Harnessing bioluminescence for drug discovery and epigenetic research

Hannah J. Gleneadie, Andrew Dimond, Amanda G. Fisher
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Abstract

The naturally occurring phenomenon of bioluminescence has intrigued on-lookers for decades and is now being developed as a powerful tool for medical research and preclinical imaging. Luciferase enzymes emit light upon substrate encounter, enabling their activity to be visualised and dynamically tracked. By inserting luciferase genes into specific sites in the genome, it is possible to engineer reporters to monitor gene expression in its native context, and to detect epigenetic change in vivo. Endogenous bioluminescent reporters provide a highly sensitive, quantitative read-out of gene expression that is both well suited to longitudinal studies and can be adapted for high-throughput drug screens. In this article we outline some of the applications and benefits of bioluminescent reporters for epigenetic research, with a particular focus on revealing new therapeutic options for treating genetic and epigenetic disorders.
利用生物发光进行药物发现和表观遗传学研究
几十年来,自然发生的生物发光现象引起了旁观者的兴趣,现在正被开发为医学研究和临床前成像的有力工具。荧光素酶在遇到底物时发光,使其活性可视化和动态跟踪。通过将荧光素酶基因插入基因组中的特定位点,可以设计报告基因来监测其天然环境下的基因表达,并检测体内的表观遗传变化。内源性生物发光报告器提供了一种高度敏感的基因表达定量读数,既适合纵向研究,也适用于高通量药物筛选。在这篇文章中,我们概述了生物发光报告在表观遗传学研究中的一些应用和好处,特别侧重于揭示治疗遗传和表观遗传疾病的新治疗选择。
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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