SARS-CoV-2流行病毒株突变导致的多样性可能会延迟COVID-19的控制

Q3 Agricultural and Biological Sciences Journal of Applied Biology and Biotechnology Pub Date : 2022-02-15 DOI:10.7324/jabb.2022.100223
Patil Sharanagouda S., S. Chandan, Dharmashekar Chandan, P. Sushma., Suresh Kuralayanapalya Puttahonnappa, Prasad Ashwini, K. Shiva Prasad, Yadav Mahendra P., S. Chandrashekar, Pattnaik Bramhadev
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引用次数: 1

摘要

严重急性呼吸综合征(SARS)-冠状病毒-2 (CoV-2)是一种乙型冠状病毒(乙型冠状病毒;sarbecvirus),与其前身SARS和中东呼吸综合征冠状病毒一样。在该病毒的结构蛋白中,病毒粒子包膜上的Spike (S)蛋白通过受体结合域(RBD)的病毒表位与宿主细胞ACE2结合。2003年SARS-CoV的ORF8缺失和S基因突变与病毒对人类的适应有关。新出现的SARS-CoV-2变种,即B.1.1.7、B.1.427和B.1.429、B.1.617及其在英国、美洲、印度、南非和巴西的Kappa和Delta毒株/变种、B.1.351和P.1,已被发现与当前的COVID-19大流行浪潮有关。这些变异在抗原性上是不同的,而目前的COVID-19疫苗是单价的。这是控制程序中的一个缺陷。截至2021年6月14日,已经有74个国家报告了Delta型,这些国家对涉及该型的预期第三波感到担忧(www.gavi.org)。最近,在2021年6月17日,在印度发现了Delta Plus变体(AIIMS, Bhopal, India)。病毒在接种疫苗人群中的传播可能导致地方性流行,这可以通过定期检测针对病毒的选定非结构蛋白(NSPs)的抗体来监测;NSPs抗体将表明病毒在宿主中复制。疫区将有更高的核反应堆。据预测,Delta B.1变种可能会在许多国家引发第三波疫情。由于即使在地区也难以实现疫苗接种时间和密度的均匀性,病毒在部分免疫人群中的传播可能导致新变体SARS-CoV-2的选择。在小核糖核酸科的另一种+感RNA病毒,即口蹄疫病毒(口蹄疫病毒)的准种结构中存在单克隆抗体耐药突变体和中和逃逸突变体。冠状病毒科成员SARS-CoV-2的情况可能类似。先前的免疫可能无法预防当前/未来的突变体,从而延长COVID-19控制规划。©2022 Sharanagouda S. Patil et al。
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Diversity due to mutations in circulating virus strains of SARS-CoV-2 may delay control of COVID-19
Severe acute respiratory syndrome (SARS)-coronavirus-2 (CoV-2) is a beta-coronavirus (beta-CoV;sarbecovirus), like its predecessors SARS and MERS CoVs. Of the structural proteins of the virus, the Spike (S) protein on the virion envelope binds to the host cell ACE2 through viral epitopes in the receptor-binding domain (RBD). Deletions in the ORF8 as well as mutations in the S gene of SARS-CoV of 2003 were related to adaptation of the virus to humans. The emergence of novel variants of SARS-CoV-2, viz., B.1.1.7, B.1.427 and B.1.429, B.1.617 and its Kappa and Delta strains/ variants, B.1.351, and P.1 in the United Kingdom, Americas, India, South Africa and Brazil, respectively, has been found be associated with the current waves of the COVID-19 pandemic. These variants are antigenically dissimilar, whereas the current COVID-19 vaccines are monovalent. This is a handicap in the control program. The Delta variant has been reported in 74 countries as of 14 June 2021 and the anticipated third wave involving this variant is of concern to the countries (www.gavi.org). Of late, on 17 June 2021, Delta Plus variant was identified in India (AIIMS, Bhopal, India). Circulation of virus in vaccinated population may lead to endemicity, and this can be monitored by regular serosurveillance for antibodies against select non-structural proteins (NSPs) of the virus;antibodies to NSPs will indicate virus replication in the host. Endemic areas will have higher NSP reactors. It is predicted that the Delta B.1 variant may ignite the third wave of the disease in many countries. As it has been difficult to achieve uniformity in time and density of the vaccination even in the districts, circulation of the virus in partially immune population may lead to the selection of newer variants of SARS-CoV-2. The presence of monoclonal antibody resistant mutants and neutralization—escape mutants in quasispecies structure of another + sense RNA virus, i.e., Aphthovirus (FMD virus;foot and mouth disease virus) in the family Picornaviridae is well documented. The situation could be similar in the Coronaviridae member SARS-CoV-2. Previous immunity may not protect against current/ future mutants thereby pro-longing the COVID-19 control Programme. © 2022 Sharanagouda S. Patil et al.
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Journal of Applied Biology and Biotechnology
Journal of Applied Biology and Biotechnology Agricultural and Biological Sciences-Food Science
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181
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