QadirVax-19:一种基于多表位的COVID-19疫苗

Misha Mukhtar, M. Qadir
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摘要

由新型病毒sars -冠状病毒2 (SARS-CoV-2)引起的COVID-19疫情已成为一项需要立即应对的全球性挑战。它具有很高的传播率,疾病的严重程度因人而异。研究人员正在努力寻找有效的疫苗和治疗靶点来控制这种新型冠状病毒。在本研究中,表面糖蛋白被用来鉴定具有强免疫原性的B细胞和T细胞表位。从7种相关的人冠状病毒中鉴定出表面糖蛋白高度保守区。利用免疫信息学工具预测表位及其显著特征。将具有高结合能的表位通过连接体连接在一起,形成基于表位的亚单位疫苗结构。通过MOE进行分子对接,预测构建物与B细胞受体、MHC I类和MHC II类受体的结合能。最终得到的多表位构建序列为LQYGSFCTQLNRGPGPGTFGAGAALQGPGPGNFTTAPAICGPGPGHWFVTQRNFAAYQYIKWPWYI。它被命名为QadirVax-19。多表位结构具有高抗原性,具有蛋白酶体切割位点和全群体覆盖。获得了最高的结合能,表明该构建体能够对SARS-CoV-2的结构糖蛋白产生更强的体液和免疫应答。结果表明,该构建体在大肠杆菌中稳定表达。我们的研究表明,反向疫苗学方法提供了抗原表位的免疫原性特征,这有助于我们设计针对sars冠状病毒2的亚单位疫苗。
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QadirVax-19: A Multi Epitope-Based Vaccine against COVID-19
An outbreak of COVID-19, caused by a novel virus named SARS-corona virus 2 (SARS-CoV-2), has become a global challenge which needs to be addressed immediately. It has high rate of transmission and severity of the disease varying from person to person. Researchers are trying to find effective vaccines and therapeutic targets to control this novel type of coronavirus. In the present study, surface glycoprotein was used to identify B cell and T cell epitopes that have strong immunogenic potential. Highly conserved region of the surface glycoprotein was identified from seven related human coronaviruses. Epitopes and their prominent features were predicted by using immunoinformatics tools. Epitopes which have high binding energy were joined together through linker to form an epitope-based subunit vaccine construct. Molecular docking was performed by MOE to predict the binding energies of construct with B cell receptor, MHC Class I and MHC Class II receptors. The sequence of the multi-epitope construct finally came out as LQYGSFCTQLNRGPGPGTFGAGAALQGPGPGNFTTAPAICGPGPGHWFVTQRNFAAYQYIKWPWYI. It was named as QadirVax-19. Multi-epitope construct was highly antigenic along with proteasomal cleavage sites and full population coverage. The highest binding energies were obtained which shows that the construct has the ability to produce stronger humoral and immune response against structural glycoproteins of SARS-CoV-2. In-silico cloning of the construct revealed its stable expression in E. coli. Our study suggests that reverse vaccinology approaches give the immunogenic profile of the epitopes which helped us in designing the subunit vaccine against the SARS-corona virus 2.
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来源期刊
Kuwait Journal of Science & Engineering
Kuwait Journal of Science & Engineering MULTIDISCIPLINARY SCIENCES-
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