Fluorescence resonance energy transfer in single enzyme molecules with a quantum dot as donor

Fluorescence resonance energy transfer in single enzyme molecules with a quantum dot as donor

H + -ATPsynthases couple a transmembrane proton transport with ATP synthesis and ATP hydrolysis. Previously, the relative subunit movement during this process has been measured by fluorescence resonance energy transfer (FRET) between two organic fluorophores covalently bound to different subunits. T...

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Veröffentlicht in:European biophysics journal 2008-10, Vol.37 (8), p.1367-1371
Hauptverfasser: Galvez, Eva María, Zimmermann, Boris, Rombach-Riegraf, Verena, Bienert, Roland, Gräber, Peter
Format: Artikel
Sprache:eng
Schlagworte:
Absorption
ATP
Biochemistry
Biological and Medical Physics
Biomedical and Life Sciences
Biophysics
Biophysics Letter
Cadmium Compounds - metabolism
Cell Biology
Energy transfer
Enzymes
Escherichia coli - enzymology
Fluorescence
Fluorescence Resonance Energy Transfer
Hydrolysis
Life Sciences
Membrane Biology
Molecular biology
Nanotechnology
Neurobiology
Photons
Proton-Translocating ATPases - chemistry
Proton-Translocating ATPases - metabolism
Quantum Dots
Resonance
Selenium Compounds - metabolism
Staining and Labeling
Sulfides - metabolism
Zinc Compounds - metabolism
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Zusammenfassung:H + -ATPsynthases couple a transmembrane proton transport with ATP synthesis and ATP hydrolysis. Previously, the relative subunit movement during this process has been measured by fluorescence resonance energy transfer (FRET) between two organic fluorophores covalently bound to different subunits. To improve the photophysical stability, a luminescent CdSe/ZnS nanocrystal (quantum dot) was bound to the enzyme and an organic fluorophore, Alexa568, was used as fluorescence acceptor. Single-molecule spectroscopy with the membrane integrated labeled H + -ATPsynthase was carried out. Single-pair FRET indicates three different conformations of the enzyme. During ATP hydrolysis relative intramolecular subunit movements are observed in real time.
ISSN:0175-7571
1432-1017
DOI:10.1007/s00249-008-0351-7