National Autonomous University of Mexico uses dynamic light scattering for allosteric transition characterization

Using the Zetasizer V dynamic light scattering (DLS) system from Malvern Instruments, Professor Mario L. Calcagno and his team at the Biochemistry Department of the Faculty of Medicine, Universidad Nacional Autnoma de Mxico (UNAM, the National Autonomous University of Mexico) have been able to distinguish allosteric transition [structural rearrangements] in a single E. coli protein. Characterizing protein allostery is challenging because of its sensitivity to experimental conditions, however, a quantitative description of allosteric transition is important in understanding and controlling metabolic and other biochemical processes.

We use the Zetasizer V to characterize the size of proteins and how they interact to produce multimeric forms or even supramolecular arrangements of the protein such as viral capsids [shells], said Dr Ismael Bustos-Jaimes, from Laboratory of Physical Chemistry and Protein Engineering at UNAM commented The Zetasizer V allows us to work with sizes in the range of 1 nm to 500 nm and follow each assembly and stability parameter, such as pH, temperature and ionic strength, guiding us to the optimal production conditions for these virus-like particles.

The sensitivity of the Zetasizer V has additionally allowed my colleague, Prof Calcagno, to analyze allosteric transitions explained Dr Bustos-Jaimes. The size of the hexameric glucosamine-6-phosphate deaminase protein from E. coli changes its shape to a more compact form upon allosteric-activator binding, and this change can be measured.

The Zetasizer V software is user-friendly and in addition to measuring particle size it delivers information about the quality of sample preparation. This is very important when you work with molecules which are prone to uncontrolled aggregation, said Dr Bustos-Jaimes.

The UNAM team studies allosteric transitions and the assembly of virus-like particles (VLPs) for use in diagnostics and disease control. VLPs are biological nanoparticles that resemble natural viruses but contain no genetic material. As non-infective agents, they are suitable for use in the analysis of viral infection mechanisms, vaccine production, tissue-specific drug delivery and as biological nanomaterials.

The Zetasizer V is part of a range of Zetasizer dynamic light scattering systems from Malvern Instruments. For more information, visit http://www.malvern.com/zetasizer

About Malvern Instruments Malvern Instruments is a market leader in measuring performance controlling material properties. These include particle size, particle shape, zeta potential, molecular weight, size and conformation, rheological properties and chemical identification. Malvern delivers the systems, support and expertise that ensure the analytical integrity and productivity needed to drive research, development and manufacturing.

Malverns measurement solutions for scientists, technologists and engineers advance continually through customer collaboration. Complementary materials characterization systems deliver inter-related measurements that reflect the complexities of particulates and disperse systems, nanomaterials and macromolecules. Combining intelligently implemented technologies with in-depth industry applications knowledge and support, Malvern provides customers with the competitive advantage they demand.

Headquartered in Malvern, UK, Malvern Instruments has subsidiary organizations in all major European markets, North America, China, Japan and Korea, a joint venture in India, a global distributor network and applications laboratories around the world. For more information, visit http://www.malvern.com

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Zetasizer µV Used In Measuring Protein Structural Transition