显微镜知识库

徕卡显微系统的知识库提供有关显微镜学科的科学研究和教学材料。内容旨在对显微镜初学者、有经验的显微镜操作实践者和使用显微镜的科学家在他们的日常工作和实验有所帮助。这里有探索交互式教程和应用笔记，你可以找到你需要的显微镜的基础知识以及前沿技术——快来加入徕卡显微知识社区，分享您的专业知识！

A fruit fly (Drosophila melanogaster) observed with an Ivesta 3 stereo microscope during fly pushing (sorting of the flies). The scale bar length is 1 mm. Image courtesy of M. Benton, EMBL, Heidelberg, Germany.

A Guide to Using Microscopy for Drosophila (Fruit Fly) Research

The fruit fly, typically Drosophila melanogaster, has been used as a model organism for over a century. One reason is that many disease-related genes are shared between Drosophila and humans. It is…

Mouse brain slice which was immunostained with GFAP-A647 and imaged using a THUNDER Imager Tissue. Courtesy of H. Xu, University of Pennsylvania, Philadelphia, USA.

神经科学研究解决方案

您的工作是更好地了解神经退行性疾病，还是研究神经系统的功能？了解如何使用徕卡显微系统的成像解决方案取得突破。

3D high-plex imaging in cancer immunology. Overview of a pancreatic tumor section in mouse model, labeled with 15 markers and imaged in one go using STELLARIS with SpectraPlex. (https://www.nature.com/articles/d42473-024-00260-7)

如何优化多标成像技术推动3D空间组学发展

本次网络研讨会上，徕卡显微系统的Julia Roberti博士与Luis Alvarez博士将介绍STELLARIS共聚焦平台的全新功能SpectraPlex，该技术可实现超多标三维空间成像。该技术旨在通过实现超多标成像且无需频繁人工干预，从而简化和增强空间生物学应用。

Pancreatic Ductal Adenocarcinoma with 11 Apoptosis biomarkers shown – BAK, BAX, BCL2, BCLXL, Caspase9, CIAP1, NaKATPase, PCK26, SMAC, Vimentin, and XIAP.

Transforming Research with Spatial Proteomics Workflows

Spatial Proteomics, Nature Methods 2024 Method of the Year, is driving research advancements in cancer, immunology, and beyond. By combining positional data with high throughput imaging of proteins in…

Coherent Raman Scattering Microscopy Publication List

CRS (Coherent Raman Scattering) microscopy is an umbrella term for label-free methods that image biological structures by exploiting the characteristic, intrinsic vibrational contrast of their…

Image: Human stem cell-derived mid brain organoids. Courtesy of Dr Tanya Singh, University of Oxford.

揭开类器官模型在生物医学研究中的秘密

准备深入了解类器官和3D培养物的世界，它们是促进我们了解人类健康的重要工具。浏览这些复杂的结构并获取清晰的图像进行分析是一项挑战。在本次活动中，来自牛津大学和伦敦大学学院的研究人员将与我们一起展示Thunder Imager Cell转盘共聚焦系统如何提供更有说服力的高质量数据，以便深入了解各种模型。

3D culture of ovarian cancer cells imaged using the confocal mode of Mica.

Mica: 助力伦敦帝国学院开展跨学科科研研究

这篇访谈重点介绍了伦敦帝国学院的 Mica 所产生的变革性影响。科学家们解释了Mica如何改变了游戏规则，扩大了研究的可能性，促进了跨学科合作。他们解释了使用 Mica 进行详细的活细胞成像如何提供更有意义的信息，使科学家始终站在研究的最前沿。研究小组预计，Mica将继续开辟新的研究途径，包括研究微流体技术和其他先进应用。

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.

从显微镜到电镜：完整的冷冻光电联用工作流程

在题为“多模态玻璃化征程，从实验台到电子显微镜的冷冻关联工作流程”的网络研讨会上，专家团队（Edoardo D'Imprima、Zhengyi Yang、Andreia Pinto 和 Martin…

Blood vessel system of a zebrafish larvae

克服显微镜成像移动斑马鱼幼虫时的挑战

Zebrafish is a valuable model organism with many beneficial traits. However, imaging a full organism poses challenges as it is not stationary. Here, this case study shows how zebrafish larvae can be…

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