Learn how the CLARIOstar with ACU replicates in vivo oxygen conditions to increase the significance of your data
Cell based assays are typically run at non-physiologically relevant O2 levels such as 21%. The speakers show the impact that working under physiological conditions can have to improve the interpretation of data. They present a case study employing a Cardiovascular Endothelial line in which Nrf-2 activity is investigated using ROS and metabolism measurements.
The webinar explores how and why O2 as a physiological parameter can influence data. The interpretation of disease models will be demonstrated and researchers learn how to adopt a similar strategy to more accurately replicate the in vivo condition on the bench.
Kinetic Characterization of Covalent Inhibitors on the PHERAstar
A TR-FRET Approach to Measure the Kinetics of Ligand-Receptor Binding and Its Application of Fragment Screening
Real-Time Profiling of Receptor Pharmacology
The Kinetics of Drug Binding
Real-Time Cell Health Assays Deliver Better Data with Less Effort
Real Time Detection of G-Protein Coupled Receptors in Living Cells
How to Perform Real-Time, Walk-Away, Cell Health Assays
Optimizing Sensitivity and Specifity in the RT- QUiC Assay
Enhanced Protein-Protein Interactions in Living Cells Using the NanoBRET Assay & CLARIOstar
Novel Haemoglobin Modifying Activity Discovered Through Screening T-VDAcv
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