Webinar: Top tips for successful particle size analysis
Discover how Malvern Panalytical’s combination of analytical instrumentation and research services can take particle size analysis to the next level.
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Discover how Malvern Panalytical’s combination of analytical instrumentation and research services can take particle size analysis to the next level.
This Malvern Panalytical guide explores the use of Xray powder diffraction (XRPD) as a powerful tool to develop and improve pharmaceutical formulation.
The research has shown in high-resolution detail how certain lipids interact with pacemaker ion channels to enhance their activity.
Looking for solutions to resolve your unique challenges? We offer several customized products and services to move your discovery forward.
Streamline your cancer research using this guide that groups antibodies against critical cancer biomarkers according to biomarker type or tissue type.
A new study from the University of Pittsburgh and Carnegie Mellon University may solve the puzzle of how cells control their volume.
Researchers find monoclonal antibodies provided nearly complete protection against EBV infection and lymphoma when tested in mice.
H84T-BanLec has viral-blocking abilities by binding to polysaccharides that are present on the surface of the viruses.
Using cryo-EM, the researchers found that the B-cell receptor interacts with further receptors, thus controlling its signal transduction.
In this exclusive Q&A, Drug Target Review’s Ria Kakkad spoke with Dr Jonathan Javitch, Professor at Columbia University’s Vagelos College of Physicians and Surgeons, about the cutting-edge imaging method single-molecule fluorescence resonance energy transfer (smFRET), used to investigate G protein-coupled receptors (GPCRs).
A new high-throughput approach has shown how patients whose tumours express CD58 are more likely to respond to CAR T-cell therapy.
Researchers have developed a 3D structure that allows them to see how and where disease mutations on the twinkle protein can lead to mitochondrial diseases.
A powerful tool to study complex phenotypes and cellular interactions. Map spatial interactions twice as fast with this second-generation system.
Researchers have developed a novel microscopy technique to make invisible molecules visible by “de-crowding” to expand a cell or tissue sample before labelling the molecules.
Using cryo-electron microscopy, researchers have captured the structure of a membrane-bound T-cell receptor complex with bound antigen.