导致 A 组链球菌引起的模糊性流行的分子机制,A 组链球菌是一种食人肉的人类细菌病原体。
MOLECULAR MECHANISMS CONTRIBUTING TO FUZZY EPIDEMICS CAUSED BY GROUP A STREPTOCOCCUS, A FLESH-EATING HUMAN BACTERIAL PATHOGEN.
机构信息
HOUSTON, TEXAS.
出版信息
Trans Am Clin Climatol Assoc. 2020;131:356-368.
Abstract
Epidemics caused by microbial pathogens are inherently interesting because they can kill large numbers of our brethren, cause social upheaval, and alter history. Microbial epidemics will likely continue to occur at unpredictable times and result in poorly predictable consequences. Over a 30-year period, we have used the human bacterial pathogen group A streptococcus (also known as ) as a model organism to gain understanding of the molecular mechanisms contributing to epidemics caused by this pathogen and attendant virulence mechanisms. These epidemics have affected tens of millions of individuals worldwide and were largely unrecognized until revealed by full-genome sequence data from many thousands of isolates from intercontinental sources. Molecular genetic strategies, coupled with extensive use of relevant animal infection models, have delineated precise evolutionary genetic changes that contribute to pathogen clone emergence and successful dissemination among humans. Here, we summarize a few key findings from these studies.
摘要
微生物病原体引起的传染病本身就很有趣,因为它们可以杀死我们大量的同胞,引发社会动荡,并改变历史。微生物传染病可能会在不可预测的时间发生,并导致难以预测的后果。在过去的 30 年里,我们使用人类细菌病原体 A 组链球菌(也称为 )作为模型生物,以了解导致这种病原体引起的传染病和相关毒力机制的分子机制。这些传染病已经影响了全球数千万人,直到从洲际来源的数千个分离株的全基因组序列数据中揭示出来,才被广泛认识到。分子遗传策略,加上对相关动物感染模型的广泛使用,已经描绘出导致病原体克隆出现和在人类中成功传播的精确进化遗传变化。在这里,我们总结了这些研究中的一些关键发现。
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