based on functionalized radical initiators
Template and target information: glutamic acid, methotrexate
Author keywords: molecularly imprinted polymer, amidine, Functional initiator, Methotrexate, glutamic acid, Cytostatic drug