Overview
Long-term observation of mitosis by live cell microscopy is required for uncovering the role of Cohesin on compartmentalized nuclear architecture which is linked to nuclear functions.To perform long term observation of mitosis devices are needed that have low phototoxic effects on living cells and enable high speed imaging.
Cohesin, a ring-like protein complex with its major subunits RAD21, SMC1, and SMC3 is involved in sister chromatid entrapment to ensure proper chromosome segregation during mitosis, in double strand break repair and gene regulation Its impact on a compartmentalized nuclear architecture, linked to nuclear functions, is less well understood. By using the CSU W-1 confocal scanner unit for time lapse imaging entrance into mitosis, mitotic progression and exit can be examined.
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Zugehörige Produkte & Lösungen
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Superauflösung
Superauflösung durch optisches Re-Assignment
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Weites Sichtfeld
Das CSU-W1 ist unsere Antwort auf Anfragen von Forschern nach einem „weiteren Sichtfeld (FOV)“ und nach „klareren Bildern“.
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Konfokale Spinning Disk (Rotationsscheibe) CSU
Mit unserem urheberrechtlich geschützten Dual-Spinning-Disk-Design ausgestattet, transformiert das konfokale Scanning-System von Yokogawa optische Mikroskope, indem es Echtzeit-Live-Cell-Imaging ermöglicht.
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Life Science
Die High-Content-Analyse-Systeme (HCA) und Dual-Spinning-Disk-Technologien von Yokogawa ermöglichen hochauflösendes Hochgeschwindigkeits-Live-Cell-Imaging für die Spitzenforschung rund um den Globus.