荧光蛋白EosFP光诱导蛋白裂解及绿色到红色转换的结构基础
Structural basis for photo-induced protein cleavage and green-to-red conversion of fluorescent protein EosFP.
作者信息
Nienhaus Karin, Nienhaus G Ulrich, Wiedenmann Jörg, Nar Herbert
机构信息
Department of Biophysics and General Zoology, University of Ulm, Albert-Einstein-Allee 11, D-89081 Ulm, Germany.
出版信息
Proc Natl Acad Sci U S A. 2005 Jun 28;102(26):9156-9. doi: 10.1073/pnas.0501874102. Epub 2005 Jun 17.
Abstract
Genetically encoded fusion constructs derived from fluorescent proteins (FPs) can be designed to report on a multitude of events and signals in cells, tissues, and entire organs without interfering with the complex machinery of life. EosFP is a novel FP from the scleractinian coral Lobophyllia hemprichii that switches its fluorescence emission from green (516 nm) to red (581 nm) upon irradiation with approximately 400-nm light. This property enables localized tagging of proteins and thus provides a valuable tool for tracking protein movements within live cells. Here, we present the x-ray structures of the green and red forms of WT EosFP. They reveal that formation of the red chromophore is associated with cleavage of the peptide backbone, with surprisingly little change elsewhere in the structure, and provide insights into the mechanism that generates this interesting posttranslational polypeptide modification.
摘要
源自荧光蛋白(FPs)的基因编码融合构建体可被设计用于报告细胞、组织和整个器官中的多种事件和信号,而不会干扰生命的复杂机制。EosFP是一种来自石珊瑚赫氏叶状珊瑚(Lobophyllia hemprichii)的新型荧光蛋白,在用约400纳米的光照射时,其荧光发射会从绿色(516纳米)切换为红色(581纳米)。这一特性能够对蛋白质进行局部标记,从而为追踪活细胞内蛋白质的移动提供了一个有价值的工具。在此,我们展示了野生型EosFP绿色和红色形式的X射线结构。这些结构揭示,红色发色团的形成与肽主链的切割有关,而结构其他部位的变化出奇地小,并为产生这种有趣的翻译后多肽修饰的机制提供了见解。
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