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Science Lab

Science Lab

Science Lab

Das Wissensportal von Leica Microsystems bietet Ihnen Wissens- und Lehrmaterial zu den Themen der Mikroskopie. Die Inhalte sind so konzipiert, dass sie Einsteiger, erfahrene Praktiker und Wissenschaftler gleichermaßen bei ihrem alltäglichen Vorgehen und Experimenten unterstützen. Entdecken Sie interaktive Tutorials und Anwendungsberichte, erfahren Sie mehr über die Grundlagen der Mikroskopie und High-End-Technologien - werden Sie Teil der Science Lab Community und teilen Sie Ihr Wissen!
Raw widefield and THUNDER image of Drosophila follicles. Image courtesy of M. Khoury and D. Bilder, University of California, Berkeley, USA.

Investigating Epithelial Morphogenesis and the Growth of Epithelia

This article shows how rapidly acquired THUNDER images of Drosophila follicles or egg chambers help distinguish apicobasal proteins when studying epithelial morphogenesis for cancer research.
Raw widefield and THUNDER image of GFP-tagged zebrafish fin. Courtesy of Jason Ear lab at Cal Poly Pomona, California, USA.

Diseases Linked to Scaffold Proteins and Signaling

This article shows how diseases related to scaffold proteins and protein signaling can be studied in zebrafish models efficiently with a THUNDER Imager.
Extended depth of field reconstruction image of a whole human pancreas islet showing fluorescence signals from insulin (green), glucagon (red), an IL17 cytokine (magenta), and nuclei (blue).

Understanding Better the Onset of Diabetes

This article shows how Interleukin-17 (IL-17) proinflammatory cytokine proteins in human pancreatic islets can be studied efficiently with a THUNDER Imager.
Chicken-embryo cross section at the level of the midbrain showing neural crest cells and cadherin-6B molecules. Raw widefield data (top) and THUNDER image (bottom).

The Neural Crest (NC)

This article discusses how the study of neural crest (NC) development in chicken embryos is aided with haze-free imaging using a THUNDER Imager 3D Assay. Proper specification, migration, and…
Raw widefield and THUNDER image of transversal mouse adult fiber lens section. Courtesy N. Houssin, Plagemen lab, Ohio State University, Columbus, USA.

Studying Ocular Birth Defects

This article discusses how lens formation and ocular birth defects can be studied with sharp widefield microscopy images which are acquired rapidly. The mouse ocular lens is used as a model to study…
THUNDER image of early prophase Drosophila germarium.

Healthy Oocyte Development

This article discusses how the study of mechanisms involved in the generation of healthy oocytes in Drosophila fruit flies can be helped with sharp, haze-free images acquired with a THUNDER Imager…
Mouse whole-mount retina. Image courtesy of the Experimental Ophthalmology Group, University of Murcia, Spain.

Fast, High Acuity Imaging and AI-assisted Analysis

The use of state-of-the-art AI systems is pushing image analysis into a new generation. Challenges like the conflict between imaging power and sample integrity are being overcome with THUNDER’s…
3D reconstruction of an isolated human islet

Create New Options for Live Cell Imaging

The use of state-of-the-art AI systems is pushing image analysis into a new generation. Challenges like the conflict between imaging power and sample integrity are being overcome with THUNDER’s…
Raw widefield and THUNDER image of mouse brain showing D2-dopamine receptors.

Expression of D2-Dopamine Receptors in Neurons

This article discusses how D2-dopamine receptors (D2R) in the substantia-nigra of mouse brain can be more clearly revealed with a THUNDER Imager 3D Assay using Instant Computational Clearing (ICC)…
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