How to study molecular interactions of membrane proteins without compromising their native structure

The desire to use technology that allows you to study membrane proteins in close-to-native conditions is specifically important when it comes to interaction measurements. It’s always a question how much immobilizing your membrane protein to a chip affects its function.

Well, you should know that you have options.

In this webinar discover technology and techniques that will help you study membrane proteins in close-to-native conditions.

You’ll learn how measuring binding affinities with membrane protein in a variety of conditions — like detergents, lipids, nanodiscs and SMALPs — will give you access to particularly challenging membrane protein targets.

Ready to optimize your entire membrane protein workflow?  

Join Claire — a membrane protein researcher who's been in your shoes!

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The power of Monolith X for Characterizing GPCRs: Accelerating Binding Affinity Measurements
The power of Monolith X for Characterizing GPCRs: Accelerating Binding Affinity Measurements

To understand signaling pathways, Spectral Shift technology allows for accurate bindings affinity measureme...

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How to find expression and purification conditions that result in high levels of thermally stable membrane proteins
How to find expression and purification conditions that result in high levels of thermally stable membrane proteins

What you’ll learn It’s very common to experience low expression levels when producing membrane proteins — ...

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