具有校对缺陷 DNA 聚合酶 δ 的突变型伯氏疟原虫的突变倾向。

Mutation tendency of mutator Plasmodium berghei with proofreading-deficient DNA polymerase δ.

机构信息

Department of International Affairs and Tropical Medicine, Tokyo Women's Medical University, 8-1 Kawada-cho, Shinjuku, Tokyo, Japan.

Department of Infectious Diseases, Kyorin University School of Medicine, 20-2, Shinkawa 6, Mitaka City, Tokyo, Japan.

出版信息

Sci Rep. 2016 Nov 15;6:36971. doi: 10.1038/srep36971.

DOI:10.1038/srep36971

PMID:27845384

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5109483/

Abstract

In this study, we investigated the mutation tendency of a mutator rodent malaria parasite, Plasmodium berghei, with proofreading-deficient DNA polymerase δ. Wild-type and mutator parasites were maintained in mice for over 24 weeks, and the genome-wide accumulated mutations were determined by high-throughput sequencing. The mutator P. berghei had a significant preference for C/G to A/T substitutions; thus, its genome had a trend towards a higher AT content. The mutation rate was influenced by the sequence context, and mutations were markedly elevated at TCT. Some genes mutated repeatedly in replicate passage lines. In particular, knockout mutations of the AP2-G gene were frequent, which conferred strong growth advantages on parasites during the blood stage but at the cost of losing the ability to form gametocytes. This is the first report to demonstrate a biased mutation tendency in malaria parasites, and its results help to promote our basic understanding of Plasmodium genetics.

摘要

在这项研究中，我们研究了具有校对缺陷 DNA 聚合酶 δ 的诱变鼠疟原虫（Plasmodium berghei）的突变趋势。将野生型和诱变型寄生虫在小鼠中维持超过 24 周，并通过高通量测序确定全基因组累积突变。诱变型 P. berghei 对 C/G 到 A/T 取代具有明显的偏好，因此其基因组具有更高的 AT 含量趋势。突变率受序列背景的影响，在 TCT 处突变明显增加。一些基因在重复传代线中反复突变。特别是，AP2-G 基因的敲除突变频繁发生，这在血液阶段赋予寄生虫很强的生长优势，但代价是失去形成配子体的能力。这是首次报道疟原虫中存在偏向性突变趋势的研究，其结果有助于促进我们对疟原虫遗传学的基本理解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c5d4/5109483/9a791d8246fc/srep36971-f1.jpg

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具有校对缺陷 DNA 聚合酶 δ 的突变型伯氏疟原虫的突变倾向。

Mutation tendency of mutator Plasmodium berghei with proofreading-deficient DNA polymerase δ.

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