New method to label proteins could help track disease
Scientists have developed a new method to study the proteins released by cells, which could lead to the development of new tools to track diseases including cancer.
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Biomarkers are a naturally occurring molecule, gene, or characteristic by which a particular disease can be identified.
Scientists have developed a new method to study the proteins released by cells, which could lead to the development of new tools to track diseases including cancer.
Sino Biological’s “FucoFree” eukaryotic expression system provides high-yield and high-throughput afucosylated monoclonal antibody (mAb) production.
Deleting the gene POU2AF2 kills cancer cells in deadly subtype of small-cell lung cancer.
Join our experts as they discuss the advantages of multiplexed imaging for a wide range of research and how this technique will develop in the future.
Discover all the ways you can harness ultrasensitive immunoassays to stay at the forefront of neuroscience research.
Compendium of iQue® advanced flow cytometry platform application posters: Antibody discovery and immuno-oncology.
In this Q&A, Immunexpress Chief Executive Officer Dr Rolland Carlson and Chief Scientific Officer Dr Richard Brandon discuss key aspects for molecular diagnostic discovery and development platforms, including how to best leverage microarray and next-generation sequencing (NGS) tools.
Learn how R&D Systems™ Avi-tag biotinylated proteins can be used as an alternative to amine biotin coupling in surface plasmon resonance experiments.
Researchers have successfully characterised a part of the brain that shows the earliest accumulation of tau protein, an important biomarker for the development of Alzheimer's disease.
Included in this ebook are pieces on how an assay for the detection of sepsis was developed and a new high-throughput assay that could reveal new drugs to fight COVID-19.
Trust in your results — Experience the benefits of iQue® advanced flow cytometry.
This article outlines the advantages of using R&D Systems™ fluorescent-labeled proteins to directly stain and detect CAR+ cells by flow cytometry.
A powerful tool to study complex phenotypes and cellular interactions. Map spatial interactions twice as fast with this second-generation system.
Application note: Quantifying T Cell response in 3D tumour spheroids using advanced flow cytometry workflows.
This publications review overviews advanced flow cytometry applications in infectious disease and immuno-oncology.