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A new imaging technique, which has revealed 3D forces exerted by tiny cell clusters, could help scientists understand how tissue forms, how wounds heal or how tumours spread.
A new method to image cancerous tissues has been created by researchers who have paired infrared measurements with high-resolution optical images.
Using ultrashort laser pulses to interact with vesicles, researchers have created a novel label-free imaging method.
Researchers have developed a new label-free ptychographic microscopy method by bringing samples closer to the image sensor, reducing processing time.
Using cryogenic electron microscopy, a team has mapped the Spike protein on COVID-19, which could be used in the development of vaccines.
Scientists in the US have applied a novel technique to finally unravel a particular kinase enzyme that is associated with familial Parkinson’s disease; providing a clearer potential therapeutic target.
Backgrounded Membrane Imaging (BMI), used by the HORIZON® particle analysis system, performs measurements of subvisible protein aggregates.
A label-free imaging technology has been developed by researchers, allowing them to investigate biomolecules such as metabolites, aiding in the study of drugs.
Are you missing the bigger picture with your AAV analytics? Subvisible particle analysis should not require millilitres of precious sample.
A new study has shown in three dimensions how drugs bind to HIV, which could be used to improve the design of drugs or develop novel therapies.
Research into drug targets for sleeping sickness parasite T. brucei has characterised the inosine-5'-monophosphate dehydrogenase (IMPDH) enzyme, providing a possible novel avenue for therapies.
Using brain scans, a study has shown that schizophrenia patients have lower levels of the protein SV2A in their brains which presents a drug target.
A new study has developed a deep learning approach that analyses protein interactions, which could improve the design of drugs in the future.
Researchers have developed a screening system and identified a set of compounds that protect neuronal mitochondria in mice.
Researchers have demonstrated the success of a new single-particle method of studying the surface of viruses, which could improve vaccine purification and the development of gene therapies.
