Journal article

Shear-Induced deformation of bovine insulin in couette flow

IB Bekard, DE Dunstan

Journal of Physical Chemistry B | Published : 2009

Abstract

We have applied a uniform, shear-driven flow field (Couette flow) to study the effect of shear on the structure and conformation of aqueous bovine insulin, in situ and in real time, using intrinsic Tyr fluorescence and circular dichroism (CD) spectroscopy. The morphology of post-shear insulin samples was analyzed using atomic force microscopy (AFM). Both fluorescence and CD data show a shear-dependent deformation of bovine insulin in Couette flow. The shear effect is more pronounced with increasing shear rate. AFM images show large aggregates for insulin samples sheared at 200 and 400 s-1, whereas samples sheared at 600 s-1 contained fibrillar forms. We hypothesize that helical segments unfo..

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University of Melbourne Researchers

Grants

Funding Acknowledgements

We thank Drs. Kevin Barnham and Deborah Tew for assistance with the CD instrument. We also thank Chailean Teoh for assistance with the SDS-PAGE analysis. Funding for this project was obtained from the Australian Research Council (ARC).