![[Translate to chinese:] THUNDER image of brain-capillary endothelial-like cells derived from human iPSCs (induced pluripotent stem cells) where cyan indicates nuclei and magenta tight junctions.](/fileadmin/_processed_/8/e/csm_Brain-capillary_endothelial-like_cells_derived_from_human_iPSCs_b5dcf04bc9.jpg "[Translate to chinese:] THUNDER image of brain-capillary endothelial-like cells derived from human iPSCs (induced pluripotent stem cells) where cyan indicates nuclei and magenta tight junctions.")
![[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.](/fileadmin/_processed_/f/f/csm_THUNDER_Imager_3D_Cell_Culture_Murine-esophageal-organoid_LVCC_9bc587500f.jpg "[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.")
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![[Translate to chinese:] Single cell datasets](/fileadmin/_processed_/8/8/csm_Single_cell_datasets_SPARCS_441a58445d.jpg "[Translate to chinese:] Single cell datasets")
利用 SPARCS 探索亚细胞空间表型
功能日益强大的显微镜可提供信息丰富的各种细胞表型数据。如果与深度学习的最新进展相结合,这将成为在基因筛选中读出感兴趣的生物表型的理想技术。在本网络讲座中,您将了解到空间分辨 CRISPR 筛选 (SPARCS),这是一种利用自动化高速激光显微切割技术在人类基因组尺度上揭示各种亚细胞空间表型的平台。
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![[Translate to chinese:] Brain organoid section (DAPI) acquired using THUNDER Imager Live Cell. Image courtesy of Janina Kaspar and Irene Santisteban, Schäfer Lab, TUM.](/fileadmin/_processed_/2/7/csm_Tilescan_of_brain_organoid_section_46d510ba4e.jpg "[Translate to chinese:] Brain organoid section (DAPI) acquired using THUNDER Imager Live Cell. Image courtesy of Janina Kaspar and Irene Santisteban, Schäfer Lab, TUM.")
研究大脑健康的成像类器官模型
小胶质细胞是特化的脑驻留免疫细胞,在大脑发育、平衡和疾病中发挥着至关重要的作用。然而,到目前为止,模拟人脑环境与小胶质细胞之间相互作用的能力还非常有限。
![[Translate to chinese:] Mouse cortical neurons. Transgenic GFP (green). Image courtesy of Prof. Hui Guo, School of Life Sciences, Central South University, China](/fileadmin/_processed_/2/a/csm_THUNDER_Imager_Mouse_cortical_neuron_9d4054774d.jpg "[Translate to chinese:] Mouse cortical neurons. Transgenic GFP (green). Image courtesy of Prof. Hui Guo, School of Life Sciences, Central South University, China")
![[Translate to chinese:] Cancer cells](/fileadmin/_processed_/6/b/csm_Cancer_cells_0188d06359.jpg "[Translate to chinese:] Cancer cells")
![[Translate to chinese:] How is microscopy used in spatial biology - Teaserimage](/fileadmin/_processed_/0/f/csm_spatial-biology-ebook-tease_5ac6218fa3.jpg "[Translate to chinese:] How is microscopy used in spatial biology? A microscopy guide.")
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超越反卷积
宽场荧光显微镜通常用于视觉呈现生命科学样本中的结构并获取重要信息。利用荧光蛋白或染料,以高度特异性的方式标记离散的样本部分。为了充分了解某种结构,可能需要以三维方式呈现,但这会对使用显微镜带来某些挑战。
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![[Translate to chinese:] Raw widefield and THUNDER image of transversal mouse adult fiber lens section. Courtesy N. Houssin, Plagemen lab, Ohio State University, Columbus, USA.](/fileadmin/_processed_/3/0/csm_Transversal_mouse_adult_fiber_lens_section_Widefield_THUNDER_teaser_6f95700ba0.jpg "[Translate to chinese:] Raw widefield and THUNDER image of transversal mouse adult fiber lens section. Courtesy N. Houssin, Plagemen lab, Ohio State University, Columbus, USA.")
眼部出生缺陷研究
本文讨论如何使用快速采集的宽场显微镜图像研究晶状体的形成和眼部出生缺陷。将小鼠晶状体用作模型,以研究眼睛细胞形态发生及细胞过程如何中断并导致发生缺陷。通过无模糊或离焦模糊的图像揭示了小鼠晶状体玻片内部深处的细节。这些图像是使用THUNDER Imager 3D Assay采集的。