Metal ion mediated recognition in molecularly imprinted polymers

In the present study molecularly imprinted polymers (MIPS) were prepared against a series of structurally related compounds containing various numbers of pyridyl groups. The goal, to increase understanding of the mechanisms of recognition in MIPS, was achieved by comparing the patterns of retention

Molecularly imprinted polymers (MIPs) selective for the ct2-adrenoreceptor antagonist yohimbine (1) have been prepared and studied as ot2-adrenoreceptor mimics. Marked ligand stereoselectivity was demonstrated in radioligand binding and HPLC studies upon comparison to blank and corynanthine (2) MIPs

## Abstract Molecularly imprinted polymers (MIPs) have been prepared from methacrylic acid (MAA) and ethylene glycol dimethacrylate (EGDMA) as the functional monomer and crosslinker, respectively, for cholecystokinin C terminal pentapeptide (CCK‐5), and screened for their rebinding characteristics.

The use of a novel chiral functional monomer system in molecular imprinting protocols is described. The monomer, dibenzyl (2R,3R)-O-monoacryloyl tartrate, possesses a hydroxyl moiety which can be used to direct template-functional monomer interactions during molecular imprinting polymerization. This

Micro-contact imprinting has been used to form thin-film molecular imprints of ovalbumin (OVA) in polymers supported on glass slides. Thermocalorimetric data was used to optimise the choice of functional monomer and cross-linker to maximise selectivity and minimise non-specific recognition. A polyme

A novel molecularly imprinted polymer (MIP) system selective for D-phenylalanine is described where polymerization is performed in aqueous solution. The unique polymer system comprises a hydrophobic moiety-selective functional monomer, polymerizable b-cyclodextrin, an electrostatic interacting funct