Researchers visualise metabolic processes at the single-cell level
Scientists have used imaging methods and machine learning to understand cellular metabolism at the single-cell level.
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Scientists have used imaging methods and machine learning to understand cellular metabolism at the single-cell level.
Despite many companies considering digital transformation a top priority, research shows that 70% of digital transformation initiatives fail. In this ebook, we explore why and how the right approach can see your organisation succeed.
Researchers have created an X-ray scanning machine that shows the shape of an object and its molecular composition.
Complete solutions for neurological disease research and discovery - helping you to better understand diseases to improve patient outcomes.
A new non-invasive microscopic fluorescence imaging method has been developed to reveal details of the brain in animal models of various diseases.
A wide range of tools to support your immuno-oncology research and help redefine and develop tailored, life-changing immunotherapies to fight cancer.
Our comprehensive portfolio suite is designed to optimize your productivity to get safe and efficacious vaccines and therapeutics to market faster.
Solutions to aid understanding of cellular and molecular pathways in diabetes and translate these findings into prevention and treatment strategies.
The development of a Parkinson’s disease model, using hiPSC-derived neural cells, to assess alpha-synuclein pre-formed fibril-induced toxicity.
AI algorithms, light-field microscopy and light-sheet microscopy have been combined by researchers to image biological processes in 3D.
A novel sensitive label-free imaging method has been developed to visualise brain samples using an FxClear-based tissue clearing technique.
Gain more insight into immune-tumor interactions and learn how antibody detection techniques like multiplexing is advancing immunotherapies.
Researchers have created a new imaging technique called electrochemiluminescence to visualise multiple spheroids with a single shot.
In this short video we show an example of a 3D airway organoid model along with some interesting ways to get the most out of this type of assay.
Optical tweezers-coupled Raman spectroscopy has been used to reveal the structure of alpha-synuclein, an IDP linked to Parkinson's disease.