Immobilized pH gradients for isoelectric focusing. III. Preparative separations in highly diluted gels |
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Authors: | Pier Giorgio Righetti Cecilia Gelfi |
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Affiliation: | Chair of Biochemistry, Faculty of Pharmaceutical Sciences and Department of Biomedical Sciences and Technologies, University of Milan, Via Celoria 2, Milan 20133, Italy |
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Abstract: | A further improvement on the preparative aspects of immobilized pH gradients (IPG) (J. Biochem. Biophys. Methods (1983) 8, 135–172) is described, based on the use of soft (highly diluted) polyacrylamide gels. While in conventional IPGs in 5%T gels an upper load limit of 40–45 mg protein/ml gel volume is found, in 2.5%T gels, containing the same amount of Immobiline, as much as 90 mg protein/ml gel can be applied, without overloading effects. This is an extraordinary amount of material to ba carried by a gel phase, and renders IPG by far the leading technique in any electrophoretic fractionation. A new, two-step casting technique, based on the formation of a %T step and a pH plateau around the application trench, is described. A new method for electrophoretic protein recovery from IPG gel strips, based on embedding on low-gelling agarose (37°C), is reported. The physico-chemical properties of highly diluted gels, in relation to their protein loading ability, are evaluated and discussed. It is recommended that diluted gels (e.g. 3.5%T) be used also in analytical runs, since sharper protein zones are obtained, due to the increased charge density on the polymer coil. |
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Keywords: | immobilized pH gradients isoelectric focusing preparative electrophoresis |
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