含有SARS-COV-2冠状病毒N、S、M、E蛋白序列抗原的结构和菌株产生者大肠杆菌的培养

V. V. Kopat, Anastasia Andreevna Riabchenkova, E. Chirak, E. L. Chirak, Anna Igorevna Saenko, N. Kolmakov, I. Dukhovlinov, A. Simbirtsev, A. Totolian
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The sequence was synthesized and cloned into the pET24a(+) vector. The resulting plasmid pCorD_PS was transformed intoE. coliDH5, then into Rosetta (DE3). The strain-producer of the recombinantE. coliprotein CorD_PS was checked for the presence and stability of the expression of the antigen protein by IPTG induction, and the elimination of the plasmid encoding the synthesis of the recombinant coronavirus antigen was also evaluated. \nResults. As the result of the research an antigen has been developed that includes conserved regions of the S, M, N, E proteins of the SARS-CoV-2 coronavirus, to which a T-cell immune response can form. For a 53 kDa protein, stability in aqueous solutions and an isoelectric point of 9.56 are predicted, which will potentially simplify the process of protein purification fromE. colicells. Plasmid DNA pCorD_PS (6695 bp) encoding synthesized recombinant coronavirus antigen cloned into pET24a(+) vector was obtained. \nConclusion. 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引用次数: 0

摘要

介绍。t细胞免疫反应在保护人体免受许多病毒感染方面起着重要作用。众所周知,它可以提供病毒清除和体液免疫缺陷患者完全恢复。在COVID-19患者中,t细胞反应主要针对SARS-CoV-2的结构S、M、N、E蛋白,其中核衣壳蛋白最为保守。为了评估患者对冠状病毒感染的免疫力和评估候选疫苗的有效性,有必要开发一种最佳的诊断抗原,用于评估针对SARS-CoV-2抗原决定因素的t细胞应答的形成。用于确定生物体对SARS-CoV-2感染的特定易感性的诊断测试应针对SARS-CoV-2全球变体的保守区域。的目标。开发含有SARS-CoV-2冠状病毒结构蛋白保守序列和免疫原性序列的抗原结构,并获得重组蛋白生产者大肠杆菌菌株,用于随后将该蛋白用作评估t细胞抗病毒免疫的抗原。材料和方法。抗原的形成是在计算机上进行的:TepiTool和NetMHCIIpan用于预测和鉴定跨越SARS-CoV-2 E、M、N、S蛋白并结合MHCII的高亲和力表位。构建了几种重组抗原蛋白的变体,根据其物理化学性质:等电点、疏水性指数和脂肪族指数,从中选择一种,并使用I-TASSER建立了三维表示。合成该序列并克隆到pET24a(+)载体上。将得到的质粒pCorD_PS转化为toe。coliDH5,然后进入罗塞塔(DE3)。重组菌株的产生者。采用IPTG诱导法检测大肠杆菌CorD_PS抗原蛋白的存在和表达的稳定性,并对编码重组冠状病毒抗原合成的质粒的消除进行评价。结果。这一研究成果开发出了包含SARS-CoV-2的S、M、N、E蛋白保守区域的抗原,可以形成t细胞免疫反应。对于一个53 kDa的蛋白质,预测其在水溶液中的稳定性和等电点为9.56,这将有可能简化从me中纯化蛋白质的过程。colicells。将编码合成重组冠状病毒抗原的质粒pCorD_PS (6695 bp)克隆到pET24a(+)载体上。结论。一种稳定的高产菌株。获取coliCorD_PS。获得的重组菌株的产生者。coliCorD_PS抗原是稳定的,这使得继续开发抗原纯化技术和随后开发诊断测试系统成为可能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of a structure and strain-producer E. coli of an antigen containing sequences of N, S, M, E proteins of the SARS-COV-2 coronavirus
Introduction. T-cell immune response is important in protecting the human body from many viral infections. It is known that it can provide viral clearance and complete recovery in patients with humoral immunodeficiency. In patients with COVID-19, the T-cell response is mainly directed to the structural S, M, N, E proteins of SARS-CoV-2, of which the nucleocapsid protein is the most conservative. To assess the immunity of patients against coronavirus infection and evaluate the effectiveness of vaccine candidates, it is necessary to develop an optimal diagnostic antigen used to assess the formation of a T-cell response against antigenic determinants of SARS-CoV-2. A diagnostic test to determine the specific susceptibility of an organism to SARS-CoV-2 infection should target conserved regions of SARS-CoV-2 global variants. The aim. To develop a structure of an antigen containing conservative and immunogenic sequences of structural proteins of the SARS-CoV-2 coronavirus, and obtaining a strain - Escherichia coli - a producer of a recombinant protein for subsequent use of the protein as an antigen for assessing T-cell antiviral immunity. Materials and methods. Developing of the antigen was performedin silico: TepiTool and NetMHCIIpan were used to predict and identify high affinity epitopes spanning SARS-CoV-2 E, M, N, S proteins and binding MHC II. Several variants of recombinant antigen proteins were constructed, from which one was selected based on its physicochemical properties: isoelectric point, hydrophobicity index and aliphatic index, and a 3D representation built using the I-TASSER. The sequence was synthesized and cloned into the pET24a(+) vector. The resulting plasmid pCorD_PS was transformed intoE. coliDH5, then into Rosetta (DE3). The strain-producer of the recombinantE. coliprotein CorD_PS was checked for the presence and stability of the expression of the antigen protein by IPTG induction, and the elimination of the plasmid encoding the synthesis of the recombinant coronavirus antigen was also evaluated. Results. As the result of the research an antigen has been developed that includes conserved regions of the S, M, N, E proteins of the SARS-CoV-2 coronavirus, to which a T-cell immune response can form. For a 53 kDa protein, stability in aqueous solutions and an isoelectric point of 9.56 are predicted, which will potentially simplify the process of protein purification fromE. colicells. Plasmid DNA pCorD_PS (6695 bp) encoding synthesized recombinant coronavirus antigen cloned into pET24a(+) vector was obtained. Conclusion. A stable, productive producing strain ofE. coliCorD_PS was obtained.The obtained strain-producer of the recombinantE. coliCorD_PS antigen is stable, which makes it possible to move on to the creation of an antigen purification technique and the subsequent development of a diagnostic test system.
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