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清晰对比、无雾的 3D 样本实时图像
历史上,宽场显微镜并不适合对大样本/标本体积进行成像。图像背景(BG)主要来源于观察样本的失焦区域,显著降低了成像系统的对比度、有效动态范围和最大可能的信噪比(SNR)。记录的图像显示出典型的雾霭,并且在许多情况下,无法提供进一步分析所需的细节水平。处理厚三维样本的研究人员要么使用替代显微镜方法,要么尝试通过后处理一系列图像来减少雾霭。
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什么是串联扫描器?
串联扫描器集成了两种不同类型的扫描技术于一体,以实现真正的共焦点扫描。该系统包括一个三镜头扫描基座,其x轴扫描器可以与一个电动装置进行互换。这一组合不仅允许通过FOV扫描器实现大面积高分辨率扫描,还可以通过共振扫描器对极速过程进行扫描,两者均在同一仪器中完成。
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![[Translate to chinese:] 3D glomeruli in a portion of an ECi-cleared kidney scanned by light sheet microscopy. Courtesy of Prof. Norbert Gretz, Medical Faculty Mannheim, University of Heidelberg [1].](/fileadmin/_processed_/d/d/csm_DLS-Sample-Preparation-Intr_915e0fd7c2.jpg "[Translate to chinese:] 3D glomeruli in a portion of an ECi-cleared kidney scanned by light sheet microscopy. Courtesy of Prof. Norbert Gretz, Medical Faculty Mannheim, University of Heidelberg [1].")
使用安装框架进行光片样品准备
样品处理通常是光片显微镜研究中的一个关键话题。徕卡显微系统的TCS SP8 DLS将光片技术集成到倒置共聚焦平台中,因此可以利用关于样品安装和XY-stage功能的一般原则。本文将描述一组安装框架,这些框架不仅允许准备更多的样品,尤其是在使用诸如BABB(苯甲醇苯甲酸酯)等潜在有害的安装介质时,亦具有广泛的适用性。
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如何通过激光显微切割改善您的 DNA 突变分析工作流程
DNA 突变导致异常蛋白质或缺失功能蛋白质,这可能导致细胞不受控制地增殖并变得癌变。为了找到并理解特定癌症类型的潜在突变,提取纯肿瘤材料是极其重要的。这尤其具有挑战性,特别是当只有有限数量的癌性组织可用时(例如小转移)。激光显微切割允许提取纯粹的癌性组织,而不会用健康细胞污染您的样本。DNA 测序将导致有效且可重复的结果,帮助轻松识别致癌的 DNA 突变,因为不会被污染的健康细胞掩盖。
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![[Translate to chinese:] Drosophila embryo observed from different sides. Images were acquired in the framework of the 2018 EMBO Lightsheet Course at MPI CBG in Dresden with expert support of Bruno Cossermelli Vellutini (MPI CBG), Pavel Tomancak (MPI CBG), and Emmanuel Reynaud (UCD).](/fileadmin/_processed_/2/4/csm_DLS-Sample-Mounting-SL-Intro_1961753352.jpg "[Translate to chinese:] Drosophila embryo observed from different sides.")
使用旋转设备进行光片样本安装
TCS SP8 DLS 显微镜采用了一种创新的设计理念,将光片显微技术集成到共聚焦显微镜中。得益于其独特的光学架构,样本可以像进行标准共聚焦成像一样,安装在标准玻璃底培养皿上。与传统的样本安装程序相比,这一过程只需进行少量调整。
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Array Tomography for SEM 3D Reconstruction
Array tomography (AT) is a 3D image reconstruction technique for high resolution, quantitative analysis of biological structures. For optimal results, ultrathin and ordered sections are an absolute…
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Expanding the Limits of Electron Microscopy Sample Preparation
Capturing the intricate changes in fine structure or in cell dynamics with conventional cryo solutions can be challenging sometimes. Leica Microsystems has developed a new cryo platform, the Leica EM…
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See More Than Just Your Image
Despite the emergence of new imaging methods in recent years, true 3D resolution is still achieved by Confocal Laser Scanning Microscopy (CLSM). Through a combination of novel, extremely fast scanning…
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DIVE Multiphoton Microscope Image Gallery
Today’s life science research focusses on complex biological processes, such as the causes of cancer and other human diseases. A deep look into tissues and living specimens is vital to understanding…
