Institut de Biologie Structurale, Université Grenoble Alpes , CEA, CNRS, 38044 Grenoble, France.
J Am Chem Soc. 2016 Jan 20;138(2):558-65. doi: 10.1021/jacs.5b09923. Epub 2016 Jan 6.
Photoactivated localization microscopy (PALM) is a powerful technique to investigate cellular nanostructures quantitatively and dynamically. However, the use of PALM for molecular counting or single-particle tracking remains limited by the propensity of photoconvertible fluorescent protein markers (PCFPs) to repeatedly enter dark states. By designing the single mutants mEos2-A69T and Dendra2-T69A, we completely swapped the blinking behaviors of mEos2 and Dendra2, two popular PCFPs. We combined X-ray crystallography and single-molecule microscopy to show that blinking in mEos2 and Dendra2 is largely controlled by the orientation of arginine 66, a highly conserved residue in Anthozoan PCFPs. The Arg66 side-chain conformation affects the bleaching and the on-to-off transition quantum yields, as well as the fraction of molecules entering long-lived dark states, resulting in widely different apparent blinking behaviors that largely modulate the efficiency of current blinking correction procedures. The present work provides mechanistic insight into the complex photophysics of Anthozoan PCFPs and will facilitate future engineering of bright and low-blinking variants suitable for PALM.
光激活定位显微镜 (PALM) 是一种强大的技术,可用于定量和动态研究细胞的纳米结构。然而,光激活定位显微镜用于分子计数或单颗粒跟踪的应用仍然受到光转化荧光蛋白标记物(PCFPs)反复进入暗态的倾向的限制。通过设计单突变体 mEos2-A69T 和 Dendra2-T69A,我们完全改变了两种流行的 PCFPs mEos2 和 Dendra2 的闪烁行为。我们结合 X 射线晶体学和单分子显微镜表明,mEos2 和 Dendra2 的闪烁在很大程度上受精氨酸 66 的取向控制,这是珊瑚 PCFPs 中的一个高度保守残基。Arg66 侧链构象影响漂白和开-关跃迁量子产率,以及进入长寿命暗态的分子分数,导致明显的闪烁行为差异很大,从而极大地调节了当前闪烁校正程序的效率。本工作为珊瑚 PCFPs 的复杂光物理提供了机制上的见解,并将促进未来适合 PALM 的明亮和低闪烁变体的工程设计。
