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  • Simplification of affinity macroporous monolith microfluidic column synthesis and its ability for protein separation.

Simplification of affinity macroporous monolith microfluidic column synthesis and its ability for protein separation.

Journal of pharmaceutical and biomedical analysis (2020-01-25)
Ashish Khaparde, Kishore K R Tetala
ABSTRACT

A generic multi-component approach was designed to perform simultaneous in situ polymerization and ligand immobilization to develop affinity porous polymer based chromatography resin in a facile mode. This strategy exploits the regioselective ring opening reaction between epoxy group of monomer and native functional group of ligand (i.e. amine) under aqueous condition (pH 9.7). As a proof-of-concept, reaction of iminodiacetic acid (IDA) with allyl glycidyl ether (AGE) in presence of other monomer (HEMA) and crosslinkers (DATD, PDA) for 4 h via thermal initiation process (temperature of 65 °C) was shown. Successful polymerization (both ex situ &in situ) was confirmed by visual observation, surface morphology of the polymer by scanning electron microscope and ligand immobilization by FT-IR analysis. Chelation of the metal-ion i.e. copper (Cu (II)) with IDA in the monolith showed IgG adsorption capacity (27.8 mg/g monolith) over IDA-monolith without metal-ion. The affinity column has shown efficient capture of high abundant proteins such as IgG, transferrin and albumin from human plasma.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
(+)-N,N′-Diallyltartramide, ≥99%