Fluorescence Intensity and Intermittency as Tools for Following Dopamine Bioconjugate Processing in Living Cells | Zendy

Rafael Khatchadourian | Zendy; Alexia I. Bachir | Zendy; Samuel Clarke | Zendy; Colin D. Heyes | Zendy; Paul W. Wiseman | Zendy; Jay Nadeau | Zendy

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Fluorescence Intensity and Intermittency as Tools for Following Dopamine Bioconjugate Processing in Living Cells

Author(s) -

Rafael Khatchadourian,

Alexia I. Bachir,

Samuel Clarke,

Colin D. Heyes,

Paul W. Wiseman,

Jay Nadeau

Publication year - 2007

Publication title -

journal of biomedicine and biotechnology

Language(s) - English

Resource type - Journals

eISSN - 1110-7251

pISSN - 1110-7243

DOI - 10.1155/2007/70145

Subject(s) - bioconjugation , intermittency , photobleaching , fluorescence , biomolecule , quantum dot , quenching (fluorescence) , nanotechnology , materials science , particle (ecology) , conjugated system , nanoparticle , chemistry , biological system , physics , optics , polymer , biology , ecology , turbulence , composite material , thermodynamics

CdSe/ZnS quantum dots (QDs) conjugated to biomolecules that quench their fluorescence, particularly dopamine, have particular spectral properties that allow determination of the number of conjugates per particle, namely, photoenhancement and photobleaching. In this work, we quantify these properties on a single-particle and ensemble basis in order to evaluate their usefulness as a tool for indicating QD uptake, breakdown, and processing in living cells. This creates a general framework for the use of fluorescence quenching and intermittency to better understand nanoparticle-cell interactions

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