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fluorescence resonance energy transfer
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e quenching effect of oxygen on certain rubidium complexes allows the measurement of oxygen saturation in solution. Quenching is the basis for fluorescence resonance energy transfer (FRET) assays Peng, X., Draney, D.R., Volcheck, W.M., Quenched near-infrared fluorescent peptide substrate for HIV-1 protease assay, Proc. SPIE, 2006; (6097), [http://spiedl.aip.org/getabs/servlet/GetabsSer |
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fluorescence resonance energy transfer
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id> </contributor> <minor /> <text xml:space="preserve">Image:FRET-Jablonski-diagram.jpg|thumb|A Jablonski diagram representing [[fluorescence resonance energy transfer (FRET)]]A '''Jablonski diagram''', named after the Polish physicist Aleksander Jabłoński, is a diagram that illustrates the electronic states of a molecule and the transitions between them. Th |
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fluorescence resonance energy transfer
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ron stacking interactions between the substituted tyrosine residue and the chromophore. These two classes of spectral variants are often employed for fluorescence resonance energy transfer (FRET) experiments. Genetically-encoded FRET reporters sensitive to cell signaling molecules, such as calcium or glutamate, protein phosphorylation state, protein complementation, receptor dimerization and |
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fluorescence resonance energy transfer
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[http://arxiv.org/abs/q-bio/0407006 q-bio/0407006 (July 2004)] . ===FRET-FCS=== Another FCS based approach to studying molecular interactions uses fluorescence resonance energy transfer (FRET) instead of fluorescence, and is called FRET-FCS. K. Remaut, B. Lucas, K. Braeckmans, N.N. Sanders, S.C. De Smedt and J. Demeester, FRET-FCS as a tool to evaluate the stability of oligonucleotide drug |