BD launched a new family of reagents aimed to enable researchers to gain improved data resolution and greater insights from samples compared to traditional fluorochromes.
The new reagents were made possible via novel dye technology and artificial intelligence (AI) guidance. The launch of BD Horizon RealYellow 586 Reagents marks the first fluorochrome in a series from the new BD Horizon RealYellow and RealBlue Reagents product family. These reagents have the potential to accelerate discovery and drug development in many diseases, according to BD.
“One of the main challenges researchers face today is the limited number of markers that can be analyzed in a single sample due to the lack of specific fluorochromes excited at a single wavelength,” says Cyrille Mionnet, researcher at Centre d’Immunologie de Marseille-Luminy (CIML). “This hinders our ability to identify and analyze distinct populations with confidence. BD Horizon RealYellow 586 Reagents offer an effective solution for both conventional and spectral cytometry, expanding what is possible and opening the door to greater and deeper biological insights by facilitating panel design.”
BD Horizon RealYellow and RealBlue Reagents were developed using novel BD dye technology and an AI-guided approach to selecting the optimal fluorochrome positions. The AI analyzed existing data from excitation and emission profiles of current commercially available fluorochromes, then identified the optimal positions in laser lines for new dyes to be developed. The BD R&D team then developed dyes to fit these profiles using a novel BD dye technology.
Flow cytometry is a popular technique in biomedical research that allows scientists to identify and analyze single cells based on their characteristics, letting scientists study them in more detail to better understand the immune system, discover new biomarkers, and help develop treatments for disease. A key component of flow cytometry experiments are fluorochromes, or fluorescent dyes, photoreactive chemical compounds excited by laser light to enable the detection of features of interest on a cell. BD Horizon RealYellow and RealBlue Reagents are laser-specific fluorochromes optimally positioned to minimize the cross-laser excitation and background experienced with traditional fluorochromes.
BD Horizon RealYellow 586 Reagents are optimized for not only conventional flow cytometry, but spectral flow cytometry, a rapidly growing field that allows for even more characteristics to be measured from a single sample. Combined with spectral flow cytometry, BD Horizon RealYellow 586 Reagents help researchers perform high-dimensional research to address highly complex questions.
“By overcoming this long-standing limitation in flow cytometry, scientists will now be able to more accurately and confidently study cells of interest, which can streamline discovery research and help unlock potential therapies for disease in a broad range of fields including virology and oncology,” says Steve Conly, vice president and general manager of Research and Clinical Solutions for BD Biosciences. “With BD Horizon RealYellow and RealBlue Reagents, BD demonstrates its continued leadership in the exciting field of spectral flow cytometry. The new reagents will complement future products that leverage BD CellView Image Technology, our new technology that adds fluorescence imaging and image-based decisioning to sort individual cells at high speed based on the visual details of each cell, to empower researchers with a truly unique solution for cutting-edge flow cytometry.”
BD Horizon RealYellow 586 Reagents are now available globally online and through local sales representatives. Additional BD Horizon RealYellow and RealBlue Reagents will be made available soon.
Featured image: BD today announced the launch of a new family of reagents that enables researchers to gain improved data resolution and greater insights from samples compared to traditional fluorochromes, which creates the potential to accelerate discovery and drug development in oncology, autoimmune disorders and infectious diseases. Photo: BD
