AI Article Synopsis
- Small GTPases are a large family of proteins that play essential roles in cell processes like migration and growth, making them important for cell signaling.
- A standardized method to control the activation of these proteins in living cells has been lacking, which this study addresses.
- The researchers developed a split-protein technique that allows for direct activation of various small GTPases using customizable inputs, creating a versatile system for studying these proteins in real-time.
Article Abstract
Small GTPases comprise a superfamily of over 167 proteins in the human genome and are critical regulators of a variety of pathways including cell migration and proliferation. Despite the importance of these proteins in cell signaling, a standardized approach for controlling small GTPase activation within living cells is lacking. Herein, we report a split-protein-based approach to directly activate small GTPase signaling in living cells. Importantly, our fragmentation site can be applied across the small GTPase superfamily. We highlight the utility of these standardized parts by demonstrating the ability to directly modulate the activity of four different small GTPases with user-defined inputs, providing the first plug and play system for direct activation of small GTPases in living cells.
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| http://dx.doi.org/10.1002/anie.202403499 | DOI Listing |
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