Abstract
THE behaviour of proteins1–3, viruses4–7 and cell particles8,9 in aqueous polymer two-phase systems has recently been described. These phase systems consist of water and two water-soluble polymers. Mixtures in water of dextran and methylcellulose, or dextran and polyethylene glycol, are examples of such phase systems. The important characteristic of these systems is their high water content, so that most biochemical substances can be handled in them without denaturation. Each protein or virus particle is distributed in such phase systems in a characteristic manner so that a reproducible partition coefficient is found (partition coefficient, K = concentration of the partitioned substance in the top phase divided by the concentration of the same substance in the bottom phase). The partition coefficient of a particle in a given phase system depends mainly on the surface property of the particle and its size. The larger the size of particle the more unilateral is the distribution. Changes in the size of a protein molecule are reflected in a change in the partition coefficient. For example, the dissociation of Helix pomatia hæmocyanin at certain pH values may be readily followed by measuring its partition coefficient in a dextran–methylcellulose system. Other changes in the structure of a protein molecule, such as the denaturation of serum albumin at low pH values, may cause the protein to move from one phase to the other.
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ALBERTSSON, PÅ., PHILIPSON, L. Antigen–Antibody in Liquid Two-Phase Systems : a Method for studying Immunological Reactions. Nature 185, 38–40 (1960). https://doi.org/10.1038/185038a0
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DOI: https://doi.org/10.1038/185038a0
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