Analysis of complex protein samples by two-dimensional electrophoresis (2-DE) is often more difficult in the presence of a few predominant proteins. In plasma, proteins such as albumin mask proteins of lower abundance, as well as significantly limiting the amount of protein that can be loaded onto the immobilized pH gradient strip. In this paper the Gradiflow, a preparative electrophoresis system, has been used to deplete human plasma of the highly abundant protein albumin under native and denatured conditions. A three step protocol incorporating a charge separation to collect proteins with an isoelectric point greater than albumin and two size separations to isolate proteins larger and smaller than albumin, was used. When the albumin depleted fractions were analysed on pH 3-10 2-DE gels, proteins that were masked by albumin were revealed and proteins not seen in the unfractionated plasma sample were visualised. Matrix-assisted laser desorption/ionisation-time of flight mass spectrometry analysis confirmed the identification of the protein that lies beneath albumin to be C4B-binding protein alpha chain. The liquid fractions from the Gradiflow separations were also analysed by liquid chromatography-tandem mass spectrometry to confirm the proteins were separated according to their size and charge mobility in an electric field.
The Gradiflow trade mark, a preparative electrophoresis instrument capable of separating proteins on the basis of their size or charge, was used to separate whole cell lysates, prepared from bakers yeast (Saccharomyces cerevisiae) and Chinese snow pea seeds (Pisum sativum macrocarpon), into protein fractions of different pH regions. Both broad and narrow range (with a difference of approximately 1 pH unit) pH fractions were obtained. Analysis of the protein fractions by isoelectric focusing gels and two-dimensional (2-D) polyacrylamide gel electrophoresis indicated minimal overlap between the pH fractions. Further, when the prefractionated acidic samples were analyzed on pH 4-7 immobilized pH gradient 2-D gels, improved resolution of the proteins within the chosen pH region was achieved compared to the unfractionated samples. This study demonstrates that the Gradiflow could be used as a preparative electrophoresis tool for the isolation of proteins into distinct pH fractions.
Gradiflow, a preparative electrophoresis separation device, was utilized to develop and test generic protocols for the preparation of monoclonal antibodies (MAbs) from tissue culture supernatant and ascites fluid. The charge based protocol separated the high pI antibodies from the lower isoelectric points (pI) contaminants by either moving the antibody (ascites fluid) or contaminants (tissue culture supernatant) through a polyacrylamide separation membrane. A total of 60 separations were performed with tissue culture supernatant, and a further 30 separations with ascites fluid. The Gradiflow procedure resulted in higher yields, equivalent functionality and similar purity compared with affinity chromatography antibody preparation on protein A and G. The results suggest that the Gradiflow protocols may be an alternative method of antibody preparation for these samples.
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