Oliver T. Burton, James Dooley, Adrian Liston
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引用次数: 0
Abstract
High quality input data is the key to successful interpretation of any scientific assay. In flow cytometry, fluorescently-conjugated antibodies allow us to simultaneously measure an incredible range of protein-based targets on single cells with a high degree of specificity. Limiting the quality of data generated, however, is the non-specific interaction that can occur between antibodies and off-target binders. Judicious use of blocking reagents can improve the specificity of the staining by reducing this non-specific binding to cells, improving the sensitivity of the assay to detect the authentic signal above assay noise. Additional beneficial effects include preventing interactions between dyes and even limiting the degradation of dyes, improving data quality. In this article, we provide a workflow for minimizing these unwanted effects, increasing specificity and sensitivity in highly multiplex flow cytometry. © 2025 The Author(s). Current Protocols published by Wiley Periodicals LLC.
Basic Protocol 1: Surface staining
Basic Protocol 2: Intracellular staining
Basic Protocol 3: Intracellular cytokine staining
高参数流式细胞术中阻断和信号保存方案的优化。
高质量的输入数据是成功解释任何科学分析的关键。在流式细胞术中,荧光偶联抗体使我们能够以高度特异性同时测量单个细胞上令人难以置信的基于蛋白质的靶标范围。然而,限制生成数据质量的是抗体和脱靶结合物之间可能发生的非特异性相互作用。明智地使用阻断试剂可以通过减少这种与细胞的非特异性结合来提高染色的特异性,提高检测检测噪声之上的真实信号的灵敏度。其他有益的影响包括防止染料之间的相互作用,甚至限制染料的降解,提高数据质量。在本文中,我们提供了一个工作流程,以尽量减少这些不必要的影响,提高特异性和敏感性,在高度多重流式细胞术。©2025作者。Wiley期刊有限责任公司发布的当前方案。基本方案1:表面染色。基本方案2:细胞内染色。基本方案3:细胞内细胞因子染色。
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