一种在cDNA文库大规模平行测序过程中消除实验室诱导重组体的通用方法。

A general method to eliminate laboratory induced recombinants during massive, parallel sequencing of cDNA library.

作者信息

Waugh Caryll, Cromer Deborah, Grimm Andrew, Chopra Abha, Mallal Simon, Davenport Miles, Mak Johnson

机构信息

School of Medicine, Deakin University and CSIRO(AAHL), Geelong, VIC, Australia.

Biosecurity Flagship, CSIRO(AAHL), Geelong, VIC, Australia.

出版信息

Virol J. 2015 Apr 9;12:55. doi: 10.1186/s12985-015-0280-x.

DOI:10.1186/s12985-015-0280-x

PMID:25879746

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4403950/

Abstract

BACKGROUND

Massive, parallel sequencing is a potent tool for dissecting the regulation of biological processes by revealing the dynamics of the cellular RNA profile under different conditions. Similarly, massive, parallel sequencing can be used to reveal the complexity of viral quasispecies that are often found in the RNA virus infected host. However, the production of cDNA libraries for next-generation sequencing (NGS) necessitates the reverse transcription of RNA into cDNA and the amplification of the cDNA template using PCR, which may introduce artefact in the form of phantom nucleic acids species that can bias the composition and interpretation of original RNA profiles.

METHOD

Using HIV as a model we have characterised the major sources of error during the conversion of viral RNA to cDNA, namely excess RNA template and the RNaseH activity of the polymerase enzyme, reverse transcriptase. In addition we have analysed the effect of PCR cycle on detection of recombinants and assessed the contribution of transfection of highly similar plasmid DNA to the formation of recombinant species during the production of our control viruses.

RESULTS

We have identified RNA template concentrations, RNaseH activity of reverse transcriptase, and PCR conditions as key parameters that must be carefully optimised to minimise chimeric artefacts.

CONCLUSIONS

Using our optimised RT-PCR conditions, in combination with our modified PCR amplification procedure, we have developed a reliable technique for accurate determination of RNA species using NGS technology.

摘要

背景

大规模平行测序是一种强大的工具，可通过揭示不同条件下细胞RNA谱的动态变化来剖析生物过程的调控机制。同样，大规模平行测序可用于揭示RNA病毒感染宿主中常见的病毒准种的复杂性。然而，用于下一代测序（NGS）的cDNA文库的制备需要将RNA逆转录为cDNA，并使用PCR扩增cDNA模板，这可能会以幻影核酸物种的形式引入假象，从而使原始RNA谱的组成和解读产生偏差。

方法

以HIV为模型，我们已对病毒RNA转化为cDNA过程中的主要误差来源进行了表征，即过量的RNA模板和聚合酶（逆转录酶）的RNaseH活性。此外，我们分析了PCR循环对重组体检测的影响，并评估了在我们的对照病毒生产过程中，转染高度相似的质粒DNA对重组物种形成的贡献。

结果

我们已确定RNA模板浓度、逆转录酶的RNaseH活性和PCR条件是必须仔细优化以尽量减少嵌合体假象的关键参数。

结论

通过使用我们优化的RT-PCR条件，并结合我们改进的PCR扩增程序，我们开发了一种可靠的技术，可使用NGS技术准确测定RNA物种。

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一种在cDNA文库大规模平行测序过程中消除实验室诱导重组体的通用方法。

A general method to eliminate laboratory induced recombinants during massive, parallel sequencing of cDNA library.

作者信息

机构信息

出版信息

BACKGROUND

METHOD

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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