Publications by authors named "Jennifer L Brigham"
The ability to determine structure-activity relationships (SAR) and identify cellular targets from cell lysates and tissues is of great utility for kinase inhibitor drug discovery. We describe a streamlined mass spectrometry-based chemoproteomics workflow to examine the SAR and target profiles of a small library of kinase inhibitors that consists of the drug dasatinib and a panel of general type II inhibitors. By combining a simplified affinity enrichment and on-bead protein digestion workflow with quantitative proteomics, we achieved sensitive and specific enrichment of target kinases using our small molecule probes.
View Article and Find Full Text PDFBioorthogonal ligation methods that allow the selective conjugation of fluorophores or biotin to proteins and small molecule probes that contain inert chemical handles are an important component of many chemical proteomic strategies. Here, we present a new catch-and-release enrichment strategy that utilizes a hexylchloride group as a bioorthogonal chemical handle. Proteins and small molecules that contain a hexylchloride tag can be efficiently captured by an immobilized version of the self-labeling protein HaloTag.
View Article and Find Full Text PDFArticle Synopsis
- Protein kinases are crucial for cell signaling and have become significant targets for drug development, necessitating tools to study their activity.
- A novel crosslinking technique allows for the rapid and quantitative analysis of these kinases’ active sites in both cell lysates and live cells.
- Research focused on SRC-family kinases uncovered specific inhibitors that preferentially target their inactive forms, illustrating how these inhibitors can influence regulatory interactions within the kinases.