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Mica: A Game-changer for Collaborative Research at Imperial College London
This interview highlights the transformative impact of Mica at Imperial College London. Scientists explain how Mica has been a game-changer, expanding research possibilities and facilitating…
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Overcoming Challenges with Microscopy when Imaging Moving Zebrafish Larvae
Zebrafish is a valuable model organism with many beneficial traits. However, imaging a full organism poses challenges as it is not stationary. Here, this case study shows how zebrafish larvae can be…
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![[Translate to chinese:] Salmonella biofilms 3D render](/fileadmin/_processed_/9/6/csm_Salmonella_biofilms_3D_render_b444a820a0.jpg "[Translate to chinese:] Salmonella biofilms 3D render")
探索微生物世界:三维食品基质中的空间相互作用
Micalis 研究所是与 INRAE、AgroParisTech 和巴黎萨克雷大学合作的联合研究单位。其使命是开发食品微生物学领域的创新研究,以促进健康。在这一系列视频中,Micalis…
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Advancing Uterine Regenerative Therapies with Endometrial Organoids
Prof. Kang's group investigates important factors that determine the uterine microenvironment in which embryo insertion and pregnancy are successfully maintained. They are working to develop new…
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![[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_6b9e3b80f0.jpg "[Translate to chinese:] The role of extracellular signalling mechanisms in the correct development of the human brain")
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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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.](/fileadmin/_processed_/f/f/csm_THUNDER_Imager_3D_Cell_Culture_Murine-esophageal-organoid_LVCC_299fe0ce61.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:] Branched organoid growing in collagen where the Nuclei are labeled blue. To detect the mechanosignaling process, the YAP1 is labeled green.](/fileadmin/_processed_/a/e/csm_Branched_organoid_growing_in_collagen_dc289aa8c6.jpg "[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。
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![[Translate to chinese:] Masson-Goldner staining of a hedgehog brain slice.](/fileadmin/_processed_/c/0/csm_Masson-Goldner_staining_of_hedgehog_brain_slice_a392b39de3.jpg "[Translate to chinese:] Masson-Goldner staining of a hedgehog brain slice.")
如何利用单个系统对组织学荧光样品进行成像
在本集MicaCame中,主持人Lynne Turnbull和Patric Pelzer将带您探寻生物样本染色的历史之旅。他们将解释为什么您通常必须选择为组织学样品或荧光样品选择特定的系统,以及如何利用新的成像技术克服这一点。
