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![Cell DIVE image of stromal remodeling around B cell follicles of follicular lymphoma patients. Cell DIVE image of stromal remodeling around B cell follicles of follicular lymphoma patients. Stromal cells labeled with antibodies against desmin (red), SPARC (orange), vimentin (blue), and a-sma (yellow). Extracellular matrix labeled with antibody against lumican (cyan). B cells labeled with antibody against CD20 (green). Image credit: Dr. Andrea Radtke, Center for Advanced Tissue Imaging, NIAID, NIH](/fileadmin/_processed_/3/0/csm_Stromal_remodeling_around_B_cell_follicles_of_follicular_lymphoma_patients_06d74edb66.jpg)
Empowering Spatial Biology with Open Multiplexing and Cell DIVE
Spatial biology and multiplexed imaging workflows have become important in immuno-oncology research. Many researchers struggle with study efficiency, even with effective tools and protocols. Here, we…
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激光显微切割技术如何助力神经科学研究取得开创性进展?
玛尔塔·帕特林尼博士,卡罗林斯卡学院的高级科学家,分享了她在成人人类神经发生开创性研究中使用激光显微切割(LMD)的经验,并提供了关于LMD在空间蛋白质组学和精准医学中未来应用潜力的个人见解。
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![[Translate to chinese:] The role of extracellular signalling mechanisms in the correct development of the human brain [Translate to chinese:] The role of extracellular signalling mechanisms in the correct development of the human brain](/fileadmin/_processed_/a/e/csm_The_role_of_extracellular_signalling_mechanisms_in_the_correct_development_of_the_human_brain_24ae92408c.jpg)
在神经发育过程中,细胞是如何相互交流的?
细胞间通信是大脑发育过程中一个必不可少的过程,它受到多种因素的影响,包括细胞的形态、粘附分子、局部细胞外基质和分泌囊泡。在本次网络研讨会上,您将了解到对这些机制更深入的理解是如何推动对神经发育障碍的理解的。
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![[Translate to chinese:] 40x magnification of organoids cluster taken on Mateo TL.Cell type: esophageal squamous carcinoma; scale bar 15µm. Courtesy of bioGenous, China. [Translate to chinese:] 40x magnification of organoids cluster taken on Mateo TL.Cell type: esophageal squamous carcinoma; scale bar 15µm. Courtesy of bioGenous, China.](/fileadmin/_processed_/c/a/csm_Esophageal_squamous_carcinoma_scale__bar_15_m_7bfa184294.jpg)
克服类器官三维细胞培养中的观察挑战
类器官在细胞生物学和药物发现中至关重要,因为它们能够模拟体内细胞的复杂性和结构,有助于癌症等微环境至关重要的疾病研究。类器官可根据患者的基因型进行定制,这也有助于个性化医学研究。
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![[Translate to chinese:] Microscope equipped with a K7 color CMOS camera for life-science and industry imaging applications. [Translate to chinese:] Microscope equipped with a K7 color CMOS camera for life-science and industry imaging applications.](/fileadmin/_processed_/9/e/csm_Microscope_equipped_with_a_K7_color_CMOS_d4485ce44f.jpg)
数码显微镜摄像头和图像分析的基础技术术语定义
现今绝大多数显微镜都配置了摄像头。摄像头的特征通常决定了所采集到的图像是否能够揭示出研究人员希望观察到的现象。但深入到摄像头术语时,技术术语十分繁杂。我们汇总整理了最为重要的术语及其简明释意以便提供方向。这些术语按字母顺序排列。
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![[Translate to chinese:] Adult human Alzheimer’s brain demonstrating a panel of 15 markers. [Translate to chinese:] Adult human Alzheimer’s brain demonstrating a panel of 15 markers.](/fileadmin/_processed_/4/9/csm_Adult_human_Alzheimers_brain_68bacde06e.jpg)
大脑的形状:阿尔茨海默病的空间生物学
阿尔茨海默病(AD)是一种神经退行性疾病,也是导致晚年认知障碍的常见原因。阿尔茨海默病的特征是出现含β-淀粉样蛋白的斑块和含磷酸化 tau 的神经纤维缠结。目前尚缺乏治疗和预防AD的有效疗法。我们将Cell DIVE与Cell Signaling Technology的抗体结合使用,检查了AD的突触过程并从空间上确定了神经胶质细胞和神经元等细胞,证明了超多标免疫荧光成像技术可用于探测AD大脑。
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![[Translate to chinese:] Molecular structure of the green fluorescent protein (GFP) [Translate to chinese:] Molecular structure of the green fluorescent protein (GFP)](/fileadmin/_processed_/a/c/csm_Fluorescent-Proteins_363bb930f2.jpg)
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…
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![[Translate to chinese:] Image of an onion flake taken with a basic Leica compound microscope after it was tested for resistance to fungus and mold growth following part 11 of the ISO 9022 standard. [Translate to chinese:] Image of an onion flake taken with a basic Leica compound microscope after it was tested for resistance to fungus and mold growth following part 11 of the ISO 9022 standard.](/fileadmin/_processed_/2/f/csm_Image_of_an_onion_flake_acquired_after_ISO_9022-11_test_c031fc8f05.jpg)
ISO 9022 标准第 11 部分 - 在苛刻条件下测试显微镜
显微镜和其他光学仪器会受到环境因素的影响。环境因素取决于地理位置和使用地点的条件。仪器的坚固性可以通过完善的加速测试方法进行评估。ISO 9022 标准第 11 部分规定了测试光学仪器抗霉菌和真菌生长的方法。