Membrane Proteins

  • Quality control during membrane protein purification for cryo-EM42:49

    Quality control during membrane protein purification for cryo-EM

    In this webinar Dr. Melanie McDowell, Research Group Leader at the MPI of Biophysics outlines bottlenecks associated with membrane protein purification for cryo EM and strategies to overcome them

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  • Practical Guide: Quality Control Strategies for Membrane Proteins

    Practical Guide: Quality Control Strategies for Membrane Proteins

    When working with membrane proteins, whether you’re troubleshooting aggregation, testing new solubilization strategies, or deciding when to switch detergents read this guide for practical solutions.

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  • Cube x NanoTemper Webinar Series – Episode 2: Optimization of Membrane Proteins for Cryo-EM with Prometheus Panta​53:00

    Cube x NanoTemper Webinar Series – Episode 2: Optimization of Membrane Proteins for Cryo-EM with Prometheus Panta​

    Explore a comprehensive, data-driven workflow—rooted in real-world results—combining the NativeMP platform with Prometheus Panta.

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  • Working with tricky membrane proteins?

    NanoTemper tools can help

    Find out how
  • Cube x NanoTemper Webinar Series – Episode 1: Optimize membrane protein characterization with NativeMP and Multiplexing Optical Methods43:09

    Cube x NanoTemper Webinar Series – Episode 1: Optimize membrane protein characterization with NativeMP and Multiplexing Optical Methods

    Learn about technologies and instruments that maintain membrane protein stability and allow structural abd affinity screening studies in their natural lipid environment.

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  • Achieve Highly Sensitive and Precise Binding Affinity Measurements Without Disrupting Protein Conformation

    Achieve Highly Sensitive and Precise Binding Affinity Measurements Without Disrupting Protein Conformation

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  • Optimization of membrane proteins for cryo-EM: Screening of copolymer nanodiscs with Prometheus Panta

    Optimization of membrane proteins for cryo-EM: Screening of copolymer nanodiscs with Prometheus Panta

    Membrane proteins present challenges for structural analysis by cryo-EM; Screening of synthetic copolymers with nanoDSF and DLS on Prometheus Panta help select the best solubilization conditions.

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  • The power of Monolith X for Characterizing GPCRs: Accelerating Binding Affinity Measurements20:31

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

    To understand signaling pathways, Spectral Shift technology allows for accurate bindings affinity measurements of membrane proteins like GPCRs in close to native conditions.

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  • How to study molecular interactions of membrane proteins without compromising their native structure14:01

    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 mu

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  • How to find expression and purification conditions that result in high levels of thermally stable membrane proteins12:06

    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 — plus they’re finicky and unstable when they're outside of their native environment. Just know

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  • Did you say, “membrane proteins”? Challenge accepted!4:09

    Did you say, “membrane proteins”? Challenge accepted!

    Working with difficult targets like GPCRs and other membrane proteins? Because they live in the cell membrane, are hydrophobic and insoluble, have low expression levels, and require particular deter

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  • Mischievous membrane proteins (and how to tame them)25:40

    Mischievous membrane proteins (and how to tame them)

    Are you struggling to tame your mischievous membrane proteins? Find out how NanoTemper can help you to characterize even the most challenging membrane protein samples. You will learn how Prometheus ca

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  • Quantifying the interaction of phosphite with ABC transporters: MicroScale Thermophoresis and a novel his-tag labeling approach

    Quantifying the interaction of phosphite with ABC transporters: MicroScale Thermophoresis and a novel his-tag labeling approach

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  • nanoDSF: Label-free thermal unfolding assay of G Protein-coupled receptors for compound screening and buffer composition optimization

    nanoDSF: Label-free thermal unfolding assay of G Protein-coupled receptors for compound screening and buffer composition optimization

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  • Lipids activate SecA for high affinity binding to the SecYEG complex

    Lipids activate SecA for high affinity binding to the SecYEG complex

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  • Thermophoretic analysis of ligand-specific conformational states of the inhibitory glycine receptor embedded in copolymer nanodiscs

    Thermophoretic analysis of ligand-specific conformational states of the inhibitory glycine receptor embedded in copolymer nanodiscs

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  • A protein superfamily meets its match in nanoDSF

    A protein superfamily meets its match in nanoDSF

    G protein-coupled receptors (GPCRs) are the largest class of targets for drug discovery, and the fourth largest superfamily in the human genome. They have been linked to the regulation of many...

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  • Detergent-free extraction of a functional low-expressing GPCR from a human cell line

    Detergent-free extraction of a functional low-expressing GPCR from a human cell line

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  • Saposin lipid nanoparticles: A highly versatile and modular tool for membrane protein research

    Saposin lipid nanoparticles: A highly versatile and modular tool for membrane protein research

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  • Phospholipid membrane fluidity alters ligand binding activity of a G protein-coupled receptor by shifting the conformational equilibrium

    Phospholipid membrane fluidity alters ligand binding activity of a G protein-coupled receptor by shifting the conformational equilibrium

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  • Phosphorylation of human aquaporin 2 (AQP2) allosterically controls its interaction with the lysosomal trafficking protein LIP5

    Phosphorylation of human aquaporin 2 (AQP2) allosterically controls its interaction with the lysosomal trafficking protein LIP5

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