尿液和直肠中的大肠杆菌分离株均以B2系统发育群的菌株为主。
Both urinary and rectal Escherichia coli isolates are dominated by strains of phylogenetic group B2.
作者信息
Zhang Lixin, Foxman Betsy, Marrs Carl
机构信息
Department of Epidemiology, University of Michigan School of Public Health, Ann Arbor, Michigan48109-2029, USA.
出版信息
J Clin Microbiol. 2002 Nov;40(11):3951-5. doi: 10.1128/JCM.40.11.3951-3955.2002.
Abstract
To compare the genetic structures of uropathogenic and commensal Escherichia coli populations, a total of 181 urinary and rectal E. coli isolates were classified into intraspecies phylogenetic groups by PCR amplifications of phylogenetic markers. The genetic variability of these isolates within phylogenetic groups was further assessed by enterobacterial repetitive intergenic consensus (ERIC) typing. The distributions of 10 known virulence factors were also examined. In contrast with most reports, phylogenetic group B2 not only accounted for the majority of urinary isolates from young women with urinary tract infections (69%) but also was the dominant group among the rectal isolates from healthy young women (48%). Such difference may be explained by geographic variation, difference in host population characteristics, or differences in sampling method, or a combination of the three. Strains with known virulence factors most frequently belonged to phylogenetic groups B2 and D. Additionally, group B2 and D rectal isolates were more heterogeneous than urinary isolates. Two subclusters existed within group B2 strains by ERIC typing. These subclusters were not evenly distributed between rectal and urine isolates and differed in virulence gene distribution.
摘要
为比较尿路致病性大肠杆菌和共生大肠杆菌群体的遗传结构,通过对系统发育标记进行PCR扩增,将总共181株尿液和直肠大肠杆菌分离株分类为种内系统发育组。通过肠杆菌重复基因间共识(ERIC)分型进一步评估这些分离株在系统发育组内的遗传变异性。还检查了10种已知毒力因子的分布。与大多数报告不同的是,系统发育组B2不仅占年轻女性尿路感染尿液分离株的大多数(69%),而且也是健康年轻女性直肠分离株中的优势组(48%)。这种差异可能由地理变异、宿主人群特征差异、采样方法差异或三者的组合来解释。具有已知毒力因子的菌株最常属于系统发育组B2和D。此外,B2组和D组直肠分离株比尿液分离株更具异质性。通过ERIC分型,B2组菌株内存在两个亚群。这些亚群在直肠和尿液分离株之间分布不均,毒力基因分布也不同。
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3
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5
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7
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