Easily quantify complex cellular phenotypes with Harmony®幸运8平台彩票 high-content analysis software. Harmony software is designed for PerkinElmer high-content screening systems.
幸运8平台彩票Designed for biologists, Harmony’s workflow-based interface makes the whole process of high-content analysis straightforward, even for new users with little microscopy or programming knowledge.
One high-content analysis software for all your applications
One high-content analysis software for all users
|型号兼容||Operetta CLS AND Opera Phenix|
幸运8平台彩票Download our brochure to learn how our solutions help you to grow, detect, and analyze 3D cells.
Analyzing transport of biliary metabolites is essential to predict pharmacokinetics and hepatotoxicity during drug development. A functional impairment of hepatobilary transporters, such as bile salt export pump (BSEP) and multidrug resistance-associated protein 2 (MRP-2), is strongly associated with an increased risk of cholestatic liver injury. Here, we describe a 3D high-content screening assay to study hepatobiliary transporter function in InSphero human liver microtissues. Confocal imaging and automated image analysis were used to quantify BSEP and MRP-2-mediated efflux of fluorescent substrates into bile canaliculi.
幸运8平台彩票Download our technical note to find out how you can overcome some of the challenges associated with long-term live cell imaging. Learn how you can perform successful five-day live cell imaging on Operetta CLS™ and Opera Phenix™ high-content systems, avoid phototoxicity with gentle digital phase contrast imaging, and analyze cell growth and morphology on a single cell level without fluorescence staining.
The Opera Phenix™ high-content screening system’s state of the art hardware, combined with Harmony® imaging and analysis software, improves acquisition and analysis speed, enabling users to perform highly multi-parametric phenotypic screens effectively. In this technical note, learn how the Opera Phenix system’s Synchrony™ Optics and sCMOS cameras image up to 6x faster, how water immersion objectives combined with binning can reduce exposure time by approx. 20-fold and how image acquisition and analysis time can be reduced by >70% compared to a classical spinning disc confocal system.