追踪 HIV 的一个世纪的全球扩张和演变，以推动理解并对抗疾病。

Tracking a century of global expansion and evolution of HIV to drive understanding and to combat disease.

机构信息

Case Western Reserve University, Cleveland, OH 44106, USA.

出版信息

Lancet Infect Dis. 2011 Jan;11(1):45-56. doi: 10.1016/S1473-3099(10)70186-9. Epub 2010 Dec 2.

Abstract

Since the isolation of HIV, multiple transmissions are thought to have occurred between man and other old-world primates. Assessment of samples from apes and human beings with African equatorial forest ancestry has traced the origin of HIV-1 to chimpanzees, and dated its most recent common ancestor to 1908. The evolution of HIV-1 has been rapid, which has resulted in a complex classification, worldwide spread, and intermixing of strains; at least 48 circulating recombinant forms are currently identified. In addition to posing a nearly insurmountable challenge for diagnosis, treatment, vaccine development, and prevention, this extreme and divergent evolution has led to differences in virulence between HIV-1 groups, subtypes, or both. Coincidental changes in human migration in the Congo river basin also affected spread of disease. Research over the past 25 years and advances in genomic sequencing methods, such as deep DNA sequencing, have greatly improved understanding and analysis of the thousands to millions of full infectious HIV-1 genomes.

摘要

自 HIV 被分离以来，人们认为它在人与其他旧世界灵长类动物之间发生了多次传播。对来自赤道森林非洲祖先的猿类和人类样本的评估表明，HIV-1 的起源是黑猩猩，并将其最近的共同祖先追溯到 1908 年。HIV-1 的进化非常迅速，导致了其复杂的分类、全球传播和毒株的混合；目前至少鉴定出 48 种循环重组形式。这种极端而不同的进化不仅给诊断、治疗、疫苗开发和预防带来了几乎无法克服的挑战，还导致了 HIV-1 组、亚型或两者之间毒力的差异。刚果河流域人类迁徙的巧合变化也影响了疾病的传播。在过去 25 年的研究和基因组测序方法（如深度 DNA 测序）的进步，极大地提高了对数千到数百万个完整传染性 HIV-1 基因组的理解和分析。

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追踪 HIV 的一个世纪的全球扩张和演变，以推动理解并对抗疾病。

Tracking a century of global expansion and evolution of HIV to drive understanding and to combat disease.

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