Capillary isoelectric focusing is an interesting technique for the characterization of proteins. However, multiplexing capillary isoelectric focusing is a daunting task. Dr. Dada's significant contribution to this technology is the development of a state-of-the-art tool for high-throughput capillary isoelectric focusing. The performance of this technology is stunning: It provides the highest throughput isoelectric focusing analysis ever reported, the highest sensitivity ever reported for a high-throughput instrument, and the highest resolution separation ever reported for capillary isoelectric focusing. The technology will find wide application, including characterization of recombinant and therapeutic proteins, the diagnosis of disease, and the study of systems biology.
Dr. Dada received his BSc in industrial chemistry in 2001 from Olabisi Onabanjo University in Nigeria. He moved to the United States in 2004, where he received his PhD in analytical chemistry from Utah State University in 2008. He then spent two years at the University of Washington in Seattle as a postdoctoral research associate. Currently, he holds a research assistant professor position at the University of Notre Dame, USA, where he continues his research on capillary electrophoresis with laser-induced fluorescence and photothermal instrumentation for bioanalysis.
Prof. Aldo Roda, Editor of Analytical and Bioanalytical Chemistry, said, "There is a highly competitive effort underway in the scientific community to improve the analytical performance of isoelectric focusing (IEF) as a tool for protein separation and concentration. Several groups have investigated the miniaturization of cIEF and the integration of cIEF to a microchip format. With this paper, Dada and co-workers offer us new analytical approaches to resolving the ongoing problem of time-consuming procedures."
More information: The article "Capillary array isoelectric focusing with laser-induced fluorescence detection" is freely available online on SpringerLink at http://www.springe … 71l58435h58/
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