Gregory S. Knowlton scite author profile

Methods for activating signaling enzymes hold significant potential for the study of cellular signal transduction. Here we present a strategy for engineering chemically activatable protein tyrosine phosphatases (actPTPs). To generate actPTP1B, we introduced three cysteine point mutations in the enzyme’s WPD loop. Biarsenical compounds were screened for the capability to bind actPTP1B’s WPD loop and increase its phosphatase activity. We identified AsCy3-EDT2 as a robust activator that selectively targets actPTP1B in proteomic mixtures and intact cells. Introduction of the corresponding mutations in T-cell PTP also generates an enzyme (actTCPTP) that is strongly activated by AsCy3-EDT2. Given the conservation of WPD-loop structure among the classical PTPs, our results potentially provide the groundwork of a widely generalizable approach for generating actPTPs as tools for elucidating PTP signaling roles as well as connections between misregulated PTP activity and human disease.

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Gregory S. Knowlton

The microwave spectra and molecular structures of 2-chloro-1,1-difluoroethylene and its complex with the argon atom

Activation of Engineered Protein Tyrosine Phosphatases with the Biarsenical Compound AsCy3‐EDT₂

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Gregory S. Knowlton

The microwave spectra and molecular structures of 2-chloro-1,1-difluoroethylene and its complex with the argon atom

Activation of Engineered Protein Tyrosine Phosphatases with the Biarsenical Compound AsCy3‐EDT2

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Activation of Engineered Protein Tyrosine Phosphatases with the Biarsenical Compound AsCy3‐EDT₂