The present work describes the application of a novel continuous aqueous two-phase system prototype for the recovery of biomolecules. The prototype is an alternative platform for protein recovery and α-amylase from soybean extracts was used as a model system. The system was selected as an example of low-abundant protein present in complex mixtures. Compared with batch systems, continuous operation in this prototype seems to increase partition coefficient with higher recovery efficiencies. Processing time is reduced at least three times in the continuous system when compared to batch mode, while hold up (volumetric quantity of the opposing phase in a determined phase sample) decreases with decreasing phases flow. Furthermore, similar partition coefficient (Kp > 4) with a higher top phase enzyme recovery (81%) is also obtained in this system probably due to better contact surface between phases, compared with that obtained in batch (79%). A continuous aqueous two-phase system process with purification factor 40-fold higher than batch experiments was achieved. These preliminary results exhibit the potential of continuous systems for the recovery of low-abundant proteins from complex mixtures. The promising performance of this prototype can raise the attention of the industry for the adoption of aqueous two-phase system processes.
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