Allosteric modulation of fluorescence revealed by hydrogen bond dynamics in a genetically encoded maltose biosensor

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Melike Berksoz, Canan Atilgan
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Abstract

Genetically encoded fluorescent biosensors (GEFBs) proved to be reliable tracers for many metabolites and cellular processes. In the simplest case, a fluorescent protein (FP) is genetically fused to a sensing protein which undergoes a conformational change upon ligand binding. This drives a rearrangement in the chromophore environment and changes the spectral properties of the FP. Structural determinants of successful biosensors are revealed only in hindsight when the crystal structures of both ligand‐bound and ligand‐free forms are available. This makes the development of new biosensors for desired analytes a long trial‐and‐error process. In the current study, we conducted μs‐long all atom molecular dynamics (MD) simulations of a maltose biosensor in both the apo (dark) and holo (bright) forms. We performed detailed hydrogen bond occupancy analyses to shed light on the mechanism of ligand induced conformational change in the sensor protein and its allosteric effect on the chromophore environment. We find that two strong indicators for distinguishing bright and dark states of biosensors are due to substantial changes in hydrogen bond dynamics in the system and solvent accessibility of the chromophore.
通过氢键动力学揭示基因编码麦芽糖生物传感器中荧光的异相调制作用
事实证明,基因编码荧光生物传感器(GEFB)是许多代谢物和细胞过程的可靠示踪剂。在最简单的情况下,荧光蛋白(FP)与传感蛋白进行基因融合,而传感蛋白在与配体结合时会发生构象变化。这促使发色团环境发生重排,并改变荧光蛋白的光谱特性。成功的生物传感器的结构决定因素只有在配体结合型和无配体型的晶体结构都可用时才会显现出来。这就使得为所需分析物开发新的生物传感器成为一个漫长的试错过程。在当前的研究中,我们对麦芽糖生物传感器的 apo(暗)和 holo(亮)两种形态进行了长达 μs 的全原子分子动力学(MD)模拟。我们进行了详细的氢键占据分析,以揭示配体诱导传感器蛋白质构象变化的机制及其对发色团环境的异构效应。我们发现,区分生物传感器明暗状态的两个强有力的指标是由于系统中氢键动力学和发色团的溶剂可及性发生了重大变化。
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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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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