Crystal structure and functional implications of the tandem-type universal stress protein UspE from Escherichia coli

IF 2.222 Q3 Biochemistry, Genetics and Molecular Biology BMC Structural Biology Pub Date : 2016-02-11 DOI:10.1186/s12900-016-0053-9
Yongbin Xu, Jianyun Guo, Xiaoling Jin, Jin-Sik Kim, Ying Ji, Shengdi Fan, Nam-Chul Ha, Chun-Shan Quan
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引用次数: 7

Abstract

The universal stress proteins (USP) family member UspE is a tandem-type USP that consists of two Usp domains. The UspE expression levels of the Escherichia coli (E. coli) become elevated in response to oxidative stress and DNA damaging agents, including exposure to mitomycin C, cadmium, and hydrogen peroxide. It has been shown that UspA family members are survival factors during cellular growth arrest. The structures and functions of the UspA family members control the growth of E. coli in animal hosts. While several UspA family members have known structures, the structure of E. coli UspE remains to be elucidated.

To understand the biochemical function of UspE, we have determined the crystal structure of E. coli UspE at 3.2?? resolution. The asymmetric unit contains two protomers related by a non-crystallographic symmetry, and each protomer contains two tandem Usp domains. The crystal structure shows that UspE is folded into a fan-shaped structure similar to that of the tandem-type Usp protein PMI1202 from Proteus mirabilis, and it has a hydrophobic cavity that binds its ligand. Structural analysis revealed that E. coli UspE has two metal ion binding sites, and isothermal titration calorimetry suggested the presence of two Cd2+ binding sites with a Kd value of 38.3–242.7?μM. Structural analysis suggested that E. coli UspE has two Cd2+ binding sites (Site I: His117, His 119; Site II: His193, His244).

The results show that the UspE structure has a hydrophobic pocket. This pocket is strongly bound to an unidentified ligand. Combined with a previous study, the ligand is probably related to an intermediate in lipid A biosynthesis. Subsequently, sequence analysis found that UspE has an ATP binding motif (Gly269- X2-Gly272-X9-Gly282-Asn) in its C-terminal domain, which was confirmed by in vitro ATPase activity monitored using Kinase-Glo? Luminescent Kinase Assay. However, the residues constituting this motif were disordered in the crystal structure, reflecting their intrinsic flexibility. ITC experiments revealed that the UspE probably has two Cd2+ binding sites. The His117, His 119, His193, and His244 residues within the β-barrel domain are necessary for Cd2+ binding to UspE protein. As mentioned above, USPs are associated with several functions, such as cadmium binding, ATPase function, and involvement in lipid A biosynthesis by some unknown way.

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大肠杆菌串联型通用应激蛋白UspE的晶体结构及其功能意义
通用应激蛋白(USP)家族成员UspE是由两个USP结构域组成的串联型USP。大肠杆菌的UspE表达水平在氧化应激和DNA损伤剂(包括暴露于丝裂霉素C、镉和过氧化氢)的作用下升高。已有研究表明,UspA家族成员是细胞生长停滞期间的生存因素。UspA家族成员的结构和功能控制着大肠杆菌在动物宿主中的生长。虽然几个UspA家族成员的结构已知,但大肠杆菌UspE的结构仍有待阐明。为了了解UspE的生化功能,我们测定了大肠杆菌UspE在3.2℃时的晶体结构。决议。非对称单元包含两个非晶体对称的原聚体,每个原聚体包含两个串联的Usp结构域。晶体结构显示,UspE折叠成类似于神奇变形杆菌串联型Usp蛋白PMI1202的扇形结构,并具有与配体结合的疏水空腔。结构分析表明,大肠杆菌UspE具有两个金属离子结合位点,等温滴定量热法显示存在两个Cd2+结合位点,Kd值为38.3 ~ 242.7 μM。结构分析表明,大肠杆菌UspE具有两个Cd2+结合位点(位点1:His117, His 119;站点II: His193, His244)。结果表明,UspE结构具有疏水袋。这个口袋与一个未知的配体紧密结合。结合先前的研究,该配体可能与脂质a生物合成的中间体有关。随后,序列分析发现UspE在其c端结构域具有ATP结合基序(Gly269- X2-Gly272-X9-Gly282-Asn),这通过使用激酶- glo ?发光激酶试验。然而,构成该基序的残基在晶体结构上是无序的,反映了它们固有的灵活性。ITC实验表明,UspE可能有两个Cd2+结合位点。β-桶结构域内的His117、his119、His193和His244残基是Cd2+与UspE蛋白结合所必需的。如上所述,USPs与几种功能有关,如镉结合,atp酶功能,并以某种未知的方式参与脂质A的生物合成。
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来源期刊
BMC Structural Biology
BMC Structural Biology 生物-生物物理
CiteScore
3.60
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期刊介绍: BMC Structural Biology is an open access, peer-reviewed journal that considers articles on investigations into the structure of biological macromolecules, including solving structures, structural and functional analyses, and computational modeling.
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