On the mechanism of Trolox as antiblinking and antibleaching reagent.
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[1] C. Lambert,et al. Electron Transfer Quenching of the Rose Bengal Triplet State , 1997, Photochemistry and photobiology.
[2] P. Wardman,et al. Reduction Potentials of One-Electron Couples Involving Free Radicals in Aqueous Solution , 1989 .
[3] Jan Vogelsang,et al. Superresolution microscopy on the basis of engineered dark states. , 2008, Journal of the American Chemical Society.
[4] T. Pan,et al. Single-molecule nonequilibrium periodic Mg2+-concentration jump experiments reveal details of the early folding pathways of a large RNA , 2008, Proceedings of the National Academy of Sciences.
[5] F. G. Carmona,et al. A kinetic study of the one-electron oxidation of Trolox C by the hydroperoxidase activity of lipoxygenase , 1997 .
[6] Arindam Banerjee,et al. Submitted for publication , 1981 .
[7] S. McKinney,et al. Nonblinking and long-lasting single-molecule fluorescence imaging , 2006, Nature Methods.
[8] Mike Heilemann,et al. A reducing and oxidizing system minimizes photobleaching and blinking of fluorescent dyes. , 2008, Angewandte Chemie.
[9] H. J. Kim,et al. Effects and prooxidant mechanisms of oxidized alpha-tocopherol on the oxidative stability of soybean oil. , 2007, Journal of food science.
[10] S. Sapino,et al. Photostability of Trolox in Water/Ethanol, Water, and Oramix CG 110 in the Absence and in the Presence of TiO2 , 2004 .
[11] K. Schulten,et al. Fluorescence-Force Spectroscopy Maps Two-Dimensional Reaction Landscape of the Holliday Junction , 2007, Science.
[12] Christian Eggeling,et al. Strategies to improve photostabilities in ultrasensitive fluorescence spectroscopy. , 2007, The journal of physical chemistry. A.
[13] S. Sarkar,et al. Engineered holliday junctions as single-molecule reporters for protein-DNA interactions with application to a MerR-family regulator. , 2007, Journal of the American Chemical Society.