鉴定了临床分离的原尾柱虫的完整基因组。

Juanjuan Li, Xiaorong He, Hongen Guo, Damin Lin, Xiaomo Wu, Borui Chen
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引用次数: 0

摘要

导言。柳穿鱼原藻是一种机会性病原体,可感染人类和动物,其中柳穿鱼原藻(P. wickerhamii)是最重要的致病绿藻。柳穿鱼原藻引起的人类疾病发病率呈上升趋势,但有关这些感染的病理生理学方面的基因研究还存在很大差距。本研究旨在展示临床分离株 InPu-22_FZ 的全基因组数据,并通过比较基因组分析和系统发生树分析了解其基因组特征。此外,还对蛋白编码基因进行了功能注释,并分析了其致病性。我们结合 Nanopore ONT 和 Illumina NovaSeq 测序技术,对临床分离株 InPu-22_FZ 进行了高质量的全新基因组组装。为研究 InPu-22_FZ 菌株与其他物种之间的进化关系,构建了系统发生树。平均核苷酸同一性(ANI)分析用于评估不同物种之间的相似性。此外,还分析了同源区块的大小、分布和组成,以推断基因组的进化关系。组装的核基因组大小为 18.47 Mb,有 48 个等位基因。该基因组的主要特征包括总体 GC 含量高(63.31%)、蛋白编码基因数量多(5478 个)、比例高(62.24%),以及 96.71% 以上的基因有基因功能注释。系统进化分析表明,InPu-22_FZ 菌株和其他柳穿鱼藻聚为一个支系,bootstrap 值为 99%;共线性分析表明,InPu-22_FZ 菌株与 ATCC 16529 存在高度共线性。ANI 分析显示,InPu-22_FZ 菌株与现有的柳条虫基因组只有较高的相似度(89-93%),这表明 InPu-22_FZ 菌株的基因组总体上是新颖的。有趣的是,病原体-宿主相互作用数据库的分析揭示并证明了该菌株的毒性降低,尽管它是从慢性上肢皮肤感染中分离出来的。该研究深入揭示了 InPu-22_FZ 菌株的基因组结构和生物学功能,揭示了其致病性和毒力的遗传基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Complete genome identified of clinical isolate Prototheca.

Introduction. Prototheca is an opportunistic pathogen that can infect both humans and animals, of which Prototheca wickerhamii (P. wickerhamii) being the most significant pathogenic green algae.Gap statement. The incidence of human diseases caused by Prototheca has been on the rise, yet there is a significant gap in genetic research pertaining to the pathophysiological aspects of these infections.Aim. The aim of this study is to present the whole genome data from the clinical isolate InPu-22_FZ strain and to understand its genomic characteristics through comparative genomic analysis and phylogenetic tree analysis. Functional annotation of protein-coding genes and analysis of their pathogenicity are also conducted.Methodology. We described the high-quality de novo genome assembly of the clinical isolate InPu-22_FZ strain, achieved by combining Nanopore ONT and Illumina NovaSeq sequencing technologies. Phylogenetic tree was constructed to study the evolutionary relationship between the InPu-22_FZ strain and other species. The average nucleotide identity (ANI) analysis was used to assess the similarity between different species. Additionally, the size, distribution and composition of synteny blocks were also analysed to infer the evolutionary relationships of the genomes.Results. The size of the assembled nuclear genome was 18.47 Mb with 48 contigs. Key features of the genome include high overall GC content (63.31%), high number (5478) and proportion (62.24%) of protein-coding genes and more than 96.71% of genes annotated for gene function. Phylogenetic analyses showed that the InPu-22_FZ strain and other P. wickerhamii clustered into one clade with a bootstrap value of 99% and collinearity analysis revealed high levels of collinearity with ATCC 16529. The ANI analysis revealed only a relatively high similarity (89-93%) to available P. wickerhamii genomes, suggesting the overall genomic novelty of InPu-22_FZ strain. Interestingly, the analysis of the pathogen-host interaction database unveiled and demonstrated reduced virulence of this strain, albeit it was isolated from a chronic upper-limb cutaneous infection.Conclusion. The study provides an in-depth insight into the genomic structure and biological function of the InPu-22_FZ strain, revealing the genetic basis of its pathogenicity and virulence.

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