CD BioSciences, a US-based biotechnology company focusing on the development of imaging technology, has recently announced the launch of Fluorescence Correlation Spectroscopy to assist researchers in detecting molecular concentrations, hydrodynamic radii, diffusion dynamics and interactions of different biomolecules.
Fluorescence correlation spectroscopy (FCS) is a technique for measuring fluorescence fluctuations in molecular systems. It has been widely employed in biomedicine, biophysics, chemistry and other fields. FCS can measure fluctuations in fluorescence intensity caused by Brownian motion or chemical reactions in a small volume and quantitatively evaluate the concentrations, diffusion coefficients and interactions of fluorescent molecules in simple artificial models or in living cells.
In an equilibrium solution, the number of fluorescent molecules in the microregion is determined by the concentration of fluorescent molecules in the solution and the volume of the region. When fluorescent molecules diffuse due to Brownian motion or intermolecular chemical reactions, the fluorescence intensity of the microregion will change over time and fluorescence fluctuations will occur. FCS then utilizes this phenomenon for analysis and detection.
FCS is usually performed in a confocal system where the fluorescence emitted by fluorescently labeled molecules in the observation volume is collected by the same objective and propagates opposite the excitation/dissipation light direction. After passing through a long-pass dichroic mirror, the fluorescence is focused through a pinhole onto an avalanche photodiode. The fluorescence emitted in the out-of-focus region is rejected by the pinhole and it does not reach the detector. Thus, the pinhole reduces the axial extension of the viewing volume. This restricted observation volume significantly improves the signal-to-noise ratio and also reduces the measurement time to obtain a good correlation curve.
CD Biosciences has been developing fluorescent probes and imaging technologies for many years. The company now offers various types of FCS, such as Dual-color FCCS, Multi-focus FCS, Scanning FCS, Focus-reduced FCS, and STED-FCS, which can be employed to detect molecular concentrations, hydrodynamic radii, diffusion dynamics and interactions of different biomolecules.
Applications
- Nucleic acid breakage and nucleic acid hybridization
- Binding equilibrium of drugs and other low molecular weight ligands
- Lateral separation of lipids in bilayer membranes
- Protein-protein interactions
- Aggregation of membrane-bound receptors
Advantages
- High spatial and temporal resolution, short analysis time and high sensitivity
- Measure the spatial and temporal correlation of individual molecules with themselves
- Avoids artifacts caused by photobleaching and membrane motion
CD BioSciences possesses a professional team with extensive working experience in the imaging field. Its team can provide customers with personalized imaging services that meet research needs in the fields of biology, microbiology, medicine, and food.
For customers interested in learning more about Fluorescence Correlation Spectroscopy, please visit CD BioSciences at https://www.bioimagingtech.com/.
* For Research Use Only. Not for therapeutic or diagnostic applications.
About CD BioSciences
CD BioSciences is a biotechnology company committed to the development of imaging technology for many years. Its scientists can utilize high-content imaging, nanoparticle imaging, imaging flow cytometry, time-lapse imaging, and other techniques to image cell structure, cell migration, cell proliferation, pathogen infection mechanisms, and interactions between protein molecules. In addition, the team is capable of applying powerful analytical software to capture images of cellular structure, subcellular, or tissues for useful information.
Source: Story.KISSPR.com
Release ID: 568700