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金黄色葡萄球菌的进化基因组学:对耐甲氧西林菌株起源及中毒性休克综合征流行的见解。

Evolutionary genomics of Staphylococcus aureus: insights into the origin of methicillin-resistant strains and the toxic shock syndrome epidemic.

作者信息

Fitzgerald J R, Sturdevant D E, Mackie S M, Gill S R, Musser J M

机构信息

Laboratory of Human Bacterial Pathogenesis, Rocky Mountain Laboratories, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Hamilton, MT 59840, USA.

出版信息

Proc Natl Acad Sci U S A. 2001 Jul 17;98(15):8821-6. doi: 10.1073/pnas.161098098. Epub 2001 Jul 10.

Abstract

An emerging theme in medical microbiology is that extensive variation exists in gene content among strains of many pathogenic bacterial species. However, this topic has not been investigated on a genome scale with strains recovered from patients with well-defined clinical conditions. Staphylococcus aureus is a major human pathogen and also causes economically important infections in cows and sheep. A DNA microarray representing >90% of the S. aureus genome was used to characterize genomic diversity, evolutionary relationships, and virulence gene distribution among 36 strains of divergent clonal lineages, including methicillin-resistant strains and organisms causing toxic shock syndrome. Genetic variation in S. aureus is very extensive, with approximately 22% of the genome comprised of dispensable genetic material. Eighteen large regions of difference were identified, and 10 of these regions have genes that encode putative virulence factors or proteins mediating antibiotic resistance. We find that lateral gene transfer has played a fundamental role in the evolution of S. aureus. The mec gene has been horizontally transferred into distinct S. aureus chromosomal backgrounds at least five times, demonstrating that methicillin-resistant strains have evolved multiple independent times, rather than from a single ancestral strain. This finding resolves a long-standing controversy in S. aureus research. The epidemic of toxic shock syndrome that occurred in the 1970s was caused by a change in the host environment, rather than rapid geographic dissemination of a new hypervirulent strain. DNA microarray analysis of large samples of clinically characterized strains provides broad insights into evolution, pathogenesis, and disease emergence.

摘要

医学微生物学中一个新出现的主题是,许多致病细菌物种的菌株之间基因含量存在广泛差异。然而,尚未在基因组规模上对从明确临床病症患者中分离出的菌株进行这一课题的研究。金黄色葡萄球菌是一种主要的人类病原体,也会在牛和羊身上引发具有经济重要性的感染。一个代表超过90%金黄色葡萄球菌基因组的DNA微阵列被用于表征36个不同克隆谱系菌株之间的基因组多样性、进化关系和毒力基因分布,这些菌株包括耐甲氧西林菌株和导致中毒性休克综合征的菌株。金黄色葡萄球菌的遗传变异非常广泛,基因组中约22%由可 dispensable遗传物质组成。鉴定出了18个大的差异区域,其中10个区域含有编码假定毒力因子或介导抗生素抗性的蛋白质的基因。我们发现横向基因转移在金黄色葡萄球菌的进化中发挥了重要作用。mec基因至少五次水平转移到不同的金黄色葡萄球菌染色体背景中,这表明耐甲氧西林菌株是多次独立进化而来的,而非源自单一祖先菌株。这一发现解决了金黄色葡萄球菌研究中一个长期存在的争议。20世纪70年代发生的中毒性休克综合征疫情是由宿主环境变化引起的,而非新的高毒力菌株的快速地理传播。对大量临床特征明确的菌株进行DNA微阵列分析,为进化、发病机制和疾病出现提供了广泛的见解。

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