Dear All
We would like to cordially invite you to the very interesting webinar on the analysis of cell function with the use of Seahorse Real-Time Cell Metabolic Analyzers organized by Perlan Technologies Poland, Agilent Technologies and Laboratory of Cellular Metabolism at the Nencki Institute of Experimental Biology which will take place on Wednesday, 25th of January at 11 am with the use of Teams (Link: https://teams.microsoft.com/l/meetup-join/19%3ameeting_MGJjNGFlNzQtNjZjZi00ZTk4LWFmYzItNDA3ZTE1Y).
We will host Svetoslav Kalaydijev, Agilent Technologies expert who will give a lecture entitled: Real-time analysis of a cellular function with the Seahorse metabolic analyzer. The abstract of the webinar you can find below. After the lecture, you will have a great occasion to ask the question to expert and clarify any doubts.
With kind regards,
Dorota Dymkowska
Abstract:
Mitochondrial function and glycolysis play critical roles in a variety of vital cellular processes, and researchers are applying metabolic measurements to discover cell function across multiple research areas, including: immunology, cancer, obesity, immuno-oncology, drug discovery, diabetes, metabolic disorders, stem cells, cardiovascular function, neurodegeneration, virology, and aging. Agilent Seahorse XF technology provides reliable, accurate, and routine measurements that can be applied to assess glycolytic rates, energy expenditure (e.g., cellular activation, proliferation, differentiation), ATP production rate in real-time, substrate oxidation, mitochondrial function, cell death, and general cellular homeostasis.Mitochondrial function and glycolysis play critical roles in a variety of vital cellular processes, and researchers are applying metabolic measurements to discover cell function across multiple research areas, including: immunology, cancer, obesity, immuno-oncology, drug discovery, diabetes, metabolic disorders, stem cells, cardiovascular function, neurodegeneration, virology, and aging. Agilent Seahorse XF technology provides reliable, accurate, and routine measurements that can be applied to assess glycolytic rates, energy expenditure (e.g., cellular activation, proliferation, differentiation), ATP production rate in real-time, substrate oxidation, mitochondrial function, cell death, and general cellular homeostasis.