布鲁氏菌
生物
布鲁氏菌病
克莱德
系统发育树
布鲁氏菌
野生动物疾病
传输(电信)
多位点序列分型
分子流行病学
血清学
基因型
野生动物
病毒学
兽医学
遗传学
基因
生态学
抗体
工程类
电气工程
医学
作者
Hongmei Xue,Zhijun Zhao,Jianling Wang,Li Ma,Jiquan Li,Xuxin Yang,Lingling Ren,Liqing Xu,Zhiguo Liu,Zhenjun Li
标识
DOI:10.3389/fmicb.2023.1233686
摘要
bv. 3 strains were isolated and molecularly characterized, with all strains belonging to the East Mediterranean lineages. Cross-regional transmission events (i.e., between counties) were caused by common sources of infection, suggesting that predominant circulating genotypes are endemic in different regions. Strengthening surveillance in animal brucellosis and controlling infected animals' cross-border movement are necessary. Two strains isolated from humans and marmots were clustered in the same sub-clade, implying the possible existence of direct and/or indirect contact between sheep (and goats) and wildlife (marmots), but this needs to be verified by further investigations. The global-scale phylogenetic analysis indicated that 54 strains sorted into six subclades, four of which formed independent lineages, suggesting that the increase in the incidence rate of human brucellosis may be caused by local circulating lineages. Further strengthening the serology and pathogen surveillance of animals (wildlife) and humans will contribute to an in-depth understanding of the transmission chain of human brucellosis in this region.
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