Suppr超能文献

通过非别构的dTTP与大肠杆菌dCTP脱氨酶的无活性形式结合来对其进行调控。

Regulation of dCTP deaminase from Escherichia coli by nonallosteric dTTP binding to an inactive form of the enzyme.

作者信息

Johansson Eva, Thymark Majbritt, Bynck Julie H, Fanø Mathias, Larsen Sine, Willemoës Martin

机构信息

Centre for Crystallographic Studies, Department of Chemistry, University of Copenhagen, Denmark.

出版信息

FEBS J. 2007 Aug;274(16):4188-98. doi: 10.1111/j.1742-4658.2007.05945.x. Epub 2007 Jul 25.

Abstract

The trimeric dCTP deaminase produces dUTP that is hydrolysed to dUMP by the structurally closely related dUTPase. This pathway provides 70-80% of the total dUMP as a precursor for dTTP. Accordingly, dCTP deaminase is regulated by dTTP, which increases the substrate concentration for half-maximal activity and the cooperativity of dCTP saturation. Likewise, increasing concentrations of dCTP increase the cooperativity of dTTP inhibition. Previous structural studies showed that the complexes of inactive mutant protein, E138A, with dUTP or dCTP bound, and wild-type enzyme with dUTP bound were all highly similar and characterized by having an ordered C-terminal. When comparing with a new structure in which dTTP is bound to the active site of E138A, the region between Val120 and His125 was found to be in a new conformation. This and the previous conformation were mutually exclusive within the trimer. Also, the dCTP complex of the inactive H121A was found to have residues 120-125 in this new conformation, indicating that it renders the enzyme inactive. The C-terminal fold was found to be disordered for both new complexes. We suggest that the cooperative kinetics are imposed by a dTTP-dependent lag of product formation observed in presteady-state kinetics. This lag may be derived from a slow equilibration between an inactive and an active conformation of dCTP deaminase represented by the dTTP complex and the dUTP/dCTP complex, respectively. The dCTP deaminase then resembles a simple concerted system subjected to effector binding, but without the use of an allosteric site.

摘要

三聚体dCTP脱氨酶产生dUTP,后者被结构密切相关的dUTPase水解为dUMP。该途径提供了总量70 - 80%的dUMP作为dTTP的前体。因此,dCTP脱氨酶受dTTP调控,dTTP可增加达到半数最大活性时的底物浓度以及dCTP饱和的协同性。同样,dCTP浓度增加会增强dTTP抑制的协同性。先前的结构研究表明,无活性突变蛋白E138A与结合的dUTP或dCTP形成的复合物,以及结合dUTP的野生型酶,都高度相似,其特征是具有一个有序的C末端。当与dTTP结合到E138A活性位点的新结构进行比较时,发现Val120和His125之间的区域处于新的构象。这种构象与之前的构象在三聚体内相互排斥。此外,发现无活性的H121A的dCTP复合物在这个新构象中具有120 - 125位残基,这表明它使酶失去活性。发现这两种新复合物的C末端折叠都是无序的。我们认为,协同动力学是由在稳态前动力学中观察到的dTTP依赖的产物形成滞后所导致的。这种滞后可能源于分别由dTTP复合物和dUTP/dCTP复合物所代表的dCTP脱氨酶的无活性和活性构象之间的缓慢平衡。然后,dCTP脱氨酶类似于一个简单的协同系统,受到效应物结合的影响,但不使用别构位点。

文献AI研究员

20分钟写一篇综述,助力文献阅读效率提升50倍。

立即体验

用中文搜PubMed

大模型驱动的PubMed中文搜索引擎

马上搜索

文档翻译

学术文献翻译模型,支持多种主流文档格式。

立即体验