From Analysis to Sorting: Integrated User Workflows with the FP7000 Spectral Cell Sorter
The FP7000 Spectral Cell Sorter is engineered to address the growing demands of high-parameter cell sorting by combining advanced spectral optics, precision electronics, and robust fluidics. This system enables researchers to perform complex multicolor sorting of isolated cell populations with high purity, viability, and functionality. Its intuitive and flexible setup, guided software workflows, and advanced sorting capabilities streamline experimental design.
In this webinar, we will highlight key features of the FP7000 Spectral Cell Sorter that enable streamlined system setup and operation in multi-user laboratory environments. We will also demonstrate how seamless integration with the ID7000™ Spectral Cell Analyzer supports efficient migration of experimental panels from analysis to sorting.
In addition, we will present performance data showcasing the FP7000’s ability to accurately isolate multiple T-cell subsets, with demonstrated compatibility for downstream applications including cell culture and cytokine analysis.
Learning Objectives:
- Understand how the FP7000 Spectral Cell Sorter can be set up for high-speed sorting
- Learn about the workflow integration between the ID7000 and FP7000 systems
- Review a high-parameter panel for setting up multicolor spectral sorting experiments using the FP7000
Who should attend
This webinar will provide insights to flow cytometry core laboratories who are looking to enhance their capabilities in spectral flow cytometry and researchers who have familiarity with flow cytometry and would like to expand their applications to multicolor cell sorting.
Speaker
Ben Janoschek
Senior Field Application Scientist
Sony Biotechnology
Currently based at Sony Biotechnology in the Boston area, Ben graduated from the University of Washington in 2020 with a degree in Molecular Biology. He started his flow cytometry career at the Fred Hutchinson Cancer Center Flow Core in 2020, working on Sony’s ID7000, MA900, and FX500 systems as well as other instruments. Ben enjoys teaching and learning from the researchers he works with to design high-parameter panels and experiments.