Leica EM AFS2
電顕用試料作製装置
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Leica EM AFS2 電子顕微鏡及び光学顕微鏡向け<br>凍結置換、低温重合システム
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How Marine Microorganism Analysis can be Improved with High-pressure Freezing
In this application example we showcase the use of EM-Sample preparation with high pressure freezing, freeze substiturion and ultramicrotomy for marine biology focusing on ultrastructural analysis of…
How to Keep Your Samples Under Physiological Conditions
The Coral Life workflow combines dynamic data with the best possible sample fixation by high pressure freezing. However, good sample preservation won’t help if your cells are stressed by temperature…
Putting Dynamic Live Cell Data into the Ultrastructural Context
With workflow Coral Life, searching for a needle in the haystack is a thing of the past. Take advantage of correlative light and electron microscopy to identify directly the right cell at the right…
Exploring the Structure and Life Cycle of Viruses
The SARS-CoV-2 outbreak started in late December 2019 and has since reached a global pandemic, leading to a worldwide battle against COVID-19. The ever-evolving electron microscopy methods offer a…
Investigating Synapses in Brain Slices with Enhanced Functional Electron Microscopy
A fundamental question of neuroscience is: what is the relationship between structural and functional properties of synapses? Over the last few decades, electrophysiology has shed light on synaptic…
Workflows and Instrumentation for Cryo-electron Microscopy
Cryo-electron microscopy is an increasingly popular modality to study the structures of macromolecular complexes and has enabled numerous new insights in cell biology. In recent years, cryo-electron…
Ultrastructural Preservation and Improved Visualization of Membranes in Primary Bovine Chromaffin Cells
Intracellular dynamic events, such as protein trafficking, recycling, and degradation as well as signal transduction, to name a few, can be studied using live-cell imaging techniques. However,…
Superior Ultrastructural Preservation and Structural Contrast in Drosophila Tissue
Optimal structural preservation of tissue can only be obtained by high pressure freezing. However, preparing the samples in optimal conditions is challenging. This article explains in detail how to…
Freeze Substitution of Trypanosoma brucei
Chemical fixation of biological specimens for ultrastructural investigation is a relatively slow and selective process, and therefore a common source of artifacts. Freezing, on the other hand, is an…
Brief Introduction to Freeze Substitution
Freeze-substitution is a process of dehydration, performed at temperatures low enough to avoid the formation of ice crystals and to circumvent the damaging effects observed after ambient-temperature…