The Opera Phenix™ Plus High-Content Screening System is the premier confocal solution for today' most demanding high content applications. Drawing on over a decade of experience with the industry-leading Opera™ and Opera™ Phenix system, the Opera Phenix Plus is designed for high-throughput high-content assays, phenotypic screening, assays using complex disease models, such as live cells, primary cells and microtissues, and fast-response assays, such as Ca2+ flux.
The Opera Phenix Plus high-content screening system’s innovative optical design lets you generate richer information through extremely sensitive confocal imaging and at higher throughput than ever through simultaneous acquisition. Because spectral crosstalk is reduced to a minimum, it delivers speed without compromising sensitivity. With proven automated water immersion lenses, you’ll achieve higher throughput and richer content, making it the ideal high-content screening system for discriminating phenotypes and studying complex disease models. And with its liquid handling option and fast imaging frame rate, you can tackle fast-response assays such as calcium flux or cardiomyocyte beating.
Proprietary Synchrony™ Optics combine a microlens enhanced Nipkow spinning disk with dual view confocal optics to separate fluorescence excitation and emission during simultaneous acquisition minimizing spectral crosstalk – for greater speed and higher sensitivity.
The system’s imaging frame rate of up to 100fps is well-suited to assays that measure the beat-rate of cultured cardiomyocytes, as often used in cardiotoxicity studies. And the fast imaging frame rate, together with the dispense and read capabilities of the optional pipettor module, enables fast response assays in which cell responses occur within milliseconds to seconds – notably calcium flux assays.
Brand |
Opera Phenix Plus
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Unit Size |
1 Unit
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Researchers are increasingly looking to 3D cell cultures, microtissues, and organoids to bridge the gap between 2D cell cultures...
A team of researchers exploits high-content imaging to phenotype the effects of antimicrobial exposure on individual bacteria...
A team of researchers exploits high-content imaging to phenotype the effects of antimicrobial exposure on individual bacteria...
<p>Live cell imaging has gained importance within drug discovery over recent times, as researchers look for more meaningful insights...</p>
Dr. Robert Pacifici, Chief Scientific Officer at the CHDI Foundation, and Dr. Christian Landles, Senior Research Associate at...
Macrophages are the primary host cells for Mycobacterium tuberculosis (Mtb) during its intracellular survival in humans, and it...
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