Cytation™ 1 Cell Imaging Multi-Mode Reader combines fluorescence and high contrast brightfield imaging with conventional multi-mode detection without the expense and complexity commonly associated with other digital microscopy systems. This unique, patented design provides both quantitative phenotypic cellular information with well-based quantitative data. Cytation 1's multi-mode detection module includes high sensitivity filter-based fluorescence and a monochromator system for UV-Vis absorbance. Temperature control and shaking are standard; CO2/O2 control and reagent injectors are available. BioTek’s powerful Gen5 software makes image capture and plate reading easy.
- Affordable, patented, quantitative digital microscopy and optional multi-mode microplate detection
- Augmented Microscopy™ using Gen5 software for seamless image capture to quantitative publication ready data with no extensive training required
- Fluorescence and high contrast brightfield imaging from 1.25x to 60x to capture large regions of interest or intracellular details
- Affordable automation: automated XY stage, focus, exposure, image capture and LED intensity
- More than 20 imaging filter/LED cube colors reach many applications
- Cell friendly design: 4-Zone incubation to 45°C with Condensation Control, CO2/O2 control, angled injectors and lidded plate handling
- High performance filter-based fluorescence detection with convenience of monochromator based UV-Vis absorbance
- Peltier Cooling Module maintains environmental stability for uncompromised assay integrity
Testimonials
Seahorse XF Imaging and Normalization System
Cytation 1 is a key component of Agilent Technologies’ Seahorse XF Imaging and Normalization System. XFe Analyzers simultaneously measure the two major cellular energy-producing pathways, mitochondrial respiration and glycolysis, in live cells and in real time. The integrated solution with Cytation 1 combines cellular analysis and imaging for an intuitive workflow to streamline XF data interpretation.
Sourcing your microplates shouldn't be an added task in preparing your cell-based workflows. Agilent now offers cell culture and imaging microplates so you can complete your workflows seamlessly. Click here to request your free sample. |
Quoi de neuf
Download our Application Note to discover how combining MitoXpress and pH-Xtra reagents with BioTek plate readers provide sensitive detection methods, including advanced lifetime (µs) time-resolved fluorescence (TRF), for getting the most meaningful data out of your cell metabolism assays.
Applications
- Tests de migration cellulaire et d'invasion
- L'imagerie des cellules vivantes
- Comptage cellulaire sans etiquette
- Applications de lecture multi-mode
- Immunofluorescence
- Essais Phenotypiques

New AutoScratch Wound Making Tool automatically creates reproducible scratch wounds in 96- and 24-well microplates for cell migration assays.
Ce ne sont que quelques exemples des nombreuses applications importantes pour Cytation 1. Visitez notre page des Applications pour en savoir plus.
Fonctionnalités
Abordable, microscopie numérique quantitative brevetée et détection microplaques multimode en option.
Augmented Microscopy™ en utilisant Gen5 : logiciel prêt poul la capture d'image et la publication des données quantitatives.
L'interface est logique et facile à utiliser, de sorte que votre flux d'imagerie peut être opérationnel sans une formation approfondie.
Contraste élevé et fluorescence imagerie fond clair
Automatisation à prix abordable

La conception de la cellule
La haute performance et commodité
Peltier Cooling Module maintient la stabilité environnementale pour une intégrité de dosage sans compromis
Pleins feux sur le client

25-March-20
Differentiating a stem cell into a neuron or glial cell is typically a time-consuming bottleneck in human neurological dysfunction research. On top of this, precisely controlling the purity of sub-types in a mixed neuron population can be a complex task, yet is critical to improve assay reproducibility and eliminate unwanted cell types that may negatively impact results.