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Cell Cycle Assay
Automated quantification of cell populations fraction in different phases of the cell cycle
Cell cycle and cell division represents the most fundamental and important processes in eukaryotic cells. Athena‘s Cell Cycle application offers an image-based automated analysis tool to quantify the fraction of cell populations in different phases of the cell cycle.
- DNA content, measured from fluorescence intensity, reveals the cell cycle distribution of a sample
- Suitable for adherent cells as well as suspension cells
- Nuclei shape and morphological parameters are also extracted
- Time lapse imaging can provide insight into changes in cell cycle progression during treatment of live cells
- Ideal for Proliferation assays, Screens for drugs that cause cell cycle arrest or cell death in cancerous cells & many more
- Cell Cycle analysis visual tools
Cell cycle and cell division represents the most fundamental and important processes in eukaryotic cells. Athena‘s Cell Cycle application offers an image-based automated analysis tool to quantify the fraction of cell populations in different phases of the cell cycle.
- DNA content, measured from fluorescence intensity, reveals the cell cycle distribution of a sample
- Suitable for adherent cells as well as suspension cells
- Nuclei shape and morphological parameters are also extracted
- Time lapse imaging can provide insight into changes in cell cycle progression during treatment of live cells
- Ideal for Proliferation assays, Screens for drugs that cause cell cycle arrest or cell death in cancerous cells & many more
- Cell Cycle analysis visual tools
Live Zebrafish imaging at 10x magnification
Video capture from a live Zebrafish larva
With thanks to Dr Gillian Tomlinson from the UCL Division of Infection and Immunity, UCL, UK
Live Zebrafish imaging- Blood flow
Video capture from a live Zebrafish larva imaged in bright field illumination using 40X magnification. Acquired by Dr Gillian Tomlinson using IDEA Bio-Medical’s Hermes WiScan at the UCL Division of Infection and Immunity, London, UK.
Fish organs & regions automatic segmentation
Automatically quantify area, fluorescence intensity, and count of whole fish and internal organelle properties, including eye, yolk, spine, tail, brain, internal granules and more.Statistical data calculated per fish and per organelle.
Time lapse Zebrafish- Neutrophil Migration
Time lapse of a Zebrafish embryo with S. Pneumoniae injected into the hind brain. GFP-expressing Neutrophils begin to migrate into the injection site over 4 hours.Acquired with IDEA Bio-Medical’s Hermes automated screening system by Sreyashi Koyel Basu and Dr. Gillian Tomlinson, UCL, London, UK
Live Zebrafish imaging at 10x magnification
Video capture from a live Zebrafish larva
With thanks to Dr Gillian Tomlinson from the UCL Division of Infection and Immunity, UCL, UK
Live Zebrafish imaging- Blood flow
Video capture from a live Zebrafish larva imaged in bright field illumination using 40X magnification. Acquired by Dr Gillian Tomlinson using IDEA Bio-Medical’s Hermes WiScan at the UCL Division of Infection and Immunity, London, UK.
Fish organs & regions automatic segmentation
Automatically quantify area, fluorescence intensity, and count of whole fish and internal organelle properties, including eye, yolk, spine, tail, brain, internal granules and more.Statistical data calculated per fish and per organelle.
Time lapse Zebrafish- Neutrophil Migration
Time lapse of a Zebrafish embryo with S. Pneumoniae injected into the hind brain. GFP-expressing Neutrophils begin to migrate into the injection site over 4 hours.Acquired with IDEA Bio-Medical’s Hermes automated screening system by Sreyashi Koyel Basu and Dr. Gillian Tomlinson, UCL, London, UK