Aqueous polymer two-phase systems formed by new thermoseparating polymers.

J Persson, H O Johansson, I Galaev, B Mattiasson, F Tjerneld
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引用次数: 59

Abstract

A set of new polymers that can be used as phase forming components in aqueous two-phase systems is presented. All polymers studied have thermoseparating properties i.e. form one separate polymer enriched phase and one aqueous solution when heated above the critical temperature. This property makes the polymers attractive alternatives to the polymers used in traditional aqueous two-phase systems such as poly(ethylene glycol) (PEG) and dextran. The thermal phase separation simplifies recycling of the polymers, thus making the aqueous two-phase systems more cost efficient and suitable for use in large scale. Thermoseparating polymers studied have been copolymers of ethylene oxide and propylene oxide (EO-PO), poly (N-isopropylacrylamide) (poly-NIPAM), poly vinyl caprolactam (poly-VCL) and copolymers of N-isopropylacrylamide and vinyl caprolactam with vinyl imidazole (poly(NIPAM-VI) and poly(VCL-VI), respectively). In addition, the copolymer poly(NIPAM-VI) has the property to be uncharged at pH above 7.0 and positively charged at lower pH. This allows the partitioning of protein to be directed by changing the pH in the system instead of the traditional addition of salt to direct the partitioning. Hydrophobically modified EO-PO copolymer (HM-(EO-PO)) with alkyl groups (C14) at both ends forms two-phase system with for example poly(NIPAM-VI). The phase diagram for poly(NIPAM-VI)/HM-(EO-PO) was determined and the model proteins lysozyme and BSA were partitioned in this system. For BSA in poly(NIPAM-VI)/HM-(EO-PO) system a change in pH from 8.0 to 5.4 results in a change of partition coefficient from K = 0.8 to K = 5.1, i.e. BSA could be transferred from the HM-(EO-PO) phase to the poly(NIPAM-VI) phase. BSA partitioning in poly(NIPAM-VI)/HM-(EO-PO) system allows quantitative BSA recovery, and recoveries of poly(NIPAM-VI) and HM-(EO-PO) were 53% and 92%, respectively, after the thermoseparation step.

新型热分离聚合物形成的水相聚合物体系。
提出了一种新型聚合物,可作为水相两相体系中的相形成组分。所研究的所有聚合物都具有热分离特性,即当加热到临界温度以上时,形成一个单独的聚合物富集相和一个水溶液。这种特性使得这种聚合物成为传统的双水相体系(如聚乙二醇和葡聚糖)中使用的聚合物的有吸引力的替代品。热相分离简化了聚合物的回收,从而使水两相系统更具成本效益,适合大规模使用。所研究的热分离聚合物有环氧乙烷与环氧丙烷共聚物(EO-PO)、聚n -异丙基丙烯酰胺(聚- nipam)、聚乙烯基己内酰胺(聚- vcl)以及n -异丙基丙烯酰胺与乙烯基咪唑共聚物(聚(NIPAM-VI)和聚(VCL-VI)。此外,共聚物聚(NIPAM-VI)在pH值高于7.0时不带电,在pH值较低时带正电。这使得通过改变系统中的pH值来指导蛋白质的分配,而不是传统的添加盐来指导分配。在两端有烷基(C14)的疏水改性EO-PO共聚物(HM-(EO-PO))与例如聚(NIPAM-VI)形成两相体系。测定了poly(NIPAM-VI)/HM-(EO-PO)的相图,并对模型蛋白溶菌酶和牛血清白蛋白进行了划分。对于聚(NIPAM-VI)/HM-(EO-PO)体系中的BSA, pH从8.0变化到5.4导致分配系数从K = 0.8变化到K = 5.1,即BSA可以从HM-(EO-PO)相转移到聚(NIPAM-VI)相。在poly(NIPAM-VI)/HM-(EO-PO)体系中进行BSA分配,可以定量回收BSA,经过热分离步骤后,poly(NIPAM-VI)和HM-(EO-PO)的回收率分别为53%和92%。
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