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EMCCD-based spectrally resolved fluorescence correlation spectroscopy
Bestvater, Felix,Seghiri, Zahir,Kang, Moon Sik,Grö,ner, Nadine,Lee, Ji Young,Im, Kang-Bin,Wachsmuth, Malte The Optical Society 2010 Optics express Vol.18 No.23
<P>We present an implementation of fluorescence correlation spectroscopy with spectrally resolved detection based on a combined commercial confocal laser scanning/fluorescence correlation spectroscopy microscope. We have replaced the conventional detection scheme by a prism-based spectrometer and an electron-multiplying charge-coupled device camera used to record the photons. This allows us to read out more than 80,000 full spectra per second with a signal-to-noise ratio and a quantum efficiency high enough to allow single photon counting. We can identify up to four spectrally different quantum dots in vitro and demonstrate that spectrally resolved detection can be used to characterize photophysical properties of fluorophores by measuring the spectral dependence of quantum dot fluorescence emission intermittence. Moreover, we can confirm intracellular cross-correlation results as acquired with a conventional setup and show that spectral flexibility can help to optimize the choice of the detection windows.</P>
Two-photon spectral imaging with high temporal and spectral resolution
Im, Kang-Bin,Kang, Moon-Sik,Kim, Jiho,Bestvater, Felix,Seghiri, Zahir,Wachsmuth, Malte,Grailhe, Regis The Optical Society 2010 Optics express Vol.18 No.26
<P>We introduce a fast spectral imaging system using an electron-multiplying charge-coupled device (EM-CCD) as a detector. Our system is combined with a custom-built two-photon excitation laser scanning microscope and has 80 detection channels, which allow for high spectral resolution and fast frame acquisition without any loss of spectral information. To demonstrate the efficiency of our approach, we applied this technology to monitor fluorescent proteins and quantum dot-labeled G protein-coupled receptors in living cells as well as autofluorescence in tissue samples.</P>