Mutational and Phylogenetic Analyses of SARS-Cov-2: Bangladesh Perspective

BM Fahim Faisal, Md. Selim Reza
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Abstract

Severe acute respiratory syndrome or SARS-Cov-2 is a global pandemic causing over 6.5 million deaths worldwide. As a part of the global village, Bangladesh is also heavily affected with more than 29,000 deaths in those two years of pandemic. Though the severity and mortality rate are not so high compared to the other countries, Bangladesh also faced many difficulties combating the mutated and newer types of the Covid-19. The evolution and phylogenetic study of the virus is one of those key areas to focus in order to understand the nature of virus, its mutation pattern and gene prediction. This study investigates the evolutionary links among the older and newly emerged SARS‐Cov‐2 variants. In this study, the entire genome sequences of SARS‐Cov‐2 variants were obtained, aligned using muscle alignment, pairwise comparison was computed, differences, gaps and mutations were noted. The phylogenetics of different types of covid-19 variants were determined using a variety of evolutionary substitution models. The ultrametric and metric clustering methods, such as UPGMA and neighbor‐joining (NJ), using nucleotide substitution models allowed the inclusion of nucleotide transitions and transversions as Kimura 80 models. The findings revealed that Omicron variant forms a new monophyletic clade that is distant from other SARS‐Cov‐2 variants but surprisingly in proximity to the alpha variant, which was actually dominant in the early stage of pandemic. This finding also indicates that the omicron variant might have been there for a while, hiding the virulence and later becomes the variant of concern in the latest wave of the pandemic. This may pave the way for new researchers to find proper insight of different variants of Bangladesh in treatment plan and vaccine designing. Bangladesh Pharmaceutical Journal 26(2): 204-211, 2023 (July)
SARS-Cov-2的突变和系统发育分析:孟加拉国视角
严重急性呼吸系统综合征(SARS-Cov-2)是一种全球大流行,在全球造成650多万人死亡。作为地球村的一部分,孟加拉国也受到严重影响,在这两年的大流行中有29 000多人死亡。虽然与其他国家相比,孟加拉国的严重程度和死亡率并不高,但在对抗变异和新型Covid-19方面也面临许多困难。为了了解病毒的本质、变异模式和基因预测,病毒的进化和系统发育研究是重点关注的关键领域之一。本研究探讨了较老的和新出现的SARS - Cov - 2变体之间的进化联系。在这项研究中,获得了SARS‐Cov‐2变异的全基因组序列,使用肌肉比对进行比对,计算两两比较,注意差异、间隙和突变。使用各种进化替代模型确定不同类型的covid-19变异的系统发育。超密聚类和度量聚类方法,如UPGMA和邻居连接(NJ),使用核苷酸取代模型允许包含核苷酸转移和翻转作为Kimura 80模型。研究结果表明,Omicron变体形成了一个新的单系进化分支,与其他SARS - Cov - 2变体相距遥远,但令人惊讶的是,它与alpha变体接近,而alpha变体实际上在大流行的早期阶段占主导地位。这一发现还表明,组粒变异可能已经存在了一段时间,隐藏了毒性,后来成为最新一波大流行中令人担忧的变异。这可能为新的研究人员在治疗计划和疫苗设计中找到对孟加拉国不同变种的正确见解铺平道路。孟加拉国医药杂志26(2):204-211,2023(7月)
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