Industrie

Industrie

Industrie

Tauchen Sie ein in detaillierte Artikel und Webinare, die sich mit effizienter Inspektion, optimierten Arbeitsabläufen und ergonomischem Komfort in industriellen und pathologischen Umgebungen befassen. Zu den behandelten Themen gehören Qualitätskontrolle, Materialanalyse, Mikroskopie in der Pathologie und vieles mehr. Sie erhalten wertvolle Einblicke in den Einsatz von Spitzentechnologien zur Verbesserung der Präzision und Effizienz von Fertigungsprozessen sowie zur präzisen pathologischen Diagnose und Forschung.
Foraminifera (Ammonia confertitesta) labeled with membrane-permeable calcein, high-pressure frozen in salt water using EM ICE. The sample was cryo-planed and targeted with the M205 on the Cryo-Fluo Enuity, then transferred under cryo conditions to the Cryo-Stellaris for widefield and confocal imaging, revealing details of the staining pattern. Image courtesy: David Evans, University of Southampton.

High-Pressure Freezing for Organoids: Cryo CLEM & FIB Lift Out

Master cryo EM workflow steps for challenging 3D samples: when to choose HPF vs. plunge freezing, reproducible blotting/ice control, contamination aware transfers, Cryo CLEM 3D targeting in organoids,…
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…
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…
Root-hypocotyl junction of Arabidopsis thaliana. Image acquired with TauContrast. Sample courtesy: Dr. Melanie Krebs, COS, University of Heidelberg.

Benefits of TauContrast to Image Complex Samples

In this interview, Dr. Timo Zimmermann talks about his experience with the application of TauSense tools and their potential for the investigation of demanding samples such as thick samples or…
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