斯里兰卡人感染钩端螺旋体分离物的基因组分析扩大了 PF07598 基因家族谱系,与牛分离物相比,基因组整体减少较少

Indika Senavirathna, Dinesha Jayasundara, Janith Warnasekara, Suneth B Agampodi, Ellie J. Putz, Jarlath E. Nally, Darrell O. Bayles, Reetika Chaurasia, Joseph M. Vinetz
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引用次数: 0

摘要

博格特氏钩端螺旋体(Leptospira borgpetersenii)通常会引起人类钩端螺旋体病,包括严重的疾病。首次发表的对 L. borgpetersenii 的分析是在两个血清 Hardjo 菌株(L550 和 JB197)上进行的,得出的结论是 L. borgpetersenii 基因组正处于基因组衰变过程中,其功能性后果导致其生命周期更加依赖于宿主。然而,全基因组分析只在少数 L. borgpetersenii 菌株上进行过,封闭基因组和全面分析有限。在此,我们报告了从斯里兰卡人类钩端螺旋体病患者中分离出的七株非哈氏钩端螺旋体的完整环化基因组。通过全基因组分析发现,这些分离株(均为 ST144)几乎完全相同;血清分型显示它们是一个新的血清型。我们的研究表明,从斯里兰卡人体内分离出的 L. borgpetersenii 的基因组衰变程度低于之前报道的分离株:与已发表的 L. borgpetersenii Hardjo 基因组(L550、JB197 和 TC112)中的 N=248、N=270 和 N=400 个假基因以及 N=121 和 N=116 个 IS 元素相比,假基因(N=141)和插入序列(IS)元素(N=46)较少。以前发表的 L. borgpetersenii 全基因组分析显示,来自牛、大鼠和人类的 L. borgpetersenii 分离物中有 2 到 3 个 VM 蛋白,与此相比,我们发现来自斯里兰卡的所有人类 L. borgpetersenii 分离物(包括以前报道的 Piyasena 血清菌株)都有 4 个编码的 VM 蛋白,其中一个是 L. interrogans Copenhageni LIC12339 的直向同源物,另一个是 LIC12844 的 3 个直向同源物。我们在这些人类分离株中发现了较少的假基因、IS元件和 PF07598 家族 LIC12844 同源物的扩增,这表明斯里兰卡新发现的 L. borgpetersenii 血清菌具有独特的致病性。对这些 L. borgpetersenii 分离物进行基因组比较分析和实验研究,将有助于深入了解钩端螺旋体病致病的分子和细胞机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genomic Analysis of Human-infecting Leptospira borgpetersenii isolates in Sri Lanka expanded PF07598 gene family repertoire, less overall genome reduction than bovine isolates
Leptospira borgpetersenii commonly causes human leptospirosis, including severe disease. The first published analysis of L. borgpetersenii, performed on two strains of serovar Hardjo (L550 and JB197), concluded that the L. borgpetersenii genome is in the process of genome decay with functional consequences leading to a more obligately host-dependent life cycle. Yet whole genome analysis has only been carried out on few strains of L. borgpetersenii, with limited closed genomes and comprehensive analysis. Herein we report the complete, circularized genomes of seven non-Hardjo Leptospira borgpetersenii isolates from human leptospirosis patients in Sri Lanka. These isolates (all ST144) were found to be nearly identical by whole genome analysis; serotyping showed they are a novel serovar. We show that the L. borgpetersenii isolated from humans in Sri Lanka are less genomically decayed than previously reported isolates: fewer pseudogenes (N=141) and Insertion Sequence (IS) elements (N=46) compared to N=248, N=270, and N=400 pseudogenes, and N=121 and N=116 IS elements in published L. borgpetersenii Hardjo genomes (L550, JB197 and TC112). Compared to previously published L. borgpetersenii whole genome analyses showing two to three VM proteins in L. borgpetersenii isolates from cattle, rats and humans, we found that all of the human L. borgpetersenii isolates from Sri Lanka, including previously reported serovar Piyasena, have 4 encoded VM proteins, one ortholog of L. interrogans Copenhageni LIC12339 and 3 orthologs of LIC12844. Our findings of fewer pseudogenes, IS elements and expansion of the LIC12844 homologs of the PF07598 family in these human isolates suggests that this newly identified L. borgpetersenii serovar from Sri Lanka has unique pathogenicity. Comparative genome analysis and experimental studies of these L. borgpetersenii isolates will enable deeper insights into the molecular and cellular mechanisms of leptospirosis pathogenesis.
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