Jicheng Duan

A facile microdialysis interface for on-line desalting and identification of proteins by nano-electrospray ionization mass spectrometry.

The adverse effect of salts, especially inorganic salts, on electrospray ionization mass spectrometry (ESI-MS) is one of the most serious obstacles that might limit its application. Among the numerous desalting approaches, the microdialysis technique is favorable for large molecules, such as proteins. In this work, employing a hollow fiber membrane of cellulose acetate (MWCO 3000 Da), a simple, facile and efficient microdialysis interface with the dead volume of less than 1 microL was constructed for the on-line desalting and identification of proteins dissolved in high salt concentration buffer by nano-ESI-MS. Furthermore, with counterflow added, the desalting procedure was accelerated, and could be finished within 1 min. This system was successfully applied to the analysis of myoglobin dissolved in either high concentration ammonium acetate or sodium chloride buffer. The experimental results showed that, by using such a microdialysis interface, the salt concentration, even as high as 1 M, could be decreased by at least 2 orders of magnitude, while sample loss was less than 10%, demonstrating the potential of such an interface in broadening the application of nano-ESI-MS in the analysis of large molecules.

Monoliths with immobilized zirconium ions for selective enrichment of phosphopeptides

To meet the demands of protein phosphorylation study, immobilized zirconium ion affinity chromatography (Zr(4+)-IMAC) monolith was prepared by combining UV-initiated polymerization of monolithic support and subsequent photografting in both capillary columns and microchannels. Hydrophilic poly(2-hydroxyethyl methacrylate (HEMA)-co-ethylene dimethacrylate (EDMA)) monolithic support was prepared under UV irradiation at the wavelength of 365 nm with monomer HEMA, crosslinker EDMA and 2,2-dimethoxy-2-phenylacetophenone as photoinitiator in 1-decanol solution, which provides good biocompatibility and permeability for biomolecule analysis. To introduce chelating ligands, such as phosphate groups, on the pore surface of monolith for metal ion immobilization, photografting of ethylene glycol methacrylate phosphate with benzophenone as the photoinitiator was performed at 254 nm for 300 s. The grafting process and metal ion immobilization can be monitored by measuring the electroosmotic flow produced by the modified monolith, providing a quantitative evaluation of post-modification. This new method for the preparation of Zr(4+)-IMAC monolith simplifies the optimization of monolith preparation and avoids the time-consuming chemical modification process. Additionally, advantages include facile preparation in microdevices, easy regenerability and good reproducibility. After optimization, the microchip-based Zr(4+)-IMAC monolith was used for phosphopeptide analysis and showed good selectivity in phosphopeptide enrichment with matrix-assisted laser desorption ionization mass spectrometry detection.

Characterization of multi‐phosphopeptides by μHPLC–ESI‐MS/MS with alkaline phosphatase treatment

The detection of phosphopeptides, especially multi-phosphopeptides, by tandem electrospray ionization mass spectrometry (ESI-MS/MS) is a great challenge due to their low abundance and the poor ionization efficiency of samples. In our recent study, a strategy was proposed for the analysis of trace multi-phosphopeptides which combined selective enrichment of phosphorylated peptides by TiO2 and dephosphorylation by alkaline phosphatase (AP). After separation by muHPLC, the profiles of enriched peptides before and after AP treatment were compared, and the additional peaks appearing in the latter case hinted at the existence of multi-phosphopeptides. Subsequently, an incomplete dephosphorylation reaction was performed to partially remove the phosphate groups so that the phosphorylation sites of the multi-phosphopeptides might be estimated. Through analysis of the digests of beta-casein and extracted proteins of bovine milk, more information on the multi-phosphopeptides was obtained by muHPLC-ESI-MS/MS than that obtained without AP treatment, which demonstrated that such a strategy might supply some potential information about trace multi-phosphopeptides lost in shotgun analysis.