GCaMP2对钙感知的结构基础。
Structural basis for calcium sensing by GCaMP2.
作者信息
Wang Qi, Shui Bo, Kotlikoff Michael I, Sondermann Holger
机构信息
Department of Molecular Medicine, College of Veterinary Medicine, Cornell University, Ithaca, NY 14853, USA.
出版信息
Structure. 2008 Dec 10;16(12):1817-27. doi: 10.1016/j.str.2008.10.008.
Abstract
Genetically encoded Ca(2+) indicators are important tools that enable the measurement of Ca(2+) dynamics in a physiologically relevant context. GCaMP2, one of the most robust indicators, is a circularly permutated EGFP (cpEGFP)/M13/calmodulin (CaM) fusion protein that has been successfully used for studying Ca(2+) fluxes in vivo in the heart and vasculature of transgenic mice. Here we describe crystal structures of bright and dim states of GCaMP2 that reveal a sophisticated molecular mechanism for Ca(2+) sensing. In the bright state, CaM stabilizes the fluorophore in an ionized state similar to that observed in EGFP. Mutational analysis confirmed critical interactions between the fluorophore and elements of the fused peptides. Solution scattering studies indicate that the Ca(2+)-free form of GCaMP2 is a compact, predocked state, suggesting a molecular basis for the relatively rapid signaling kinetics reported for this indicator. These studies provide a structural basis for the rational design of improved Ca(2+)-sensitive probes.
摘要
基因编码的钙离子指示剂是重要的工具,能够在生理相关背景下测量钙离子动态变化。GCaMP2是最可靠的指示剂之一,是一种环状排列的增强型绿色荧光蛋白(cpEGFP)/M13/钙调蛋白(CaM)融合蛋白,已成功用于研究转基因小鼠心脏和血管中的钙离子通量。在此,我们描述了GCaMP2亮态和暗态的晶体结构,揭示了一种复杂的钙离子传感分子机制。在亮态下,CaM将荧光团稳定在类似于EGFP中观察到的离子化状态。突变分析证实了荧光团与融合肽元件之间的关键相互作用。溶液散射研究表明,GCaMP2的无钙形式是一种紧凑的预对接状态,为该指示剂报道的相对快速的信号动力学提供了分子基础。这些研究为合理设计改进的钙离子敏感探针提供了结构基础。
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