使用牛津纳米孔MinION评估GBA错义突变和其他变异的检测

Evaluation of the detection of GBA missense mutations and other variants using the Oxford Nanopore MinION.

作者信息

Leija-Salazar Melissa, Sedlazeck Fritz J, Toffoli Marco, Mullin Stephen, Mokretar Katya, Athanasopoulou Maria, Donald Aimee, Sharma Reena, Hughes Derralynn, Schapira Anthony H V, Proukakis Christos

机构信息

Department of Clinical and Movement Neurosciences, Royal Free Campus, Institute of Neurology, University College London, London, UK.

Human Genome Sequencing Center, Baylor College of Medicine, Houston, Texas.

出版信息

Mol Genet Genomic Med. 2019 Mar;7(3):e564. doi: 10.1002/mgg3.564. Epub 2019 Jan 13.

DOI:10.1002/mgg3.564

PMID:30637984

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6418358/

Abstract

BACKGROUND

Mutations in GBA cause Gaucher disease when biallelic and are strong risk factors for Parkinson's disease when heterozygous. GBA analysis is complicated by the nearby pseudogene. We aimed to design and validate a method for sequencing GBA using long reads.

METHODS

We sequenced GBA on the Oxford Nanopore MinION as an 8.9 kb amplicon from 102 individuals, including patients with Parkinson's and Gaucher diseases. We used NanoOK for quality metrics, NGMLR to align data (after comparing with GraphMap), Nanopolish and Sniffles to call variants, and WhatsHap for phasing.

RESULTS

We detected all known missense mutations in these samples, including the common p.N409S (N370S) and p.L483P (L444P) in multiple samples, and nine rarer ones, as well as a splicing and a truncating mutation, and intronic SNPs. We demonstrated the ability to phase mutations, confirm compound heterozygosity, and assign haplotypes. We also detected two known risk variants in some Parkinson's patients. Rare false positives were easily identified and filtered, with the Nanopolish quality score adjusted for the number of reads a very robust discriminator. In two individuals carrying a recombinant allele, we were able to detect and fully define it in one carrier, where it included a 55-base pair deletion, but not in another one, suggesting a limitation of the PCR enrichment method. Missense mutations were detected at the correct zygosity, except for the case where the RecNciI one was missed.

CONCLUSION

The Oxford Nanopore MinION can detect missense mutations and an exonic deletion in this difficult gene, with the added advantages of phasing and intronic analysis. It can be used as an efficient research tool, but additional work is required to exclude all recombinants.

摘要

背景

GBA基因双等位突变时会导致戈谢病，杂合时则是帕金森病的强风险因素。由于附近存在假基因，GBA分析变得复杂。我们旨在设计并验证一种使用长读长对GBA进行测序的方法。

方法

我们在牛津纳米孔MinION上对102名个体（包括帕金森病和戈谢病患者）的8.9 kb扩增子进行了GBA测序。我们使用NanoOK进行质量评估，NGMLR进行数据比对（与GraphMap比较后），Nanopolish和Sniffles进行变异检测，WhatsHap进行定相。

结果

我们在这些样本中检测到了所有已知的错义突变，包括多个样本中常见的p.N409S（N370S）和p.L483P（L444P），以及9个罕见突变，还有一个剪接突变和一个截短突变，以及内含子单核苷酸多态性。我们展示了对突变进行定相、确认复合杂合性和确定单倍型的能力。我们还在一些帕金森病患者中检测到了两个已知的风险变异。罕见的假阳性很容易被识别和过滤，通过调整Nanopolish质量得分以适应读长数量，它是一个非常可靠的判别指标。在两名携带重组等位基因的个体中，我们能够在一名携带者中检测并完全确定它，其中包括一个55个碱基对的缺失，但在另一名携带者中未检测到，这表明PCR富集方法存在局限性。除了漏检RecNciI的情况外，错义突变在正确的纯合度下被检测到。

结论

牛津纳米孔MinION能够在这个困难的基因中检测到错义突变和一个外显子缺失，还具有定相和内含子分析的额外优势。它可以用作一种有效的研究工具，但需要额外工作来排除所有重组体。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0cd1/6418358/8ea08343deb1/MGG3-7-na-g001.jpg

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使用牛津纳米孔MinION评估GBA错义突变和其他变异的检测

Evaluation of the detection of GBA missense mutations and other variants using the Oxford Nanopore MinION.

作者信息

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出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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