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W3002252366 abstract "Probing the diffusion of molecules has become a routine measurement across the life sciences, chemistry and physics. It provides valuable insights into reaction dynamics, oligomerisation, molecular (re-)organisation or cellular heterogeneities. Fluorescence correlation spectroscopy (FCS) is one of the widely applied techniques to determine diffusion dynamics in two and three dimensions. This technique relies on the temporal autocorrelation of intensity fluctuations but recording these fluctuations has thus far been limited by the detection electronics, which could not efficiently and accurately time-tag photons at high count rates. This has until now restricted the range of measurable dye concentrations, as well as the data quality of the FCS recordings, especially in combination with super-resolution stimulated emission depletion (STED) nanoscopy. Here, we investigate the applicability and reliability of (STED-)FCS at high photon count rates (average intensities of more than 1 MHz) using novel detection equipment, namely hybrid detectors and real-time gigahertz sampling of the photon streams implemented on a commercial microscope. By measuring the diffusion of fluorophores in solution and cytoplasm of live cells, as well as in model and cellular membranes, we show that accurate diffusion and concentration measurements are possible in these previously inaccessible high photon count regimes. Specifically, it offers much greater flexibility of experiments with biological samples with highly variable intensity, e.g. due to a wide range of expression levels of fluorescent proteins. In this context, we highlight the independence of diffusion properties of cytosolic GFP in a concentration range of approx. 0.01-1 µm. We further show that higher photon count rates also allow for much shorter acquisition times, and improved data quality. Finally, this approach also pronouncedly increases the robustness of challenging live cell STED-FCS measurements of nanoscale diffusion dynamics, which we testify by confirming a free diffusion pattern for a fluorescent lipid analogue on the apical membrane of adherent cells." @default.
W3002252366 created "2020-01-30" @default.
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W3002252366 date "2020-02-13" @default.
W3002252366 modified "2023-10-01" @default.
W3002252366 title "High photon count rates improve the quality of super-resolution fluorescence fluctuation spectroscopy" @default.
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W3002252366 cites W1970138343 @default.
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W3002252366 cites W1976786825 @default.
W3002252366 cites W1981765336 @default.
W3002252366 cites W1982859702 @default.
W3002252366 cites W1982865896 @default.
W3002252366 cites W1991175357 @default.
W3002252366 cites W2002832176 @default.
W3002252366 cites W2008863941 @default.
W3002252366 cites W2016189813 @default.
W3002252366 cites W2020447495 @default.
W3002252366 cites W2022393754 @default.
W3002252366 cites W2031315991 @default.
W3002252366 cites W2032003671 @default.
W3002252366 cites W2036236078 @default.
W3002252366 cites W2038202291 @default.
W3002252366 cites W2046321737 @default.
W3002252366 cites W2050719403 @default.
W3002252366 cites W2057062200 @default.
W3002252366 cites W2059807927 @default.
W3002252366 cites W2061466767 @default.
W3002252366 cites W2064757943 @default.
W3002252366 cites W2080909237 @default.
W3002252366 cites W2088591956 @default.
W3002252366 cites W2092591295 @default.
W3002252366 cites W2093703133 @default.
W3002252366 cites W2094264287 @default.
W3002252366 cites W2108317418 @default.
W3002252366 cites W2111315736 @default.
W3002252366 cites W2116382310 @default.
W3002252366 cites W2123065989 @default.
W3002252366 cites W2123099266 @default.
W3002252366 cites W2131927684 @default.
W3002252366 cites W2137978643 @default.
W3002252366 cites W2140937954 @default.
W3002252366 cites W2146412869 @default.
W3002252366 cites W2164565944 @default.
W3002252366 cites W2171788130 @default.
W3002252366 cites W2325814231 @default.
W3002252366 cites W2338693367 @default.
W3002252366 cites W2599649240 @default.
W3002252366 cites W2605759836 @default.
W3002252366 cites W2633442832 @default.
W3002252366 cites W2729283896 @default.
W3002252366 cites W2751886572 @default.
W3002252366 cites W2756299032 @default.
W3002252366 cites W2791990350 @default.
W3002252366 cites W2792697227 @default.
W3002252366 cites W2793510372 @default.
W3002252366 cites W2801889343 @default.
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W3002252366 cites W2897002244 @default.
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W3002252366 doi "https://doi.org/10.1088/1361-6463/ab6cca" @default.
W3002252366 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7655148" @default.
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