Home > All Applications > Intranuclear Foci
Intranuclear Foci Assay
Automatic detection & quantification of intranuclear foci and puncta
This application detects fluorescent foci within cellular nuclei and quantifies their count, area and intensity.
In parallel, the intensity of a labeled protein of interest in the nuclei is measured and quantified as well.
Single cell analysis of RNA FISH for cytokine expression
In this application note, we utilized WiScan® Hermes high content microscope to investigate immune responses to stimuli by primary human monocyte-derived macrophages, which exhibit significant variability in gene expression between different cells. WiScan® Hermes High content wide field microscope offers the ability to work with large sample sizes while investigating subcellular features at the single cell level.
This application detects fluorescent foci within cellular nuclei and quantifies their count, area and intensity.
In parallel, the intensity of a labeled protein of interest in the nuclei is measured and quantified as well.
Single cell analysis of RNA FISH for cytokine expression
In this application note, we utilized WiScan® Hermes high content microscope to investigate immune responses to stimuli by primary human monocyte-derived macrophages, which exhibit significant variability in gene expression between different cells. WiScan® Hermes High content wide field microscope offers the ability to work with large sample sizes while investigating subcellular features at the single cell level.
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