丁型肝炎病毒RNA世界卫生组织国际标准的测序

Sequencing of the Hepatitis D Virus RNA WHO International Standard.

作者信息

Pyne M T, Mallory M A, Xie H B, Mei Y, Schlaberg R, Hillyard D R

机构信息

ARUP Laboratories, Salt Lake City, UT, USA.

出版信息

J Clin Virol. 2017 May;90:52-56. doi: 10.1016/j.jcv.2017.03.009. Epub 2017 Mar 21.

DOI:10.1016/j.jcv.2017.03.009

PMID:28359844

Abstract

BACKGROUND

Well-characterized, stable calibration materials are essential to standardize quantitative viral reporting. The preferred calibration materials are the WHO International Standards and secondary standards derived from them. In 2013, the 1st WHO International Standard for Hepatitis D Virus (HDV) RNA became available. During the course of assay development in our laboratory, differences between the published sequence (GenBank ID: HQ005371) and sequence we generated from the WHO HDV Standard were identified.

OBJECTIVES

We sought to sequence the entire genome of the WHO HDV Standard and compare the results to the published sequence.

STUDY DESIGN

RNA extracted from the WHO HDV Standard was used to generate five overlapping PCR products, including one covering the entire HDV genome, which were Sanger sequenced using standard dye-terminator chemistry. Total RNA from the WHO HDV Standard was also converted to a cDNA library generating 2.1 million sequencing reads on a NextSeq500 instrument.

RESULTS

Sanger sequencing produced 32 overlapping, partial sequences of the HDV genome. RNA-seq resulted in 8100 HDV sequences covering the viral genome an average of 645-fold. Sanger and RNA-seq consensus sequences had 100% agreement and showed 89.0% nucleotide identity with the published WHO HDV Standard sequence. BLAST analysis revealed HQ005369 as the closest match with 99.2% nucleotide identity.

CONCLUSIONS

HQ005369 was deposited in GenBank along with HQ005371 and seven others from a study of nine Turkish patients. A sample mix-up or clerical error may have resulted in the incorrect association of identifier and sequence. The correct nucleic acid sequence for standards is critical for test accuracy, optimization, calibration, and troubleshooting.

摘要

背景

特征明确、稳定的校准材料对于定量病毒报告的标准化至关重要。首选的校准材料是世界卫生组织（WHO）国际标准品及其衍生的二级标准品。2013年，首个WHO丁型肝炎病毒（HDV）RNA国际标准品问世。在我们实验室开展检测方法研发的过程中，发现已发表序列（GenBank编号：HQ005371）与我们从WHO HDV标准品中获得的序列存在差异。

目的

我们试图对WHO HDV标准品的全基因组进行测序，并将结果与已发表序列进行比较。

研究设计

从WHO HDV标准品中提取的RNA用于生成5个重叠的PCR产物，其中包括一个覆盖HDV全基因组的产物，采用标准的染料终止化学法对其进行桑格测序。来自WHO HDV标准品的总RNA也被转化为cDNA文库，在NextSeq500仪器上产生了210万个测序读数。

结果

桑格测序产生了32个HDV基因组的重叠部分序列。RNA测序产生了8100个HDV序列，覆盖病毒基因组的平均倍数为645倍。桑格测序和RNA测序的一致序列完全一致，与已发表的WHO HDV标准序列显示出89.0%的核苷酸同一性。BLAST分析显示HQ005369是最接近的匹配序列，核苷酸同一性为99.2%。

结论

HQ005369与HQ005371以及来自9名土耳其患者研究的其他7个序列一起存入了GenBank。样本混淆或文书错误可能导致了标识符与序列的错误关联。标准品的正确核酸序列对于检测准确性、优化、校准和故障排除至关重要。

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丁型肝炎病毒RNA世界卫生组织国际标准的测序

Sequencing of the Hepatitis D Virus RNA WHO International Standard.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVES

STUDY DESIGN

RESULTS

CONCLUSIONS

背景

目的

研究设计

结果

结论

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