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Information and case study data for the PTMScan Direct PI3K/Akt Service offered by CST, which allows for targeted screening of 105 proteins within the Akt pathway.
Several different assays can be used by scientists to measure metabolism in a variety of contexts. These include methods to determine metabolic rates, key signaling pathways, and environmental cues.
Discover the insulin signaling pathway and its role in glucose metabolism & diabetes. Learn more about insulin action here.
Expert scientist-authored white paper focused on phosphorylation-dependent protein interaction domains in signal transduction.
Overview of Cellular Metabolism pathways, antibodies and related reagents, interactive pathway diagrams, and other technical resources
Find validated CST® matched antibody pairs and streamline the development of your High-Throughput ELISA-Like Immunoassays for screening.
Cellular homeostasis is regulated by several key metabolic pathways that maintain energetic status and provide the building blocks for proper function.
Richard discusses a recent paper that investigates the potential mechanistic link between the AD risk gene APOE4 and altered metabolism. This makes an interesting potential connection from diabetes to Alzheimer's.
Alphabetical listing of protein, pathway, and antibody acronyms, curated by Cell Signaling Technology.
Discover the mTOR pathway and its role in cellular growth and metabolism. Click here to explore the intricacies of this vital signaling pathway.
The PI3K / Akt Substrates Table provides a comprehensive list of demonstrated downstream targets of Akt phosphorylation.
A comprehensive list of peer-reviewed publications from Cell Signaling Technology.
A scientific resource for the PTB protein domain containing information on structure, function, and domain binding to phospho-tyrosine motifs.
Annual grant application guidelines and project description criteria for funding from CST.
From spatial biology to epitranscriptomics and cancer vaccines to targeted protein degradation, the biotech field is evolving at a rapid pace.