Aqueous two-phase systems strategies for the recovery and characterization of biological products from plants

## Abstract The development of recovery processes using aqueous two‐phase systems (ATPS) has been limited by the extensive experimental work required to establish the optimal system parameters to ensure selective partitioning of the product of interest. Although using full factorial experiments has

## Abstract In this study the use of an aqueous two‐phase system (ATPS) following the direct chemical extraction of a recombinant viral coat protein, from the cytoplasm of __Escherichia coli__, is evaluated. The driving force is the need to establish an economically‐viable process for the manufactu

## Abstract A novel process for the recovery of c‐phycocyanin from __Spirulina maxima__ exploiting aqueous two‐phase systems (ATPS), ultrafiltration and precipitation was developed in order to reduce the number of unit operations and benefit from an increased yield of the protein product. The evalu

## Abstract A new aqueous two‐phase system (ATPS) based on a degradable polymer called poly(ethylene oxide sulfide) with a molecular weight of 33 000 g mol^−1^ (identified as PEOS‐12) and potassium phosphate was exploited for the potential recovery of proteins. An initial characterisation of the AT

## Abstract **BACKGROUND:** PEGylation reactions often result in a heterogeneous population of conjugated species and unmodified proteins that presents a protein separations challenge. Aqueous two‐phase systems (ATPS) are an attractive alternative for the potential fractionation of native proteins