Sciences de la vie | Apprendre et partager | Leica Microsystems

Sciences de la vie

Sciences de la vie

C'est ici que vous pourrez développer vos connaissances, vos capacités de recherche et les applications pratiques de la microscopie dans divers domaines scientifiques. Apprenez à obtenir une visualisation précise, à interpréter les images et à faire progresser la recherche. Trouvez des informations pertinentes sur la microscopie avancée, les techniques d'imagerie, la préparation des échantillons et l'analyse des images. Les sujets abordés comprennent la biologie cellulaire, les neurosciences et la recherche sur le cancer, en mettant l'accent sur les applications et les innovations de pointe.

Cell DIVE Multiplex Imaging Solution

Complex Made Simple: Antibodies in Multiplexed Imaging

Build panels, plan studies, and get the most from precious reagents using this antibody multiplexing guide from Leica Microsystems

Patch pipette touching a murine hippocampal neuron. Image courtesy of A. Aguado, Ruhr University Bochum, Germany.

What is the Patch-Clamp Technique?

This article gives an introduction to the patch-clamp technique and how it is used to study the physiology of ion channels for neuroscience and other life-science fields.

Masson-Goldner staining of a hedgehog brain slice.

How to Image Histological and Fluorescent Samples with One System

VIDEO ON DEMAND - How to image histological and fluorescent samples with one system. FluoSync, the new technology embedded into Mica enables the imaging of both histological staining and fluorescence…

Going Beyond Deconvolution

Widefield fluorescence microscopy is often used to visualize structures in life science specimens and obtain useful information. With the use of fluorescent proteins or dyes, discrete specimen…

How to Radically Simplify Workflows in Your Imaging Facility

VIDEO ON DEMAND - How to radically simplify imaging workflows and generate meaningful results with less time and effort using a highly automated microscope that unites widefield and confocal imaging.

Phase-contrast image of a MDCK-cell culture and its respective confluency measured by the Mateo TL microscope.

How to Determine Cell Confluency with a Digital Microscope

This article shows how to measure cell confluency in an easy and consistent way with Mateo TL, increasing confidence in downstream experiments.

[Translate to french:] Microscope image of cultured cells at the bottom of a dish.

How to do a Proper Cell Culture Quick Check

In order to successfully work with mammalian cell lines, they must be grown under controlled conditions and require their own specific growth medium. In addition, to guarantee consistency their growth…

Intensity distribution (arbitrary color coding) of an image of two points where the distance between them corresponds to the Rayleigh criterion.

Microscope Resolution: Concepts, Factors and Calculation

This article explains in simple terms microscope resolution concepts, like the Airy disc, Abbe diffraction limit, Rayleigh criterion, and full width half max (FWHM). It also discusses the history.

Five-color FLIM-STED

Five-color FLIM-STED with One Depletion Laser

Webinar on five-color STED with a single depletion laser and fluorescence lifetime phasor separation.