Tag: <span>phosphorylation</span>

The human protein kinase superfamily is one of the largest and most important families of enzymes. More than 500 distinct kinases, classified in about 20 families on the basis of their primary structure similarity, have been identified to date. Protein kinases regulate a variety of biochemical pathways in cells through phosphotransfer reactions, playing pivotal roles in most signaling and regulatory processes, such as gene expression, proliferation, cell motility, and angiogenesis. Deregulation and/or mutational modification of protein kinase activity, leading to aberrant protein phosphorylation, is implicated in a variety of diseases, particularly cancer, making protein kinases important drug targets. A number of specific protein kinase inhibitors has been developed recently and more than 30 compounds are currently in clinical development or on the market. Many of these inhibitors are small-molecule compounds that compete with ATP for the highly conserved ATP binding site of the kinases. The development of highly selective and potent ATP-competitive inhibitors is driven by structure-activity relationship (SAR) studies, with X-ray crystallography and nuclear magnetic resonance (NMR) spectroscopy playing an important role in the understanding of the mechanism of inhibitor binding to the active or inactive forms of protein kinases…

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