A new CSLM-based method for determination of the phase behaviour of aqueous mixtures of biopolymers

Abstract

On mixing different types of high molecular weight (bio)polymers in an aqueous solution, phase separation often occurs. In some cases, the occurrence of phase separation may be readily observed, because due to density differences the heavier of the two phases is accumulated at the bottom of the vessel in which the mixture is contained. By using classical techniques, the composition of the two phases may then be determined. In the case where the density differences are not so large, and the viscosity of the system is high, the two phases remain intimately mixed. An alternative route to determine the phase behaviour of these systems might be a microscopic technique (Confocal Scanning Laser Microscopy, CSLM), using the fluorescence intensity of labelled biopolymers to quantify their concentration and phase volume in the system. Experiments were performed with several mixtures of sodium alginate, labelled with fluorescein, and sodium caseinate, fluorescently labelled with Texas Red. The viscosity of the mixtures studied was low enough to allow bulk phase separation of the phases by using an ultracentrifuge. Results of the phase volumes, and the composition of the phases, obtained independently by applying the two different methods (CSLM, or analysis of the separate phases after centrifugation) were compared and found to be in reasonable agreement.