The microprocessor controlled unit can regulate CO2 (0 - 20%) and O2 (1 - 19%) independently, making it unnecessary to change gas cylinders or piped gas supplies to reproduce certain physiological conditions needed for cell-based assays. When used in combination with the Omega’s other features such as extended temperature control up to 65°C and shaking (orbital, double orbital and linear), users can reproduce most physiological conditions making cell-based assays more biologically relevant.
The Omega series of microplate readers can measure multiple detection modes including Fluorescence Polarization (FP), Fluorescence Intensity, Time-Resolved Fluorescence (TRF), TR-FRET, AlphaTechnologies®, High-Performance Luminescence and UV/Vis spectrometer based absorbance. Applications can be run in a dedicated mode or a combination of all modes to acquire all the data needed in a single experiment. The multimode capabilities, together with the Atmospheric Control Unit ,are especially advantageous for a variety of applications including Mammalian Cell Assays, Stem Cell Assays, Hypoxia, Cell Viability, Cell Proliferation, Migration Studies, Invasion Assays, Intracellular pH, Angiogenesis, Ischemia / Reperfusion, and many more.
With the incorporation of the ACU into an Omega microplate reader, extended cell based experiments can now be performed without user intervention, providing a true 'walk away' assay solution and an innovative, flexible, gas control system.
For more information on the Atmospheric Control Unit, the Omega series and other innovative microplate reading solutions, visit the company article page on the right.