监测白色念珠菌表型转换和新一代荧光报告的使用

Corey Frazer, Aaron D. Hernday, Richard J. Bennett
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引用次数: 9

摘要

白色念珠菌是一种机会性的人类真菌病原体,能够引起粘膜和全身感染。它也是一种常见的人类共栖动物,通常存在于包括胃肠道在内的多个生态位。白色念珠菌生物学最显著的特征之一是它能够在不同的表型状态之间进行遗传和可逆的转换,这种现象被称为表型转换。这最好的例子是白色不透明开关,其中细胞在两种可选的细胞状态之间经历表观遗传转变。在这里,我们描述了量化状态之间切换频率的分析,以及帮助识别不同表型状态的细胞的方法。我们还描述了可以诱导切换到白色或不透明状态的环境线索的使用。最后,我们介绍了mNeonGreen和mScarlet荧光蛋白的使用,它们已被优化用于白色念珠菌,并且在荧光显微镜和流式细胞术中优于常用的荧光蛋白。©2019 by John Wiley &儿子,Inc。
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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Monitoring Phenotypic Switching in Candida albicans and the Use of Next-Gen Fluorescence Reporters

Candida albicans is an opportunistic human fungal pathogen that is able to cause both mucosal and systemic infections. It is also a frequent human commensal, where it is typically found inhabiting multiple niches including the gastrointestinal tract. One of the most remarkable features of C. albicans biology is its ability to undergo heritable and reversible switching between different phenotypic states, a phenomenon known as phenotypic switching. This is best exemplified by the white-opaque switch, in which cells undergo epigenetic transitions between two alternative cellular states. Here, we describe assays to quantify the frequency of switching between states, as well as methods to help identify cells in different phenotypic states. We also describe the use of environmental cues that can induce switching into either the white or opaque state. Finally, we introduce the use of mNeonGreen and mScarlet fluorescent proteins that have been optimized for use in C. albicans and which outperform commonly used fluorescent proteins for both fluorescence microscopy and flow cytometry. © 2019 by John Wiley & Sons, Inc.

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来源期刊
Current Protocols in Microbiology
Current Protocols in Microbiology Immunology and Microbiology-Parasitology
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期刊介绍: Current Protocols in Microbiology provides detailed, step-by-step instructions for analyzing bacteria, animal and plant viruses, fungi, protozoans and other microbes. It offers updated coverage of emerging technologies and concepts, such as biofilms, quorum sensing and quantitative PCR, as well as proteomic and genomic methods. It is the first comprehensive source of high-quality microbiology protocols that reflects and incorporates the new mandates and capabilities of this robust and rapidly evolving discipline.
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