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本文引用的文献

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LKB1 and AMPK family signaling: the intimate link between cell polarity and energy metabolism.LKB1与AMPK家族信号传导:细胞极性与能量代谢之间的紧密联系。
Physiol Rev. 2009 Jul;89(3):777-98. doi: 10.1152/physrev.00026.2008.
2
Arabidopsis protein kinases GRIK1 and GRIK2 specifically activate SnRK1 by phosphorylating its activation loop.拟南芥蛋白激酶GRIK1和GRIK2通过磷酸化SnRK1的激活环来特异性激活SnRK1。
Plant Physiol. 2009 Jun;150(2):996-1005. doi: 10.1104/pp.108.132787. Epub 2009 Apr 1.
3
SnRK1 (SNF1-related kinase 1) has a central role in sugar and ABA signalling in Arabidopsis thaliana.蔗糖非发酵-1-相关蛋白激酶1(SnRK1)在拟南芥的糖和脱落酸信号传导中起核心作用。
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Reciprocal regulation of the platelet-derived growth factor receptor-beta and G protein-coupled receptor kinase 5 by cross-phosphorylation: effects on catalysis.通过交叉磷酸化对血小板衍生生长因子受体-β和G蛋白偶联受体激酶5进行相互调节:对催化作用的影响
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SNF1/AMPK pathways in yeast.酵母中的SNF1/AMPK信号通路。
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AMP-activated/SNF1 protein kinases: conserved guardians of cellular energy.AMP激活的/SNF1蛋白激酶:细胞能量的保守守护者。
Nat Rev Mol Cell Biol. 2007 Oct;8(10):774-85. doi: 10.1038/nrm2249.
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A central integrator of transcription networks in plant stress and energy signalling.植物应激和能量信号转导中转录网络的核心整合器。
Nature. 2007 Aug 23;448(7156):938-42. doi: 10.1038/nature06069. Epub 2007 Aug 1.
8
DNA sequences from Arabidopsis, which encode protein kinases and function as upstream regulators of Snf1 in yeast.来自拟南芥的DNA序列,其编码蛋白激酶并在酵母中作为Snf1的上游调节因子发挥作用。
J Biol Chem. 2007 Apr 6;282(14):10472-9. doi: 10.1074/jbc.M611244200. Epub 2007 Jan 19.
9
SNF1/AMPK/SnRK1 kinases, global regulators at the heart of energy control?SNF1/AMPK/SnRK1激酶,能量控制核心的全局调节因子?
Trends Plant Sci. 2007 Jan;12(1):20-8. doi: 10.1016/j.tplants.2006.11.005. Epub 2006 Dec 12.
10
Geminivirus infection up-regulates the expression of two Arabidopsis protein kinases related to yeast SNF1- and mammalian AMPK-activating kinases.双生病毒感染上调了拟南芥中两种与酵母SNF1及哺乳动物AMPK激活激酶相关的蛋白激酶的表达。
Plant Physiol. 2006 Dec;142(4):1642-55. doi: 10.1104/pp.106.088476. Epub 2006 Oct 13.

拟南芥蔗糖非发酵 1 相关蛋白激酶 1(AtSnRK1)与其激活激酶(AtSnAK)之间的交叉磷酸化决定了它们的催化活性。

Cross-phosphorylation between Arabidopsis thaliana sucrose nonfermenting 1-related protein kinase 1 (AtSnRK1) and its activating kinase (AtSnAK) determines their catalytic activities.

机构信息

From the Laboratoire de Signalisation et Régulation Métabolique, Institut de Biologie des Plantes, Université Paris-Sud 11, UMR 8618 CNRS, Bâtiment 630, 91405 Orsay Cedex, France.

出版信息

J Biol Chem. 2010 Apr 16;285(16):12071-7. doi: 10.1074/jbc.M109.079194. Epub 2010 Feb 17.

DOI:10.1074/jbc.M109.079194
PMID:20164192
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2852945/
Abstract

Arabidopsis thaliana sucrose nonfermenting 1-related protein kinase 1 complexes belong to the SNF1/AMPK/SnRK1 protein kinase family that shares an ancestral function as central regulators of metabolism. In A. thaliana, the products of AtSnAK1 and AtSnAK2, orthologous to yeast genes, have been shown to autophosphorylate and to phosphorylate/activate the AtSnRK1.1 catalytic subunit on Thr(175). The phosphorylation of these kinases has been investigated by site-directed mutagenesis and tandem mass spectrometry. The autophosphorylation site of AtSnAK2 was identified as Thr(154), and it was shown to be required for AtSnAK catalytic activity. Interestingly, activated AtSnRK1 exerted a negative feedback phosphorylation on AtSnAK2 at Ser(261) (Ser(260) of AtSnAK1) that was dependent on AtSnAK autophosphorylation. The dynamics of these reciprocal phosphorylation events on the different kinases was established, and structural modeling allowed clarification of the topography of the AtSnAK phosphorylation sites. A mechanism is proposed to explain the observed changes in the enzymatic properties of each kinase triggered by these phosphorylation events.

摘要

拟南芥蔗糖非发酵 1 相关蛋白激酶 1 复合物属于 SNF1/AMPK/SnRK1 蛋白激酶家族,该家族具有作为代谢中央调节剂的共同祖先功能。在拟南芥中,酵母基因的同源物 AtSnAK1 和 AtSnAK2 的产物已被证明可以自身磷酸化,并磷酸化/激活 AtSnRK1.1 催化亚基上的 Thr(175)。通过定点突变和串联质谱法研究了这些激酶的磷酸化。鉴定出 AtSnAK2 的自身磷酸化位点为 Thr(154),并且它被证明是 AtSnAK 催化活性所必需的。有趣的是,激活的 AtSnRK1 在 Ser(261)(AtSnAK1 的 Ser(260))上对 AtSnAK2 进行负反馈磷酸化,该磷酸化依赖于 AtSnAK 自身磷酸化。确立了这些不同激酶之间相互磷酸化事件的动力学,并且结构建模澄清了 AtSnAK 磷酸化位点的拓扑结构。提出了一种机制来解释这些磷酸化事件引发的每个激酶的酶学特性的观察到的变化。