pH Sensitivity of the GTPase Toc33 as a Regulatory Circuit for Protein Translocation into Chloroplasts

Tihana Bionda13 Patrick Koenig23 Mislav Oreb1 Ivo Tews2 and Enrico Schleiff1*

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pH Sensitivity of the GTPase Toc33 as a Regulatory Circuit for Protein Translocation into Chloroplasts

机译：GTPase Toc33的pH敏感性作为蛋白质易位进入叶绿体的调节电路

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The properties of membrane-embedded GTPases are investigated to understand translocation of preprotein across the outer envelope of chloroplasts. The homo- and heterodimerization events of the GTPases had been established previously. We show that the hydrolytic activity of the GTPase Toc33 is pH insensitive in the homodimeric conformation but has a bell-shaped pH optimum in the monomeric conformation. Further, Toc33 GTPase homodimerization and protein translocation into chloroplasts are pH sensitive as well. pH sensitivity might serve to regulate translocation; alternatively, the documented pH sensitivity might reflect a mechanistic requirement for GTPase silencing during translocation as the GTPase switches between homo- and heterodimeric conformations.

机译：膜嵌入式GTPases的特性进行了研究，以了解前蛋白在叶绿体外膜上的转运。 GTPases的同源二聚和异源二聚化事件先前已经确定。我们表明，GTPase Toc33的水解活性在同型二聚体构型中对pH不敏感，但在单体构型中具有最佳的钟形pH。此外，Toc33 GTPase均二聚和蛋白质易位到叶绿体中也是对pH敏感的。 pH敏感性可能用于调节易位；或者，已记录的pH敏感性可能反映了在GTPase在同二聚体和异二聚体构象之间切换时，GTPase沉默的机制要求。

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《Plant and Cell Physiology》 |2008年第12期|p.1917-1921|共5页
作者
Tihana Bionda13 Patrick Koenig23 Mislav Oreb1 Ivo Tews2 and Enrico Schleiff1*;
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1JWGU Frankfurt am Main, Cluster of Excellence Macromolecular Complexes, Center of Membrane Proteomics, Department of Biosciences, Molecular Cell Biology, Max-von-Laue Str. 9, D-60439 Frankfurt, Germany 2Heidelberg University Biochemistry Centre, Im Neuenheimer Feld 328, D-69120 Heidelberg, Germany;

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1. pH Sensitivity of the GTPase Toc33 as a Regulatory Circuit for Protein Translocation into Chloroplasts [J] . Bionda Tihana, Koenig Patrick, Oreb Mislav, Plant and cell physiology . 2008,第12期

机译：GTPase Toc33的pH敏感性作为蛋白质易位进入叶绿体的调节电路
2. Nucleotides and Substrates Trigger the Dynamics of the Toc34 GTPase Homodimer Involved in Chloroplast Preprotein Translocation [J] . Christina Lumme, Hasret Altan-Martin, Reza Dastvan, Structure . 2014,第4期

机译：核苷酸和底物触发参与叶绿体前蛋白移位的Toc34 GTPase Homodimer的动力学。
3. Enzymatic product formation impairs both the chloroplast receptor-binding function as well as translocation competence of the NADPH: protochlorophyllide oxidoreductase, a nuclear-encoded plastid precursor protein. [J] . S Reinbothe, C Reinbothe, S Runge, Journal of cell biology . 1995,第2期

机译：酶产物的形成会损害叶绿体受体的结合功能以及NADPH的转运能力：原叶绿素氧化还原酶，一种核编码的质体前体蛋白。
4. INVOLVEMENT OF A TYPE I SIGNAL PEPTIDASE IN BIOGENESIS OF CHLOROPLASTS-TOWARDS IDENTIFICATION OF THE ENZYME FOR MATURATION OF THE CHLOROPLAST PROTEIN TRANSLOCATION CHANNEL [C] . Kentaro Inoue, Daniel Potter, Rebecca L. Shipman, International Congress of Photosynthesis . 2005

机译：I型信号肽酶参与叶绿体生物发生 - 朝向叶绿体蛋白易位通道成熟的酶
5. Characterization of the interaction between Arabidopsis Toc159 and Toc33 GTPase domains. [D] . Farquharson, Wesley A. 2010

机译：拟南芥Toc159和Toc33 GTPase域之间相互作用的表征。
6. To die or not to die: Regulatory feedback phosphorylation circuits determine receptor-interacting protein kinase-1 (RIPK1) function [O] . Manoj B. Menon, Julia Gropengießer, Klaus Ruckdeschel, 2018

机译：死还是不死：调节反馈磷酸化电路决定受体相互作用蛋白激酶1（RIPK1）的功能
7. Nucleotides and Substrates Trigger the Dynamics of the Toc34 GTPase Homodimer Involved in Chloroplast Preprotein Translocation [O] . Lumme Christina, Altan-Martin Hasret, Dastvan Reza, 2014

机译：核苷酸和底物触发参与叶绿体前蛋白移位的Toc34 GTPase Homodimer的动力学。

pH Sensitivity of the GTPase Toc33 as a Regulatory Circuit for Protein Translocation into Chloroplasts

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