基因组学对寄生虫病群体遗传学的影响。

The impact of genomics on population genetics of parasitic diseases.

作者信息

Hupalo Daniel N, Bradic Martina, Carlton Jane M

机构信息

Center for Genomics and Systems Biology, Department of Biology, New York University, 12 Waverly Place, New York, NY 10003, United States.

出版信息

Curr Opin Microbiol. 2015 Feb;23:49-54. doi: 10.1016/j.mib.2014.11.001. Epub 2014 Nov 20.

DOI:10.1016/j.mib.2014.11.001

PMID:25461572

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4323873/

Abstract

Parasites, defined as eukaryotic microbes and parasitic worms that cause global diseases of human and veterinary importance, span many lineages in the eukaryotic Tree of Life. Historically challenging to study due to their complicated life-cycles and association with impoverished settings, their inherent complexities are now being elucidated by genome sequencing. Over the course of the last decade, projects in large sequencing centers, and increasingly frequently in individual research labs, have sequenced dozens of parasite reference genomes and field isolates from patient populations. This 'tsunami' of genomic data is answering questions about parasite genetic diversity, signatures of evolution orchestrated through anti-parasitic drug and host immune pressure, and the characteristics of populations. This brief review focuses on the state of the art of parasitic protist genomics, how the peculiar genomes of parasites are driving creative methods for their sequencing, and the impact that next-generation sequencing is having on our understanding of parasite population genomics and control of the diseases they cause.

摘要

寄生虫被定义为引起对人类和兽医具有重要意义的全球性疾病的真核微生物和寄生蠕虫，它们在真核生物生命之树中跨越了许多谱系。由于其复杂的生命周期以及与贫困环境的关联，历史上对其进行研究颇具挑战性，而现在它们内在的复杂性正通过基因组测序得以阐明。在过去十年间，大型测序中心开展的项目，以及越来越频繁地在单个研究实验室中进行的项目，已对数十种寄生虫参考基因组以及来自患者群体的野外分离株进行了测序。这种基因组数据的“海啸”正在解答有关寄生虫遗传多样性、通过抗寄生虫药物和宿主免疫压力精心编排的进化特征以及种群特征等问题。本简要综述聚焦于寄生原生生物基因组学的现状、寄生虫独特基因组如何推动其测序的创新方法，以及下一代测序对我们理解寄生虫群体基因组学及其所引发疾病的控制所产生的影响。

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mBio. 2013 Aug 20;4(4):e00197-13. doi: 10.1128/mBio.00197-13.

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Multiple populations of artemisinin-resistant Plasmodium falciparum in Cambodia.柬埔寨存在多种青蒿素耐药恶性疟原虫种群。

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