Analyses of Omicron genomes from India reveal BA.2 as a more transmissible variant

A. Atkulwar, A. Rehman, Y. Imaan, M. Baig
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引用次数: 1

Abstract

This is the first study on omicron genomes from India to focus on phylodynamics and phylogenomics trait to provide an insight into the evolution of omicron variants. We analyzed 564 genomes deposited to GISAID database from various states of India. Pangolin COVID-19 Lineage Assigner tool was used to determine lineage assignment of all retrieved genomes. A Maximum likelihood (MLE) tree construction further confirms the separation of genomes into two distinct clades, BA. 1. and BA. 2. A very high reproduction number (R0) of 2.445 was estimated for the lineage BA.2. The highest R0 value in Telangana confirms the prevalence of lineage BA.2 in the state. Construction of the Reduced Median (RM) network shows evolution of some autochthonous haplogroups and haplotypes, which further supports the rapid evolution of omicron as compared to its previous variants. Phylogenomic analyses using maximum likelihood (ML) and RM show the potential for the emergence of sub-sublineages and novel haplogroups respectively. Due to the recombinant property and high transmissibility of omicron virus, we suggest continuous and more widespread genome sequencing in all states of India to track evolution of SARS-CoV-2 in real time.
来自印度的组粒基因组分析显示BA.2是一种更具传染性的变异
这是第一次对印度组粒基因组进行系统动力学和系统基因组学特征的研究,以提供对组粒变异进化的见解。我们分析了印度各邦存入GISAID数据库的564个基因组。使用穿山甲COVID-19谱系分配工具确定所有检索到的基因组的谱系分配。最大似然(MLE)树的构建进一步证实了基因组分为两个不同的分支,BA。1. 和英航。2. 估计BA.2世系的繁殖数(R0)为2.445。特伦甘纳邦的最高R0值证实了该邦BA.2血统的流行。减少中位数(RM)网络的构建显示了一些本地单倍群和单倍型的进化,这进一步支持了组粒相对于其先前变体的快速进化。使用最大似然(ML)和RM的系统基因组分析分别显示了亚亚谱系和新单倍群出现的潜力。鉴于组粒病毒的重组特性和高传播性,我们建议在印度所有州进行持续和更广泛的基因组测序,以实时跟踪SARS-CoV-2的进化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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