Mohammad Mahmud Abu Sayeed, Andersson Patiyan, Bulach Dieter, Duchene Sebastian, da Silva Anders Goncalves, Lin Chantel, Seemann Torsten, Howden Benjamin P, Stinear Timothy P, Taznin Tarannum, Habib Md Ahashan, Akter Shahina, Banu Tanjina Akhtar, Sarkar Md Murshed Hasan, Goswami Barna, Jahan Iffat, Khan Md Salim
Bangladesh Council of Scientific and Industrial Research, Dr. Qudrat-E-Khuda Road, Dhaka 1205, Bangladesh.
Microbiological Diagnostic Unit Public Health Laboratory, Department of Microbiology and Immunology, Peter Doherty Institute for Infection and Immunity, University of Melbourne, Melbourne, VIC 3000, Australia.
Viruses. 2025 Apr 1;17(4):517. doi: 10.3390/v17040517.
Mutation is one of the most important drivers of viral evolution and genome variability, allowing viruses to potentially evade host immune responses and develop drug resistance. In the context of COVID-19, local genomic surveillance of circulating virus populations is therefore critical. The goals of this study were to describe the distribution of different SARS-CoV-2 lineages, assess their genomic differences, and infer virus importation events in Bangladesh. We individually aligned 1965 SARS-CoV-2 genome sequences obtained between April 2020 and June 2021 to the Wuhan-1 sequence and used the resulting multiple sequence alignment as input to infer a maximum likelihood phylogenetic tree. Sequences were assigned to lineages as described by the hierarchical Pangolin nomenclature scheme. We built a phylogeographic model using the virus population genome sequence variation to infer the number of virus importation events. We observed thirty-four lineages and sub-lineages in Bangladesh, with B.1.1.25 and its sub-lineages D.* (979 sequences) dominating, as well as the Beta variant of concern (VOC) B.1.351 and its sub-lineages B.1.351.* (403 sequences). The earliest B.1.1.25/D.* lineages likely resulted from multiple introductions, some of which led to larger outbreak clusters. There were 570 missense mutations, 426 synonymous mutations, 18 frameshift mutations, 7 deletions, 2 insertions, 10 changes at start/stop codons, and 64 mutations in intergenic or untranslated regions. According to phylogeographic modeling, there were 31 importation events into Bangladesh (95% CI: 27-36). Like elsewhere, Bangladesh has experienced distinct waves of dominant lineages during the COVID-19 pandemic; this study focuses on the emergence and displacement of the first wave-dominated lineage, which contains mutations seen in several VOCs and may have had a transmission advantage over the extant lineages.
突变是病毒进化和基因组变异性的最重要驱动因素之一,它使病毒有可能逃避宿主免疫反应并产生耐药性。因此,在新冠疫情背景下,对流行病毒群体进行本地基因组监测至关重要。本研究的目的是描述不同严重急性呼吸综合征冠状病毒2(SARS-CoV-2)谱系的分布,评估它们的基因组差异,并推断孟加拉国的病毒输入事件。我们将2020年4月至2021年6月期间获得的1965条SARS-CoV-2基因组序列分别与武汉-1序列进行比对,并将所得的多序列比对结果作为输入来推断最大似然系统发育树。按照Pangolin分层命名方案将序列分配到各个谱系。我们利用病毒群体基因组序列变异构建了一个系统地理学模型,以推断病毒输入事件的数量。我们在孟加拉国观察到了34个谱系和亚谱系,其中B.1.1.25及其亚谱系D.(979个序列)占主导地位,还有值得关注的贝塔变异株(VOC)B.1.351及其亚谱系B.1.351.(403个序列)。最早的B.1.1.25/D.*谱系可能是多次引入的结果,其中一些导致了更大的爆发集群。共有570个错义突变、426个同义突变、18个移码突变、7个缺失、2个插入、10个起始/终止密码子变化以及64个基因间或非翻译区突变。根据系统地理学模型,孟加拉国发生了31次病毒输入事件(95%置信区间:27 - 36)。与其他地方一样,孟加拉国在新冠疫情期间经历了不同的优势谱系浪潮;本研究聚焦于第一波占主导地位的谱系的出现和替代,该谱系包含在多个VOC中出现的突变,可能比现存谱系具有传播优势。
