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Next Level Biomolecule Characterisation

Next Level Biomolecule Characterisation

 

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Featured Content

Check out our latest blogs and articles

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01

Hidden Costs of NanoDSF Ownership

How much do you spend on your protein stability analysis?

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Optimising Circular Dichroism Measurements

Learn with our interactive demo

 

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PP083 Blog Blog V1

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How low can we go?

What is the shortest wavelength that can be reached in CD measurements?

 

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News & Events

News and Events

Check out the latest news and events from our global activities

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01

Drug Discovery & Protein Stability

Power-up pharmaceutical and biologics discovery!

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SUPR-DSF: a new tool to screen and profile binding interactions

The use of SUPR-DSF in the projects focused on Structural Biology and Fragment-based Drug Discovery.

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The Benefits of Detecting Intrinsic Fluorescence

The Benefits of Detecting Intrinsic Fluorescence.

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About Us

Applied Photophysics of Leatherhead, Surrey, UK, is a leading provider of solutions for the biophysical characterisation of biomolecules and has been providing spectroscopy to the research community for over 50 years. Chirascan™ systems use the phenomenon of circular dichroism (CD) to characterise changes in the higher-order structure of proteins. These systems are used in cutting-edge research and to support the development of innovator drugs and biosimilars in the biopharmaceutical industry.

The company’s SX range of stopped-flow spectrometers is acknowledged globally as the gold standard for kinetic studies of fast biochemical reactions. Through a joint venture with Fluorescence Innovations Inc of Minneapolis, MN, USA, operating as Protein Stable, we have also introduced easy-to-use high-throughput protein stability screening with microplate-based intrinsic fluorescence thermal ramping and chemical melt plate readers.