重组产气荚膜梭菌α毒素的电喷雾质谱鉴定及序列测定。

Hitoshi Saito, Masaharu Inoue, Masayoshi Tomiki, Hiroshi Nemoto, Tomoe Komoriya, Junko Kimata, Kunitomo Watanabe, Hideki Kohno
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引用次数: 0

摘要

目前对临床和生物样品中α -毒素进行简单、灵敏、快速检测的方法不多。我们研究的目的是建立一个程序,以生产抗体的重组抗原与确认的序列同一性。我们采用了一种基于蛋白质组学的高贵方法,使用质谱仪对重组α毒素进行决定性鉴定,该重组α毒素随后被用作抗原。在大肠杆菌中产生了重组α毒素。采用聚合酶链反应(PCR)扩增了产气荚膜梭菌GAI 94074临床分离株,并进行了克隆。使用pET100/D-TOPO载体克隆了三个不同的片段。这些片段分别编码核糖体结合位点、信号肽和α -毒素基因。将重组pET100质粒克隆到TOP 10细胞中,并将重组pET100质粒转入BL21 Star (DE3)细胞。然后用异丙基- β - d -硫代半乳糖苷(IPTG)诱导其表达。用编码α -毒素基因的质粒单独转化重组大肠杆菌,产生一种生物无活性的蛋白质。另一方面,大肠杆菌携带编码毒素序列及其天然信号肽序列的质粒,或毒素序列以及核糖体结合序列和信号肽序列的质粒,分泌出具有磷脂酶活性的α -毒素。因此,产气荚膜荚膜杆菌编码α -毒素蛋白及其信号肽的基因被成功克隆、表达并在大肠杆菌中分泌。此外,在不考虑其活性的情况下,我们使用质谱法证实表达的蛋白确实是α -毒素。因此,利用生物活性测试和质谱分析对α毒素蛋白进行鉴定有望验证产气荚膜荚膜杆菌抗体的显著生产。利用ESI/MS分析重组α毒素的研究尚未见报道。本文报道了产气荚膜荚膜杆菌α毒素的克隆、表达、分泌、鉴定和序列测定。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Identification and sequence determination of recombinant Clostridium perfringens alpha-toxin by use of electrospray ionization mass spectrometry.

Only a few methods exist for simple, sensitive and rapid detection of alpha-toxin in clinical and biological samples. The aim of our study was to establish a procedure for the production of an antibody against a recombinant antigen with confirmed sequence identity. We applied a noble approach based on proteomics using a mass spectrometer for the conclusive identification of the recombinant alpha-toxin that was subsequently used as an antigen. The recombinant alpha-toxin was produced in Escherichia coli. A clinical isolate of Clostridium perfringens GAI 94074 was amplified by polymerase chain reaction (PCR) and subsequently, cloning was performed. Three different fragments were cloned using a pET100/D-TOPO vector. These fragments coded for a ribosome binding site, a signal peptide and the alpha-toxin gene, respectively. Recombinant pET100 plasmids were cloned into TOP 10 cells and the isolated plasmids were transferred into BL21 Star (DE3) cells. Their expression was then induced with isopropyl-beta-D-thiogalactopyranoside (IPTG). Recombinant E. coli transformed with a plasmid encoding the alpha-toxin gene alone produced a biologically inactive protein. On the other hand, E. coli carrying the plasmid encoding the toxin sequence and its native signal peptide sequence, or the toxin sequence along with the ribosome binding sequence and the signal peptide sequence secreted an active alpha-toxin with phospholipase activity. Accordingly, the C. perfringens gene encoding the alpha-toxin protein along with its signal peptide was successfully cloned, expressed, and secreted by E. coli. Furthermore, without consideration of its activity, we used mass spectrometry to confirm that the expressed protein was indeed the alpha-toxin. Thus, the identification of alpha-toxin protein using both the biological activity testing and the mass spectrometry analysis is expected to verify the significant production of C. perfringens antibody. The study for the analysis of recombinant alpha-toxin using ESI/MS has not been reported. In this study, we report the successful cloning, expression, secretion, identification and sequence determination of the C. perfringens alpha-toxin.

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