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Industriel

Industriel

Plongez dans des articles détaillés et des webinaires consacrés à l'inspection efficace, à l'optimisation des flux de travail et au confort ergonomique dans les contextes industriels et pathologiques. Les sujets abordés comprennent le contrôle de la qualité, l'analyse des matériaux, la microscopie en pathologie, parmi beaucoup d'autres. C'est ici que vous obtiendrez des informations précieuses sur l'utilisation des technologies de pointe pour améliorer la précision et l'efficacité des processus de fabrication, ainsi que pour établir des diagnostics et des recherches pathologiques précis.

UC Enuity with Diatome diamond knife.

Mastering Polymer Sectioning with Helmut Gnaegi

When it comes to ultramicrotomy, few names carry the weight of Helmut Gnaegi. As co-founder of Diatome, a global leader in diamond knife technology, Helmut has spent decades refining the art and…

Complete camera overview of EM grid recorded with 3 channels. Inserts displaying the positions, where superresolved 3D confocal images were recorded. 3D renderings of these positions are shown in the zoomed inserts. Fluorescence channels (nuclei by Hoechst, blue; mitochondria by MitoTracker Green, green; lipid Droplets by Bodipy and Crimson Beads, red). Width of a grid square is 90 ?m, width of a grid bar is 35 ?m. Samples kindly provided by Ievgeniia Zagoriy, Mahamid-Group, EMBL Heidelberg, Germany.

From Bench to Beam: A Complete Correlative Cryo Light Microscopy Workflow

In the webinar entitled "A Multimodal Vitreous Crusade, a Cryo Correlative Workflow from Bench to Beam" a team of experts discusses the exciting world of correlative workflows for structural biology…

Projection of a confocal z-stack. Sum159 cells, human breast cancer cells kindly provided by Ievgeniia Zagoriy, Mahamid Group, EMBL Heidelberg, Germany. Blue–Hoechst - indicates nuclei, Green–MitoTracker mitochondria, and red–Bodipy - lipid droplets

New Imaging Tools for Cryo-Light Microscopy

New cryo-light microscopy techniques like LIGHTNING and TauSense fluorescence lifetime-based tools reveal structures for cryo-electron microscopy.

Correlation of markers in the LM and the FIB image.

How to Target Fluorescent Structures in 3D for Cryo-FIB Milling

This article describes the major steps of the cryo-electron tomography workflow including super-resolution cryo-confocal microscopy. We describe how subcellular structures can be precisely located in…

HeLa cells labeled with dark blue – Hoechst, Nuclei; magenta – MitoTracker Green, Mitochondria; turquoise - Bodipy, lipid droplets. Cells kindly provided by Ievgeniia Zagoriy, Mahamid Group, EMBL Heidelberg, Germany.

Precise 3D Targeting for EM Imaging - Access What Matters

Find out how the seamless cryo-electron tomography workflow Coral Cryo uses confocal super resolution to target your structure of interest more precisely.

Tomographie Cryoélectronique

La tomographie cryoélectronique (CryoET) est utilisée pour analyser les biomolécules dans leur environnement cellulaire avec une résolution sans précédent, inférieure au nanomètre.

How to Successfully Perform Live-Cell CLEM

The Leica Nano workflow provides a streamlined live-cell CLEM solution for getting insight bout structural changes of cellular components over time. Besides the technical handling described in the…

How to Successfully Implement Coral Life

The live-cell  CLEM workflow allows you to capture dynamic information related to a relevant biological process as it happens and put these observations into their ultrastructural context. The Leica…

Advancing Cellular Ultrastructure Research

Freeze-fracture and freeze-etching are useful tools for studying flexible membrane-associated structures such as tight junctions or the enteric glycocalyx. Freeze-fracture and etching are two…