“Protein-Like” Copolymers: Effect of Polymer Architecture on the Performance in Bioseparation Process

Abstract

Full Paper: Recently, a new class of copolymers, socalled protein-like copolymers has been predicted theoretically by computer simulation. In these copolymers, the conformation of the copolymer determines the exposure of certain comonomer units to the outer solution. Depending on the conformation, copolymer molecules with essentially the same comonomer composition could have pronouncedly different properties. The authors demonstrated experimentally such behavior in case of poly[(N- vinylcaprolactam)-co-(N-vinylimidazole)] (Dokl. Chem. 2001, 375, 637). One more group of copolymers with protein-like behavior is copolymers of N-isopropylacrylamide with N-vinylimidazole. Poly[(N-isopropylacrylamide)-co-(N-vinylimidazole)] was synthesized by radical polymerization and separated into two fractions using immobilized metal affinity chromatography on Cu 2 + - loaded iminodiacetic acid Sepharose CL 6B (Cu 2 + -IDA- sepharose). The unbound fraction which passed through the column and bound fraction eluted with ethylenediaminetetraacetic acid, disodium salt (EDTA) solution differed significantly in molecular weight, 1.4 × 10 6 and 1.35 × 10 5 , respectively but were very close in comonomer composition, 7.8 and 9.1 mol-% of imidazole, respectively. The composition of bound fraction was confirmed by titration of imidazole groups. Despite close chemical composition, the bound and unbound fraction behaved differently with respect to temperature-induced phase separation at different pH values, the dependence of hydrodynamic diameter on pH and concentration of Cu 2 + - ions, and the coprecipitation of soybean trypsin inhibitor with the copolymer in the presence of Cu 2 + -ions. The differences in the behavior of copolymer fractions are rationalized assuming that the bound fraction presents a protein-like copolymer.