Publikation: A FRET sensor enables quantitative measurements of membrane charges in live cells
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Datum
2017
Autor:innen
Ma, Yuanqing
Yamamoto, Yui
Nicovich, Philip R.
Goyette, Jesse
Gooding, J. Justin
Gaus, Katharina
Herausgeber:innen
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Nature Biotechnology. 2017, 35(4), pp. 363-370. ISSN 1087-0156. eISSN 1546-1696. Available under: doi: 10.1038/nbt.3828
Zusammenfassung
Membrane charge has a critical role in protein trafficking and signaling. However, quantification of the effective electrostatic potential of cellular membranes has remained challenging. We developed a fluorescence membrane charge sensor (MCS) that reports changes in the membrane charge of live cells via Förster resonance energy transfer (FRET). MCS is permanently attached to the inner leaflet of the plasma membrane and shows a linear, reversible and fast response to changes of the electrostatic potential. The sensor can monitor a wide range of cellular treatments that alter the electrostatic potential, such as incorporation and redistribution of charged lipids and alterations in cytosolic ion concentration. Applying the sensor to T cell biology, we used it to identify charged membrane domains in the immunological synapse. Further, we found that electrostatic interactions prevented spontaneous phosphorylation of the T cell receptor and contributed to the formation of signaling clusters in T cells.
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570 Biowissenschaften, Biologie
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MA, Yuanqing, Yui YAMAMOTO, Philip R. NICOVICH, Jesse GOYETTE, Jérémie ROSSY, J. Justin GOODING, Katharina GAUS, 2017. A FRET sensor enables quantitative measurements of membrane charges in live cells. In: Nature Biotechnology. 2017, 35(4), pp. 363-370. ISSN 1087-0156. eISSN 1546-1696. Available under: doi: 10.1038/nbt.3828BibTex
@article{Ma2017senso-43214,
year={2017},
doi={10.1038/nbt.3828},
title={A FRET sensor enables quantitative measurements of membrane charges in live cells},
number={4},
volume={35},
issn={1087-0156},
journal={Nature Biotechnology},
pages={363--370},
author={Ma, Yuanqing and Yamamoto, Yui and Nicovich, Philip R. and Goyette, Jesse and Rossy, Jérémie and Gooding, J. Justin and Gaus, Katharina},
note={Corrigendum zu diesem Artikel: https://doi.org/10.1038/nbt0517-481e}
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<dcterms:abstract xml:lang="eng">Membrane charge has a critical role in protein trafficking and signaling. However, quantification of the effective electrostatic potential of cellular membranes has remained challenging. We developed a fluorescence membrane charge sensor (MCS) that reports changes in the membrane charge of live cells via Förster resonance energy transfer (FRET). MCS is permanently attached to the inner leaflet of the plasma membrane and shows a linear, reversible and fast response to changes of the electrostatic potential. The sensor can monitor a wide range of cellular treatments that alter the electrostatic potential, such as incorporation and redistribution of charged lipids and alterations in cytosolic ion concentration. Applying the sensor to T cell biology, we used it to identify charged membrane domains in the immunological synapse. Further, we found that electrostatic interactions prevented spontaneous phosphorylation of the T cell receptor and contributed to the formation of signaling clusters in T cells.</dcterms:abstract>
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Kommentar zur Publikation
Corrigendum zu diesem Artikel: https://doi.org/10.1038/nbt0517-481e
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