New Super-Resolution Imaging Technology for Biomedical Research
                     New Super-Resolution Imaging Technology for Biomedical Research
CD BioSciences, a US-based biotechnology company focusing on the development of  
imaging technology, introduced its new services based on super-resolution imaging  
technology to help researchers study various cellular activities in cellular structures,  
such as DNA/RNA and protein interactions, DNA replication and transcription, vesicle  
motility, and bacterial transcription.
Microscopes are the most common research tools used in biological research.  
Researchers typically use electron microscopes to study subcellular structures or  
optical microscopes to investigate whole living cells. However, traditional  
microscopes have limited resolution. For example, when the distance between two  
or more fluorophores is within a few hundred nanometers, the images become  
blurred. In addition, traditional microscopes cannot directly observe cellular  
structures and biomolecular interactions because biological structures such as  
protein complexes, the Golgi apparatus, and the cytoskeleton are below the  
diffraction limit of traditional microscopes.
CD BioSciences has solved this problem with super-resolution imaging technology,  
which enables scientists to directly observe cell structures and biomolecular  
interactions, and study various cell activities in cell structure, such as DNA/RNA and  
protein interaction, DNA replication and transcription, vesicle movement and  
bacterial transcription. It has a number of advantages over traditional light  
microscopy, including high resolution, the ability to study protein structure at the  
organelle level, and the ability to follow the movement of individual molecules in  
cells in real time. These advantages make super-resolution imaging technology a  
valuable tool for researchers studying the mechanisms of cell physiology.
Furthermore, super-resolution microscopy breaks the resolution barrier while  
maintaining the minimally invasive nature of optical microscopy. It enables the  
observation of fine structures and molecular activities in the 10-100 nanometer  
resolution range by providing 20 times the imaging resolution of optical microscopy.  
It works by effectively reducing the point spread function or ensuring that the  
fluorophores of a sample are not too close together to prevent blurring.
Stimulated  emission depletion microscopy (STED), structured illumination
microscopy  (SIM), stochastic optical reconstruction microscopy (STORM), and  
two-photon excitation microscopy (TPE) are the most commonly
super-resolution microussceodpy techniques. These techniques produce super-resolution  
images in the low nanometer range, allowing observation of intracellular molecular  
interactions and fine cellular structures.
CD BioSciences specializes in the development and application of super-resolution
imaging technology. It offers a wide range of services including image analysis and  
consulting. For more information about the new super-resolution imaging technology,  
please visit
https://www.bioimagingtech.com/super-resolution-imaging-technology.html.
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.