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Measuring and characterizing changes in protein secondary structure is critical to many research applications. This is especially true for the formulation and development of biotherapeutics, as direct evidence exists demonstrating that alterations in secondary structure affect efficacy and specificity.
To see changes in secondary structure requires a technique featuring high sensitivity, a wide dynamic range, a simplified and automated workflow, and high repeatability. Microfluidic modulation spectroscopy (MMS) is a novel infrared technique that has been purposely designed to address the requirements of today's development laboratories.
To see changes in secondary structure requires a technique featuring high sensitivity, a wide dynamic range, a simplified and automated workflow, and high repeatability. Microfluidic modulation spectroscopy (MMS) is a novel infrared technique that has been purposely designed to address the requirements of today's development laboratories.
Download this eBook from RedShiftBio to learn about:
- What MMS is and how it works
- MMS vs. Fourier-transform infrared (FTIR) spectroscopy
- Measuring protein aggregation, quantitation, structure, stability, and similarity using MMS
- The AQS3 pro MMS platform
