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Probing conformational dynamics by photoinduced electron transfer

机译:通过光诱导电子转移探究构象动力学

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摘要

We demonstrate how photoinduced electron transfer (PET) reactions can be successfully applied to monitor conformational dynamics in individual biopolymers. Single-pair fluorescence resonance energy transfer (FRET) experiments are ideally suited to study conformational dynamics occurring on the nanometer scale, e.g. during protein folding or unfolding. In contrast, conformational dynamics with functional significance, for example occurring in enzymes at work, often appear on much smaller spatial scales of up to several Angstroms. Our results demonstrate that selective PET-reactions between fluorophores and amino acids or DNA nucleotides represent a versatile tool to measure small-scale conformational dynamics in biopolymers on a wide range of time scales, extending from nanoseconds to seconds, at the single-molecule level under equilibrium conditions. That is, the monitoring of conformational dynamics of biopolymers with temporal resolutions comparable to those within reach using new techniques of molecular dynamic simulations. We present data about structural changes of single biomolecules like DNA hairpins and peptides by using quenching electron transfer reactions between guanosine or tryptophan residues in close proximity to fluorescent dyes. Furthermore, we demonstrate that the strong distance dependence of charge separation reactions on the sub-nanometer scale can be used to develop conformationally flexible PET-biosensors. These sensors enable the detection of specific target molecules in the sub-picomolar range and allow one to follow their molecular binding dynamics with temporal resolution.
机译:我们演示了如何将光诱导电子转移(PET)反应成功地应用于监测单个生物聚合物中的构象动力学。单对荧光共振能量转移(FRET)实验非常适合研究发生在纳米级(例如纳米级)的构象动力学。在蛋白质折叠或展开过程中。相反,具有功能意义的构象动力学,例如在工作中的酶中发生的构象动力学,通常以小得多的空间尺度出现,高达几埃。我们的结果表明,荧光团与氨基酸或DNA核苷酸之间的选择性PET反应代表了一种通用工具,可在很宽的时间范围内(从纳秒到秒)在单分子水平上测量生物聚合物中的小分子构象动力学。平衡条件。也就是说,使用分子动力学模拟的新技术,以与可及范围内的时间分辨率相当的时间分辨率监测生物聚合物的构象动力学。我们通过使用鸟嘌呤或色氨酸残基之间紧密结合荧光染料猝灭电子转移反应,介绍有关单个生物分子(如DNA发夹和肽)的结构变化的数据。此外,我们证明了电荷分离反应在亚纳米尺度上的强距离依赖性可用于开发构象柔性的PET生物传感器。这些传感器能够检测亚皮摩尔范围内的特定目标分子,并使其能够随时间分辨率跟踪其分子结合动力学。

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