02 9541 3500Microfluidic Modulation Spectroscopy as a Non-Destructive Structural Characterisation Technique
07 Nov, 2022 | Newsletters
BSA recovery rate 95% with >99% similarity
| Due to the destructive nature of typical tools used for measuring protein structure, samples cannot be recovered or reused once analysed. This presents a significant drawback for researchers working with limited or precious samples. This new study demonstrates robust protein analysis and successful re-collection with intact structural integrity using Microfluidic Modulation Spectroscopy (MMS). Additionally, this study highlights the ability to re-concentrate post-MMS collected samples with a recovery rate of approximately 95% and similarity of >99% relative to the initial protein preparation, allowing samples to be used for any follow-up orthogonal studies for head-to-head comparisons, or for full biophysical characterisation. DOWNLOAD THE NEW APP NOTE HERE  Request a Quote Request a demo Get a Brochure Dr Valerie Collins, RedShiftBio, USA. Characterising Amyloid-Forming IgG Light and Variable Chains Using Microfluidic Modulation Spectroscopy  |