Joel C. Colburn scite author profile

Analysis of proteins by capillary electrophoresis requires strategies which minimize coulombic interactions with the capillary surface. Thus buffers with pH's above the isoelectric points (pI) of proteins, or near the pI of silanol are required for efficient separation. Covalent modification of the capillary surface is also effective; however, this strategy is technically difficult, abolishes endosmotic flow and suffers from the inherent lability of the siloxane bond. Finally, "dynamic coating" agents, which interact weakly with the capillary surface and therefore, must be included in the separation buffer, suffer from the potential interaction of coating agent with analytes, altering the selectivity of the system. In the following paper, we describe another approach which overcomes all of these difficulties, and demonstrate the ease of use, nondenaturing property, stability and selectivity of the coating strategy with several model protein systems.

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Application of free-solution capillary electrophoresis to the analytical scale separation of proteins and peptides

Grossman¹,

Colburn²,

Lauer³

et al. 1989

Anal. Chem.

277

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The application of free solution capillary electrophoresis (FSCE) to the separation of protein and peptide mixtures is presented. Both qualitative and quantitative aspects of FSCE separations are considered. In addition, a brief introduction describing the separation principle behind FSCE separations and a discussion of electrophoretic mobility are included. The applications were chosen in order to highlight the selectivity of FSCE separations and to demonstrate applications of potential practical interest to the bioanalytical chemist. Comparison of FSCE relative to traditional analytical separation alternatives is stressed throughout. The examples are presented in three broad categories: protein separations, peptide separations, and the application of both to the analysis of recombinant protein products. In the first section, FSCE separations of peptide mixtures are presented which demonstrate the suitability of FSCE for the analysis of the purity of peptide samples, the homogeneity of peptide samples prior to sequencing, the identity of peptides by using electrophoretic mobility values, and the reduction of an intrachain disulfide bridge. In the second section, protein separations are presented that show the resolution of glycoproteins having the same primary structure and the separation of immune complexes from free unreacted antibody and antigen. In the final section, highly purified and well-characterized samples of biosynthetic human insulin (BHI), biosynthetic human growth hormone (hGH), and their derivatives were used to evaluate FSCE as a complement and/or alternative to conventional analytical separation techniques for the determination of purity and identity of biosynthetic human proteins. In addition, the quantitative aspects of FSCE analysis such as linearity of response, precision, and limit of detection were examined.

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The use of capillary electrophoresis to identify cationic proteins in human parotid saliva

Colburn³

et al. 1992

Archives of Oral Biology

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Preface

Grossman¹,

Colburn²

1992

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Joel C. Colburn

A semiempirical model for the electrophoretic mobilities of peptides in free-solution capillary electrophoresis

Separ of cationic proteins via charge reversal in capillary electrophoresis

Application of free-solution capillary electrophoresis to the analytical scale separation of proteins and peptides

The use of capillary electrophoresis to identify cationic proteins in human parotid saliva

Preface

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