用“活跃的”分子报告器阐明细胞内活动的动力学。

A. Tsourkas, R. Weissleder
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引用次数: 4

摘要

传统上,荧光和发光报告蛋白被用作基因表达和蛋白质定位的指标。然而,深刻的诱变和蛋白质工程策略已经将这些简单的被动报告变成了主动的生物传感器。分子报告器现在被设计用来改变其固有的光学特性,以响应特定的生物分子相互作用。这些新型生物传感器的应用范围从监测细胞内pH值和离子通量到检测蛋白质相互作用和酶活性。监测响应外部刺激的细胞内活动动态的能力可以帮助阐明复杂过程(如机械转导)中涉及的级联事件。在这里,我们回顾了一些用于创建这些新型生物传感器的方法,包括报告蛋白之间的共振能量转移(RET)和蛋白质碎片化策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Illuminating the dynamics of intracellular activity with 'active' molecular reporters.
Traditionally, fluorescent and luminescent reporter proteins have been used as indicators of gene expression and protein localization. However, insightful mutagenesis and protein engineering strategies have transformed these simple passive reporters into active biological sensors. Molecular reporters are now being designed to alter their intrinsic optical properties in response to specific biomolecular interactions. Applications for these novel biological sensors range from monitoring intracellular pH and ion fluxes to detecting protein-protein interactions and enzymatic activity. The ability to monitor the dynamics of intracellular activity in response to external stimuli can help elucidate the cascade of events involved in complex processes such as mechanotransduction. Here we review some of the approaches used to create these novel biological sensors, including resonance energy transfer (RET) between reporter proteins and protein fragmentation strategies.
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