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显微镜科学与教学知识中心

显微镜科学与教学知识中心

显微镜科学与教学知识中心

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!
Masson-Goldner staining of a hedgehog brain slice.

How to Streamline Your Histology Workflows

Streamline your histology workflows. The unique Fluosync detection method embedded into Mica enables high-res RGB color imaging in one shot.
[Translate to chinese:] Murine esophageal organoids (DAPI, Integrin26-AF 488, SOX2-AF568) imaged with the THUNDER Imager 3D Cell Culture. Courtesy of Dr. F.T. Arroso Martins, Tamere University, Finland.

如何深入了解类器官和细胞球模型

在本电子书中,您将了解3D细胞培养模型(如类器官和细胞球)成像的关键注意事项。探索创新型显微镜解决方案,来实时记录类器官和细胞球的动态成像过程。
Fluorescence microscopy image of liver tissue where DNA in the nuclei are stained with Feulgen-pararosanilin and visualized with transmitted green light.

Epi-Illumination Fluorescence and Reflection-Contrast Microscopy

This article discusses the development of epi-illumination and reflection contrast for fluorescence microscopy concerning life-science applications. Much was done by the Ploem research group…
[Translate to chinese:] Molecular structure of the green fluorescent protein (GFP)

荧光蛋白简介

本文概述了荧光蛋白及其光谱特性。随着 20 世纪 50 年代末荧光蛋白的发现,荧光显微技术发生了巨大变化。它始于 O. Shimomura 和来自水母(Aequorea victoria)的绿色荧光蛋白(GFP)[1]。后来出现了数百种 GFP…
[Translate to chinese:] Branched organoid growing in collagen where the Nuclei are labeled blue. To detect the mechanosignaling process, the YAP1 is labeled green.

检查癌症类器官的发展进程

德国慕尼黑工业大学的Andreas Bausch实验室研究细胞和生物体中不同结构和功能形成的细胞和生物物理机制。他的团队设计了新的策略、方法和分析工具,以量化微米和纳米等级的发展机制和动态过程。关键研究领域包括干细胞和类器官,从乳腺类器官到胰腺癌类器官,以更好地了解疾病模型。
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…

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.
[Translate to chinese:]

FLUOSYNC - 一种快速而温和的多色光谱拆分成像方法

在本白皮书中,我们重点介绍如何使用一种快速、可靠的方法在荧光显微镜下获得高质量多通道图像。FluoSync 将现有的光谱混合拆分方法与同步采集多个光谱探测范围相结合,一步到位。这样,多个荧光团可同时成像,而且无需担心荧光串扰、滤光片的选择或在高速成像下损失重要光子的问题。从样本中获得真正的信号从未如此容易。

利用微流控技术保持活细胞成像期间的细胞健康

点播视频——在这集MicaCam中,我们将使用微流控技术探索对细胞形态的剪切应力,检查3D细胞培养期间营养物质补充对细胞生长的影响,并观察长期培养期间球状体的发育。
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