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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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![[Translate to chinese:] Pancreatic Ductal Adenocarcinoma with 11 Aerobic Glycolysis/Warburg Effect biomarkers shown – BCAT, Glut1, HK2, HTR2B, LDHA, NaKATPase, PCAD, PCK26, PKM2, SMA1, and Vimentin.](/fileadmin/_processed_/0/c/csm_Pancreatic_Ductal_Adenocarcinoma_11_Aerobic_Glycolysis_Markers_ROI4_68d425f709.jpg "[Translate to chinese:] Pancreatic Ductal Adenocarcinoma with 11 Aerobic Glycolysis/Warburg Effect biomarkers shown – BCAT, Glut1, HK2, HTR2B, LDHA, NaKATPase, PCAD, PCK26, PKM2, SMA1, and Vimentin.")
Dive into Pancreatic Cancer Research with Big Data
Pancreatic cancer, with a mortality rate near 40%, is challenging to treat due to its proximity to major organs. This story explores the complex biology of pancreatic ductal adenocarcinoma (PDAC),…
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![[Translate to chinese:] Colon adenocarcinoma and normal colon at the tumor margin. 13 biomarkers shown including Cadherin, CD3, CD4, CD8, CD20, CD31, CD45, Collagen, Caspase 9, BCL2, Beta-Catenin, Vimentin, and Smooth Muscle Actin.](/fileadmin/_processed_/2/9/csm_Colon_Adenocarcinoma_and_Normal_Colon_13_Markers_1be18263b2.jpg "[Translate to chinese:] Colon adenocarcinoma and normal colon at the tumor margin. 13 biomarkers shown including Cadherin, CD3, CD4, CD8, CD20, CD31, CD45, Collagen, Caspase 9, BCL2, Beta-Catenin, Vimentin, and Smooth Muscle Actin.")
Uncover the Hidden Complexity of Colon Cancer with Big Data
Colorectal cancer poses a significant health burden. While surgery is effective initially, some patients develop recurrent secondary disease with poor prognosis, necessitating advanced therapies like…
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Mapping Tumor Immune Landscape with AI-Powered Spatial Proteomics
Spatial mapping of untreated tumors provides an overview of the tumor immune architecture, useful for understanding therapeutic responses. Immunocompetent murine models are essential for identifying…
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Cell DIVE开放式超多重免疫荧光成像如何赋能空间生物学
空间生物学和多重成像工作流程在免疫肿瘤学研究中变得越来越重要。许多研究人员即使使用有效的工具和方案,也很难提高研究效率。我们将介绍研究人员如何利用开放式超多重免疫荧光的适应性,将 IBEX 成像与Cell DIVE 相结合,创造了一种名为 Cell DIVE-IBEX 的技术。它让这些研究人员能够调整现有的技术和试剂,并获得Cell DIVE 在其免疫肿瘤学研究中的可扩展性。
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激光显微切割技术用于组织和细胞分离的协议 - 免费下载电子书
激光显微切割(LMD,也称为激光捕获显微切割或LCM)使用户能够分离特定的单个细胞或整个组织区域,甚至亚细胞结构如染色体。纯化的组织和细胞可用于下游的RNA、DNA和蛋白质组工作流程。
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肿瘤空间微环境的元癌症分析
研究 TME中肿瘤、基质和免疫细胞之间的相互作用需要采用超多重免疫荧光成像方法。在这里,我们分析了一组Cell Signaling Technology(CST®)抗体,这些抗体针对肺癌、结肠癌和胰腺癌等癌症的标志物。通过Cell DIVE成像和Aivia中的聚类分析,我们确定了TME中的空间相互作用,包括组织特异性和共有的相互作用。
