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![[Translate to chinese:] Spheroid stained with Cyan: Dapi nuclear countertain; Green AF488 Involucrin; Orange AF55 Phalloidin Actin; Magenta AF647 CK14.](/fileadmin/_processed_/6/8/csm_Spheroid_stained_with_Cyan_4color_overlay_78dff87b83.jpg "[Translate to chinese:] Spheroid stained with Cyan: Dapi nuclear countertain; Green AF488 Involucrin; Orange AF55 Phalloidin Actin; Magenta AF647 CK14.")
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Virtual Reality Showcase for STELLARIS Confocal Microscopy Platform
In this webinar, you will discover how to perform 10-color acquisition using a confocal microscope. The challenges of imaged-based approaches to identify skin immune cells. A new pipeline to assess…
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多色四维超分辨光片显微镜
人工智能显微术研讨会主要关注和讨论显微术和生物医学成像领域的最新人工智能技术和工具。在该科学演示中,Yuxuan Zhao展示了如何通过渐进式深度学习策略并结合“双环调制的SPIM”设计改善活细胞中的细胞器三维成像。
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![[Translate to chinese:] 3D-volume-rendered light-sheet microscope image of a spheroid showing depth coding in different colors.](/fileadmin/_processed_/4/8/csm_Spheroid_showing_depth_coding_in_different_colors_3D_DLS_ff196ec61f.jpg "[Translate to chinese:] 3D-volume-rendered light-sheet microscope image of a spheroid showing depth coding in different colors.")
利用DLS对细胞球中的抗癌药物摄取进行成像
细胞球3D细胞培养模型模拟了活组织的生理和功能,使其成为研究肿瘤形态和筛选抗癌药物的有用工具。药物AZD2014是一种公认的哺乳动物雷帕霉素靶蛋白(mTOR)通路抑制剂[1]。mTOR的异常激活会促进肿瘤生长和转移,导致AZD2014进入临床试验作为抗癌分子。其具体的抗肿瘤机制尚不清楚。
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Understanding Motor Sequence Generation Across Spatiotemporal Scales
We have developed a microscopy-based pipeline to characterize a developmentally critical behavior at the pupal stage of development, called the ecdysis sequence. We study brain-wide neuronal activity…
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![[Translate to chinese:] Elucidate cancer development on sub-cellular level by in-vivo like tumor spheroid models.](/fileadmin/_processed_/f/5/csm_3d-biology-workflow-DLS_5efeff5312.jpg "[Translate to chinese:] Elucidate cancer development on sub-cellular level by in-vivo like tumor spheroid models.")
利用光片显微镜改进三维细胞生物学工作流程
了解癌症发生过程中的亚细胞机制对于癌症治疗至关重要。常见的细胞模型涉及作为单层生长的癌细胞。然而,这种方法忽视了肿瘤细胞与其周围微环境之间的三维相互作用。为了贴近自然环境理解恶性肿瘤的发展和进程,对癌症微环境的详细表征至关重要。
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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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![[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。
