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    Fluorescence Correlative Spectroscopy Modules
    EquipmentAvailable

    Fluorescence Correlative Spectroscopy Modules

    Faculty of Medicine and Dentistry
    Oncology
    University of Alberta

    FCS is a spectroscopic technique for the study of molecular interactions in solution. FCS monitors the random motion of fluorescently labelled molecules inside a defined volume element irradiated by a focused laser beam. These fluctuations provide information on the rate of diffusion (diffusion time) of a particle and this, in turn, is directly dependent on the particle's mass. As a consequence, any increase in the mass of biomolecules, e.g. as a result of an interaction with a second molecule, is readily detected as an increase in the particle's diffusion time.


    Because FCS measurement is made through diffraction limited volume, FCS can be used to study molecule-molecule interactions in living cell. The system can be used to study:

    1. Receptor-ligand interactions

    2. Transcription factor-DNA interactions

    3. Lipid-protein interactions, etc.

    The FCS system at the Facility is integrated part of the Multi-photon and the LSM710/Zeiss LSM NLO systems with all the laser lines for common fluorophores and 2 detectors which enable cross correlation analysis.

    Reference: http://www.graduate-studies-in-cancer-research.org/CIF/CIFequip6.htm

    Cell Imaging Facility

    Cell Imaging Facility

    Faculty of Medicine and Dentistry

    Research lab focused on advancing scientific knowledge and innovation.

    XS

    Xuejun Sun

    Oncology
    Faculty of Medicine and Dentistry
    University of Alberta
    EquipmentAvailable

    Fluorescence Correlative Spectroscopy Modules

    Faculty of Medicine and Dentistry
    Oncology
    University of Alberta

    FCS is a spectroscopic technique for the study of molecular interactions in solution. FCS monitors the random motion of fluorescently labelled molecules inside a defined volume element irradiated by a focused laser beam. These fluctuations provide information on the rate of diffusion (diffusion time) of a particle and this, in turn, is directly dependent on the particle's mass. As a consequence, any increase in the mass of biomolecules, e.g. as a result of an interaction with a second molecule, is readily detected as an increase in the particle's diffusion time.


    Because FCS measurement is made through diffraction limited volume, FCS can be used to study molecule-molecule interactions in living cell. The system can be used to study:

    1. Receptor-ligand interactions

    2. Transcription factor-DNA interactions

    3. Lipid-protein interactions, etc.

    The FCS system at the Facility is integrated part of the Multi-photon and the LSM710/Zeiss LSM NLO systems with all the laser lines for common fluorophores and 2 detectors which enable cross correlation analysis.

    Reference: http://www.graduate-studies-in-cancer-research.org/CIF/CIFequip6.htm

    Fluorescence Correlative Spectroscopy Modules
    Cell Imaging Facility

    Cell Imaging Facility

    Faculty of Medicine and Dentistry

    Research lab focused on advancing scientific knowledge and innovation.

    XS

    Xuejun Sun

    Oncology
    Faculty of Medicine and Dentistry
    University of Alberta

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    In partnership with

    McGill UniversityConcordia UniversityUniversité de MontréalPolytechnique MontréalDobson Centre for EntrepreneurshipUniversity of Alberta
    © 2026 LabGiant
    Privacy PolicyTerms of Service