耐热短芽孢杆菌WR-249 Lon蛋白酶基因的鉴定及其耐热性重组酶的生化特性研究。

Alan Y-L Lee, San-San Tsay, Mao-Yen Chen, Shih-Hsiung Wu
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引用次数: 22

摘要

克隆并鉴定了耐热短芽孢杆菌WR-249的耐热性蛋白酶基因。Br。thermoruber Lon基因(Bt-lon)编码一个88 kDa的蛋白,其特征是n端结构域,一个中心atp酶结构域,包括一个SSD(传感器和底物识别)结构域和一个c端蛋白酶结构域。Bt-lon是一种热诱导基因,可以在假定的枯草芽孢杆菌sigmaa依赖性启动子下控制,但在没有CIRCE(控制伴侣蛋白表达的反向重复)的情况下。在大肠杆菌中表达了Bt-lon,并纯化了其蛋白产物。天然重组Br。热克隆蛋白酶(Bt-Lon)呈六聚体结构。Bt-Lon的atp酶活性的最佳温度为70℃,肽酶和dna结合活性的最佳温度为50℃,这表明Lon蛋白酶在嗜热细菌中的功能可能根据温度的变化而改变,以调节它们的生理需要。在ATP的存在下,Bt-Lon的肽酶活性显著增加。此外,在使用荧光肽作为底物时,Bt-Lon与大肠杆菌Lon的底物特异性不同。值得注意的是,Bt-Lon蛋白通过以剂量依赖和atp不依赖的方式阻止变性胰岛素b链的聚集,显示出伴侣蛋白样活性。在热变性实验中,发现Bt-Lon具有71.5℃的热稳定性指标,与中亲性Lon蛋白酶的序列比较表明,Bt-Lon在与热稳定性相关的刚性、静电相互作用和氢键方面存在差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Identification of a gene encoding Lon protease from Brevibacillus thermoruber WR-249 and biochemical characterization of its thermostable recombinant enzyme.

A gene encoding thermostable Lon protease from Brevibacillus thermoruber WR-249 was cloned and characterized. The Br. thermoruber Lon gene (Bt-lon) encodes an 88 kDa protein characterized by an N-terminal domain, a central ATPase domain which includes an SSD (sensor- and substrate-discrimination) domain, and a C-terminal protease domain. The Bt-lon is a heat-inducible gene and may be controlled under a putative Bacillus subtilis sigmaA-dependent promoter, but in the absence of CIRCE (controlling inverted repeat of chaperone expression). Bt-lon was expressed in Escherichia coli, and its protein product was purified. The native recombinant Br. thermoruber Lon protease (Bt-Lon) displayed a hexameric structure. The optimal temperature of ATPase activity for Bt-Lon was 70 degrees C, and the optimal temperature of peptidase and DNA-binding activities was 50 degrees C. This implies that the functions of Lon protease in thermophilic bacteria may be switched, depending on temperature, to regulate their physiological needs. The peptidase activity of Bt-Lon increases substantially in the presence of ATP. Furthermore, the substrate specificity of Bt-Lon is different from that of E. coli Lon in using fluorogenic peptides as substrates. Notably, the Bt-Lon protein shows chaperone-like activity by preventing aggregation of denatured insulin B-chain in a dose-dependent and ATP-independent manner. In thermal denaturation experiments, Bt-Lon was found to display an indicator of thermostability value, Tm of 71.5 degrees C. Sequence comparison with mesophilic Lon proteases shows differences in the rigidity, electrostatic interactions, and hydrogen bonding of Bt-Lon relevant to thermostability.

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