PII signal transduction proteins are ATPases whose activity is regulated by 2-oxoglutarate

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Abstract

PII proteins are one of the most widespread families of signal transduction proteins in nature, being ubiquitous throughout bacteria, archaea, and plants. In all these organisms, PII proteins coordinate many facets of nitrogen metabolism by interacting with and regulating the activities of enzymes, transcription factors, and membrane transport proteins. The primary mode of signal perception by PII proteins derives from their ability to bind the effector molecules 2-oxoglutarate (2-OG) and ATP or ADP. The role of 2-OG as an indicator of cellular nitrogen status is well understood, but the function of ATP/ADP binding has remained unresolved. We have now shown that the Escherichia coli PII protein, GlnK, has an ATPase activity that is inhibited by 2-OG. Hence, when a drop in the cellular 2-OG pool signals nitrogen sufficiency, 2-OG depletion of GlnK causes bound ATP to be hydrolyzed to ADP, leading to a conformational change in the protein. We propose that the role of ATP/ADP binding in E. coli GlnK is to effect a 2-OG-dependent molecular switch that drives a conformational change in the T loops of the PII protein. We have further shown that two other PII proteins, Azospirillum brasilense GlnZ and Arabidopsis thaliana PII, have a similar ATPase activity, and we therefore suggest that this switch mechanism is likely to be a general property of most members of the PII protein family.

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Radchenko, M. V., Thornton, J., & Merrick, M. (2013). PII signal transduction proteins are ATPases whose activity is regulated by 2-oxoglutarate. Proceedings of the National Academy of Sciences of the United States of America, 110(32), 12948–12953. https://doi.org/10.1073/pnas.1304386110

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