Multiplexing bioluminescent and fluorescent reporters to monitor live cells.

Current chemical genomics Pub Date : 2008-02-25 DOI:10.2174/1875397300801010011

Michael Haugwitz, Omar Nourzaie, Tatiana Garachtchenko, Lanrong Hu, Suvarna Gandlur, Cathy Olsen, Andrew Farmer, Grigoriy Chaga, Hiroaki Sagawa

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引用次数: 16

Abstract

Reporter proteins are valuable tools to monitor promoter activities and characterize signal transduction pathways. Many of the currently available promoter reporters have drawbacks that compromise their performance. Enzyme-based reporter systems using cytosolic luciferases are highly sensitive, but require a cell lysis step that prevents their use in long-term monitoring. By contrast, secreted bioluminescent reporters like Metridia luciferase and Secreted Alkaline Phosphatase can be assayed repeatedly, using supernatant from the same live cell population to produce many sets of data over time. This is crucial for studies with limited amounts of cells, as in the case of stem cells. The use of secreted bioluminescent reporters also enables broader applications to provide more detailed information using live cells; for example, multiplexing with fluorescent proteins. Here, data is presented describing the characteristics of secreted Metridia luciferase and its use in multiplexing applications with either Secreted Alkaline Phosphatase or a fluorescent protein.

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多路生物发光和荧光报告监测活细胞。

报告蛋白是监测启动子活性和表征信号转导途径的重要工具。目前可用的许多启动子报告程序都存在影响其性能的缺陷。使用细胞质荧光素酶的基于酶的报告系统是高度敏感的，但需要一个细胞裂解步骤，这阻碍了它们在长期监测中的使用。相比之下，分泌的生物发光报告基因，如Metridia荧光素酶和分泌的碱性磷酸酶，可以重复检测，使用来自同一活细胞群的上清，随着时间的推移产生多组数据。这对于细胞数量有限的研究至关重要，比如干细胞的研究。分泌的生物发光报告器的使用也使更广泛的应用能够使用活细胞提供更详细的信息;例如，与荧光蛋白进行多路复用。在这里，数据被提出描述分泌的Metridia荧光素酶的特点和它的使用在多路应用与分泌碱性磷酸酶或荧光蛋白。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Current chemical genomics

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