Abstract: Methods and reagents for obtaining simplified mixtures of peptides from a sample containing a number of peptides are disclosed. The methods entail the use of tagging moieties that include an amino-acid-specific reactive group (R). The tagging moieties “tag” peptides or proteins at specific amino acids (e.g., by reacting with an amino acid to form a covalent bond), ultimately allowing the isolation of peptides that contain those specific amino acids. Other methods entail the used of a reactive moiety (RP) that comprises a reagent that selectively interacts with selected proteins, either covalently or noncovalently. For example, RP can be a natural ligand for a receptor that is to be tagged or a protein that interacts with a second protein that is to be tagged. It can be an enzymatic substrate or other element of molecular recognition such as an antibody, ATP, GTP, NAD, NADP, NADH, NADPH, ubiquitin, or structural analogs thereof.

Abstract: A system for pH gradient ion exchange LC-MS and methods of using such system are described. A buffer system for pH gradient LC-MS that are compatible with a mass spectrometer and methods of using such buffer system are also disclosed.

Abstract: An integrated column for liquid chromatography is disclosed. A system comprising an integrated column and methods of using an integrated column are also described.

Abstract: A novel electrophoresis separation medium comprises polyacrylamide and a dioxane. An electrophoresis separation system comprises a separation channel, the separation channel including the novel separation medium. In a method for electrophoretically separating analytes by introducing analytes into a separation channel, an electric field is applied across the separation channel and the analytes are allowed to electrokinetically migrate within the separation medium. The separation channel comprises the novel electrophoresis separation medium.

Abstract: Coated capillary electrophoresis columns and methods for their use in electrophoretic separations are disclosed. The coated capillary columns include a length of tubing having an interior surface having an interconnected polymeric coating. The interconnected polymeric coating includes a hydrophobic hydrocarbon polymeric functionality covalently bound to the interior surface and polyvinylalcohol interconnected with the hydrophobic polymeric functionality. Exemplary columns are prepared by causing a Si-OH reactive compound, having a hydrophobic polymeric functionality, to react with Si-OH functionalities on the interior surface of capillary columns. Then causing vinyl acetate to polymerize in contact with the hydrophobic polymeric functionality and hydrolyzing the resulting polyvinylacetate forms a coating of interconnecting hydrophilic and hydrophobic polymers.

Abstract: Coated capillary electrophoresis columns and methods for their use in electrophoretic separations are disclosed. The coated capillary columns include a length of tubing having an interior surface coated with at least one crosslinked organic multi-valent ionic compound capable of ionic interaction with charged chemical functionalities on the tubing interior surface. Exemplary columns are prepared by crosslinking a multi-functional amine compound with a diexpoxide, alkylating the crosslinked multi-functional amine compound to form a crosslinked quaternary ammonium compound, and then contacting the interior surface of capillary tubing with the crosslinked quaternary ammonium compound.

Abstract: Coated capillary electrophoresis columns and methods for their use in electrophoretic separations are disclosed. The coated capillary columns include a length of tubing having an interior surface having an interconnected polymeric coating. The interconnected polymeric coating includes a hydrophobic polymeric functionality covalently bound to the interior surface and a hydrophilic polymer interconnected with the hydrophobic polymeric functionality. Exemplary columns are prepared by causing a Si-OH reactive compound, having a hydrophobic polymeric functionality, to react with Si-OH functionalities on the interior surface of capillary columns. Then causing a hydrophilic monomer to polymerize in contact with the hydrophobic polymeric functionality forms a coating of interconnecting hydrophilic and hydrophobic polymers.

Abstract: Methods for controlling and varying electroosmotic flow in coated capillary electrophoresis columns under electrophoretic conditions are disclosed. The methods described herein involve varying the concentration of a multi-valent buffer compound in electrophoresis buffer compositions in order to control the electroosmotic flow in capillary columns having interior surfaces coated with charged organic coatings. Increasing the concentration of a multi-valent buffer compound which has a charge opposite the charge of the organic coating, in the electrophoresis buffer results in a decrease in electroosmotic flow. Decreasing the concentration of a multi-valent buffer compound results in an increase in electroosmotic flow. The ability to control electroosmotic flow provides enhanced resolution and optimizes separations of electrophoresis sample components.

Abstract: Disclosed herein are capillary columns for capillary electrophoretic analysis of sample constituents. In an embodiment, the columns comprise a bifunctional layer comprising a positively charged amine group adsorbed to the inner wall of the capillary and an active functional group; a gel composition; hydrophilic polymer; and a separation composition capable of being removed from the column, interspersed within the remainder of the column. The disclosed columns are particularly well suited for the analysis of surfactant: proteinaceous material complexes, nucleic acid sequence, and analysis of restriction fragments according to size.

Abstract: Disclosed is a gel-containing capillary column useful in high performance capillary electrophoresis. A preferred column includes a microcapillary having an interior cavity and a wall with an inner surface; a bifunctional agent comprising a positively charged amine adsorbed to the inner surface of the wall and an active functional group capable of copolymerizing with a polymeric gel material; and a polymer gel material filling the interior cavity of the microcapillary.