The Cell Function Analysis Core (CFAC) facilitates the research of Diabetes Research Center (DRC) Affiliates by offering precise real time functional analysis of intact cells and primary tissue. Many measurements are made using a flow culture system that maintains cell viability while multiple parameters are assessed non-invasively using optical or radiological detection. With the goal of systematically studying the physiologic control of cell function in health and in diabetes, assays are offered that reflect bioenergetics, metabolism, cell signaling and biosynthetic and secretory function of the cell.
The specific services offered by the CFAC include:
- Assays for the following parameters: lactate production, glucose production and uptake, oxygen consumption, cellular NADH, CO2 production, reductive state of cytochrome C, ROS production, mitochondrial membrane potential, ATP content, calcium and potassium metabolism, These assays have been optimized for measurements in islets, retina, stem cells, macrophages, lymphocytes, adipocytes, endothelial cells, neurons, hepatocytes, muscle and brain slices.
- Determination of the activity of protein kinase A and C using state-of-the-art technology based on genetically encoded fluorescence activity biosensors. In addition, to develop microfluidic technology that permits single cell analysis of metabolic and electrophysiologic parameters.
- Isolation and culture of pancreatic islets and other primary tissue for subsequent morphological and functional characterization. Services for specific for islet studies include measurement of insulin secretion and islet insulin content.
For further information see https://depts.washington.edu/diabetes/cfac or contact:
Ian Sweet, PhD, Core Director, 206-685-4775, email@example.com
John Scott, PhD, Associate Director, 206-616-3340, firstname.lastname@example.org
For Core service information contact:
Austin Rountree, Manager, 206-616-2482, email@example.com