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利用 Oxford Nanopore MinION 生成完整的 Blastocystis 小亚基(SSU)rRNA 基因序列。

Use of Oxford Nanopore MinION to generate full-length sequences of the Blastocystis small subunit (SSU) rRNA gene.

机构信息

Environmental Microbial and Food Safety Laboratory, Agricultural Research Service, United States Department of Agriculture, Beltsville, MD, USA.

出版信息

Parasit Vectors. 2020 Nov 25;13(1):595. doi: 10.1186/s13071-020-04484-6.

DOI:10.1186/s13071-020-04484-6
PMID:33239096
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7687777/
Abstract

BACKGROUND

Blastocystis sp. is one of the most common enteric parasites of humans and animals worldwide. It is well recognized that this ubiquitous protist displays a remarkable degree of genetic diversity in the SSU rRNA gene, which is currently the main gene used for defining Blastocystis subtypes. Yet, full-length reference sequences of this gene are available for only 16 subtypes of Blastocystis in part because of the technical difficulties associated with obtaining these sequences from complex samples.

METHODS

We have developed a method using Oxford Nanopore MinION long-read sequencing and universal eukaryotic primers to produce full-length (> 1800 bp) SSU rRNA gene sequences for Blastocystis. Seven Blastocystis specimens representing five subtypes (ST1, ST4, ST10, ST11, and ST14) obtained both from cultures and feces were used for validation.

RESULTS

We demonstrate that this method can be used to produce highly accurate full-length sequences from both cultured and fecal DNA isolates. Full-length sequences were successfully obtained from all five subtypes including ST11 for which no full-length reference sequence currently exists and for an isolate that contained mixed ST10/ST14.

CONCLUSIONS

The suitability of the use of MinION long-read sequencing technology to successfully generate full-length Blastocystis SSU rRNA gene sequences was demonstrated. The ability to produce full-length SSU rRNA gene sequences is key in understanding the role of genetic diversity in important aspects of Blastocystis biology such as transmission, host specificity, and pathogenicity.

摘要

背景

芽囊原虫是全世界人类和动物肠道寄生虫中最常见的一种。人们普遍认识到,这种无处不在的原生动物在 SSU rRNA 基因中显示出显著的遗传多样性,该基因目前是用于定义芽囊原虫亚型的主要基因。然而,由于从复杂样本中获取这些序列的技术难度,目前仅可获得 16 种芽囊原虫亚型的全长参考序列。

方法

我们开发了一种使用牛津纳米孔 MinION 长读测序和通用真核引物的方法,用于产生芽囊原虫的全长 (>1800bp) SSU rRNA 基因序列。使用来自培养物和粪便的七个代表五个亚型(ST1、ST4、ST10、ST11 和 ST14)的芽囊原虫标本进行验证。

结果

我们证明,该方法可用于从培养物和粪便 DNA 分离物中产生高度准确的全长序列。成功获得了所有五个亚型的全长序列,包括目前不存在全长参考序列的 ST11 亚型,以及包含混合 ST10/ST14 的分离物。

结论

证明了 MinION 长读测序技术成功生成芽囊原虫 SSU rRNA 基因全长序列的适用性。能够产生全长 SSU rRNA 基因序列是理解遗传多样性在芽囊原虫生物学的重要方面(如传播、宿主特异性和致病性)中的作用的关键。

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