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Multistep energy transfer in single molecular photonic wires.

Journal of the American Chemical Society (2004-05-27)
Mike Heilemann, Philip Tinnefeld, Gabriel Sanchez Mosteiro, Maria Garcia Parajo, Niek F Van Hulst, Markus Sauer
RESUMEN

We demonstrate the synthesis and spectroscopic characterization of an unidirectional photonic wire based on four highly efficient fluorescence energy-transfer steps (FRET) between five spectrally different chromophores covalently attached to double-stranded DNA. The DNA-based modular conception enables the introduction of various chromophores at well-defined positions and arbitrary interchromophore distances. While ensemble fluorescence measurements show overall FRET efficiencies between 15 and 30%, single-molecule spectroscopy performed on four spectrally separated detectors easily uncovers subpopulations that exhibit overall FRET efficiencies of up to approximately 90% across a distance of 13.6 nm and a spectral range of approximately 200 nm. Fluorescence trajectories of individual photonic wires show five different fluorescence intensity patterns which can be ascribed to successive photobleaching events.

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Supelco
Atto 590 NHS ester, suitable for fluorescence, BioReagent, ≥90.0% (degree of coupling)
Sigma-Aldrich
Atto 680 NHS ester, BioReagent, suitable for fluorescence, ≥90% (HPLC)