Over the past decade, our understanding of the mechanisms by which pseudokinases, which comprise ∼10% of the human and mouse kinomes, mediate signal transduction has advanced rapidly with increasing structural, biochemical, cellular and genetic studies. Pseudokinases are the catalytically defective counterparts of conventional, active protein kinases and have been attributed functions as protein interaction domains acting variously as allosteric modulators of conventional protein kinases and other enzymes, as regulators of protein trafficking or localisation, as hubs to nucleate assembly of signalling complexes, and as transmembrane effectors of such functions. Here, by categorising mammalian pseudokinases based on their known functions, we illustrate the mechanistic diversity among these proteins, which can be viewed as a window into understanding the non-catalytic functions that can be exerted by conventional protein kinases.
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Cover Image
Cover Image
An artistic model of the ‘molecular scissor’ ADAM10 (displayed in orange) at the cell surface, shown cleaving one of its substrates (green). ADAM10 is regulated by one of six TspanC8 tetraspanins (displayed in white or blue). The TspanC8s have distinct mechanisms of binding to ADAM10 and appear to dictate its substrate specificity. For more information, please see pages 719–730 in this issue of the Biochemical Society Transactions. Designer: Justyna Szyroka Artist: Eduardo Oliveira - Graphics Designer and Animator. Image kindly provided by Michael G Tomlinson.
The secret life of kinases: insights into non-catalytic signalling functions from pseudokinases
Annette V. Jacobsen, James M. Murphy; The secret life of kinases: insights into non-catalytic signalling functions from pseudokinases. Biochem Soc Trans 15 June 2017; 45 (3): 665–681. doi: https://doi.org/10.1042/BST20160331
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