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系统进化分析为研究猪德尔塔冠状病毒的遗传多样性和适应性进化提供了线索。

Phylogenetically evolutionary analysis provides insights into the genetic diversity and adaptive evolution of porcine deltacoronavirus.

机构信息

Key Laboratory of Animal Immunology of the Ministry of Agriculture, Henan Provincial Key Laboratory of Animal Immunology, Henan Academy of Agricultural Sciences, Zhengzhou, 450002, China.

Vet Diagnostic & Production Animal Medicine, Iowa State University, Ames, IA, USA.

出版信息

BMC Vet Res. 2024 Jan 10;20(1):22. doi: 10.1186/s12917-023-03863-2.

DOI:10.1186/s12917-023-03863-2
PMID:38200538
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10782762/
Abstract

BACKGROUND

Porcine deltacoronavirus (PDCoV) is one of the emerging swine enteric coronaviruses (SECoVs), which has been widely prevalent in the North America and Asia. In addition to causing severe diarrhea in piglets, PDCoV also shows the potential to infect diverse host species, including calves, chickens, turkey poults, and humans. However, the clinical pathogenicity and genetic evolution of PDCoV is still not fully understood.

RESULTS

Here, we recorded an outbreak of a novel recombinant PDCoV strain (CHN-HeN06-2022) in a large nursery fattening pig farm. Genomic analysis showed that the CHN-HeN06-2022 strain shared 98.3-98.7% sequence identities with the Chinese and American reference strains. To clarify the evolutionary relationships, phylogenetic analysis was performed using the PDCoV genome sequences available in the GenBank database. Based on genetic distance and geographical distribution, the phylogenetic tree clearly showed that all the PDCoV sequences could be divided into lineage 1 and lineage 2, which were further classified into sublineage 1.1 (Chinese strains), 1.2 (the North American strains), 2.1 (the Southeast Asian strains), and 2.2 (Chinese strains). Corresponding to the evolutionary tree, we found that, compared to lineage 1, lineage 2 strains usually contain a continuous 6-nt deletion in Nsp2 and a 9-nt deletion in Nsp3, respectively. Furthermore, recombination analysis suggested that the CHN-HeN06-2022 occurred segments exchange crossed Nsp2 and Nsp3 region between sublineage 1.1 and sublineage 2.1. Combined with previously reported recombinant strains, the highest recombination frequency occurred in Nsp2, Nsp3, and S gene. Additionally, we identified a total of 14 amino acid sites under positive selection in spike protein, most of which are located in the regions related with the viral attachment, receptor binding, and membrane fusion.

CONCLUSIONS

Taken together, our studies provide novel insights into the genetic diversity and adaptive evolution of PDCoV. It would be helpful to the development of vaccine and potential antiviral agent.

摘要

背景

猪德尔塔冠状病毒(PDCoV)是新兴的猪肠道冠状病毒(SECoVs)之一,已在北美和亚洲广泛流行。除了引起仔猪严重腹泻外,PDCoV 还显示出感染多种宿主物种的潜力,包括小牛、鸡、火鸡雏鸡和人类。然而,PDCoV 的临床致病性和遗传进化仍不完全清楚。

结果

在这里,我们记录了在一个大型育肥猪养殖场爆发的一种新型重组 PDCoV 株(CHN-HeN06-2022)。基因组分析表明,CHN-HeN06-2022 株与中国和美国的参考株的序列同一性为 98.3-98.7%。为了阐明进化关系,我们使用 GenBank 数据库中可用的 PDCoV 基因组序列进行了系统发育分析。基于遗传距离和地理分布,系统发育树清楚地表明,所有 PDCoV 序列可分为 1 谱系和 2 谱系,进一步分为 1.1 亚谱系(中国株)、1.2 亚谱系(北美株)、2.1 亚谱系(东南亚株)和 2.2 亚谱系(中国株)。与进化树相对应,我们发现与 1 谱系相比,2 谱系的 Nsp2 通常含有连续的 6-nt 缺失,Nsp3 中含有 9-nt 缺失。此外,重组分析表明,CHN-HeN06-2022 发生了在 Nsp2 和 Nsp3 区域的亚谱系 1.1 和亚谱系 2.1 之间的片段交换。结合以前报道的重组株,Nsp2、Nsp3 和 S 基因的重组频率最高。此外,我们在刺突蛋白中鉴定出总共 14 个氨基酸位点受到正选择,其中大多数位于与病毒附着、受体结合和膜融合相关的区域。

结论

总之,我们的研究提供了 PDCoV 遗传多样性和适应性进化的新见解。这将有助于疫苗和潜在抗病毒药物的开发。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/345c/10782762/51cf6d1adf35/12917_2023_3863_Fig6_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/345c/10782762/f76dd127800c/12917_2023_3863_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/345c/10782762/e7f37bb01f06/12917_2023_3863_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/345c/10782762/63cece1ccdfd/12917_2023_3863_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/345c/10782762/77469838dcda/12917_2023_3863_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/345c/10782762/333f9076ae01/12917_2023_3863_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/345c/10782762/51cf6d1adf35/12917_2023_3863_Fig6_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/345c/10782762/f76dd127800c/12917_2023_3863_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/345c/10782762/e7f37bb01f06/12917_2023_3863_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/345c/10782762/63cece1ccdfd/12917_2023_3863_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/345c/10782762/77469838dcda/12917_2023_3863_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/345c/10782762/333f9076ae01/12917_2023_3863_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/345c/10782762/51cf6d1adf35/12917_2023_3863_Fig6_HTML.jpg

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