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Crystal Structure of the Redox-Active Cofactor DBMIB Bound to Circadian Clock Protein KaiA and Structural Basis for DBMIB’s Ability to Prevent Stimulation of KaiC Phosphorylation by KaiA

机译：氧化还原活性辅因子DBmIB的晶体结构绑定到生物钟蛋白KaIa和结构基础的DBmIB的能力KaiC磷酸化的防止刺激而KaIa

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摘要

KaiA protein that stimulates KaiC phosphorylation in the cyanobacterial circadian clock was recently shown to be destabilized by dibromothymoquinone (DBMIB), thus revealing KaiA as a sensor of the plastoquinone (PQ) redox state and suggesting an indirect control of the clock by light through PQ redox changes. Here we show using X-ray crystallography that several DBMIBs are bound to KaiA dimer. Some binding modes are consistent with oligomerization of N-terminal KaiA pseudoreceiver domains and/or reduced inter-domain flexibility. DBMIB bound to the C-terminal KaiA (C-KaiA) domain and limited stimulation of KaiC kinase activity by C-KaiA in the presence of DBMIB demonstrate that the cofactor may weakly inhibit KaiA-KaiC binding.

机译：最近发现，刺激蓝藻生物钟中的KaiC磷酸化的KaiA蛋白被二溴胸腺醌（DBMIB）破坏了稳定性，因此揭示了KaiA作为质体醌（PQ）氧化还原状态的传感器，并暗示了通过PQ氧化还原对光进行间接控制。变化。在这里，我们使用X射线晶体学显示，几个DBMIB与KaiA二聚体结合。某些结合模式与N末端KaiA假受体域的低聚和/或域间柔性降低有关。 DBMIB绑定到C末端KaiA（C-KaiA）域和在DBMIB存在下C-KaiA对KaiC激酶活性的有限刺激表明，辅因子可能弱抑制KaiA-KaiC结合。

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Rekha Pattanayek; Said K. Sidiqi; Martin Egli;
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年(卷),期 -1(51),41
年度 -1
页码 8050–8052
总页数 8
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1. Crystal structure of the redox-active cofactor dibromothymoquinone bound to circadian clock protein kaia and structural basis for dibromothymoquinone" s ability to prevent stimulation of kaic phosphorylation by kaia [J] . Pattanayek R., Sidiqi S.K., Egli M. Biochemistry . 2012,第41期

机译：氧化还原活性辅因子二溴喹啉的晶体结构与昼夜节日蛋白Kaia结合，对Dibromothymo喹啉的结构基础，防止Kaia刺激KAIC磷酸化
2. NMR structure of the KaiC-interacting C-terminal domain of KaiA, a circadian clock protein: Implications for KaiA-KaiC interaction [J] . Ioannis Vakonakis, Jingchuan Sun, Tianfu Wu, Proceedings of the National Academy of Sciences of the United States of America . 2004,第6期

机译：昼夜节律时钟蛋白KaiA的KaiC相互作用C末端结构域的NMR结构：KaiA-KaiC相互作用的含义
3. Loop-loop interactions regulate KaiA-stimulated KaiC phosphorylation in the cyanobacterial KaiABC circadian clock [J] . Egli M., Pattanayek R., Sheehan J.H., Biochemistry . 2013,第7期

机译：环-环相互作用调节蓝细菌KaiABC昼夜节律中的KaiA刺激的KaiC磷酸化。
4. Analysis of the residue variation of the circadian clock protein KaiA [C] . Sen Liu, Weiqun Chen 2012 7th International Conference on Computing and Convergence Technology . 2012

机译：昼夜节律蛋白KaiA的残基变异分析
5. Structure and dynamics of ribonucleoproteins by X-ray crystallography and NMR: Structural basis of Piwi PAZ domain binding preference for 2'-O-methylated 3' terminal ssRNAs. [D] . Tjhen, Richard June. 2010

机译：通过X射线晶体学和NMR分析核糖核蛋白的结构和动力学：Piwi PAZ域对2'-O-甲基化3'端ssRNA的结合偏好的结构基础。
6. NMR structure of the KaiC-interacting C-terminal domain of KaiA a circadian clock protein: Implications for KaiA–KaiC interaction [O] . Ioannis Vakonakis, Jingchuan Sun, Tianfu Wu, 2004

机译：昼夜节律蛋白KaiA的KaiC相互作用C末端结构域的NMR结构：KaiA–KaiC相互作用的含义
7. Crystal Structure of the Redox-Active Cofactor Dibromothymoquinone Bound to Circadian Clock Protein KaiA and Structural Basis for Dibromothymoquinone’s Ability to Prevent Stimulation of KaiC Phosphorylation by KaiA [O] . Rekha Pattanayek, Said K. Sidiqi, Martin Egli 2012

机译：氧化还原活性辅因子二溴喹啉的晶体结构与昼夜节日蛋白kaia结合，以及Dibromothymonone防止Kaia刺激KAIC磷酸化能力的结构基础

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