Publikation: Europium-labeled GTP as a general nonradioactive substitute for [35S]GTPγS in high-throughput G protein studies
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[(35)S]GTPgammaS, the nonhydrolyzable radioactive GTP analog, has been a powerful tool in G protein studies and has set the standards in this field of research. However, its radioactive nature imposes clear limitations to its use in regular laboratory practice and in high-throughput experimentation. The europium-labeled GTP analog (Eu-GTP) has been used as an alternative in the analysis of G protein activation by G protein-coupled receptors in cellular membrane preparations. Here we expand the usage of Eu-GTP and show that it can be applied in other types of assays where [(35)S]GTPgammaS has been previously utilized. We demonstrate the applicability of the modified Eu-GTP binding technology to analysis of heterotrimeric and monomeric G proteins of natural and recombinant sources, from different organisms, in assays with soluble proteins and membrane-containing assays of a high-throughput format. The deci-nanomolar K(D) of Eu-GTP for the tested G proteins is similar to that of other fluorescent-modified GTP analogs, while the sensitivity achieved in time-resolved fluorescence analysis of Eu-GTP exceeds that of the radioactive measurements. Overall, the results of our modified Eu-GTP binding assay present Eu-GTP as a general nonradioactive alternative for G protein studies, especially attractive in high-throughput experiments.
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KOVAL, Alexey, Damir KOPEIN, Vladimir PURVANOV, Vladimir L. KATANAEV, 2010. Europium-labeled GTP as a general nonradioactive substitute for [35S]GTPγS in high-throughput G protein studies. In: Analytical Biochemistry. 2010, 397(2), pp. 202-207. ISSN 0003-2697. eISSN 1096-0309. Available under: doi: 10.1016/j.ab.2009.10.028BibTex
@article{Koval2010-02-15Europ-14813,
year={2010},
doi={10.1016/j.ab.2009.10.028},
title={Europium-labeled GTP as a general nonradioactive substitute for [35S]GTPγS in high-throughput G protein studies},
number={2},
volume={397},
issn={0003-2697},
journal={Analytical Biochemistry},
pages={202--207},
author={Koval, Alexey and Kopein, Damir and Purvanov, Vladimir and Katanaev, Vladimir L.}
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