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本文引用的文献

1
Mitochondrial disorders as windows into an ancient organelle.线粒体疾病:揭示古老细胞器的窗口
Nature. 2012 Nov 15;491(7424):374-83. doi: 10.1038/nature11707.
2
Molecular diagnosis in mitochondrial complex I deficiency using exome sequencing.使用外显子组测序进行线粒体复合物 I 缺陷的分子诊断。
J Med Genet. 2012 Apr;49(4):277-83. doi: 10.1136/jmedgenet-2012-100846.
3
Next-generation sequencing for mitochondrial diseases: a wide diagnostic spectrum.线粒体疾病的下一代测序:广泛的诊断范围
Pediatr Int. 2012 Oct;54(5):585-601. doi: 10.1111/j.1442-200X.2012.03644.x. Epub 2012 Jul 10.
4
Leukoencephalopathy with thalamus and brainstem involvement and high lactate 'LTBL' caused by EARS2 mutations.伴有丘脑和脑干受累及高乳酸性的脑白质病“LTBL”,由 EARS2 突变引起。
Brain. 2012 May;135(Pt 5):1387-94. doi: 10.1093/brain/aws070. Epub 2012 Apr 4.
5
Monogenic mitochondrial disorders.单基因线粒体疾病
N Engl J Med. 2012 Mar 22;366(12):1132-41. doi: 10.1056/NEJMra1012478.
6
Lack of the mitochondrial protein acylglycerol kinase causes Sengers syndrome.酰基甘油激酶缺乏导致 Sengers 综合征。
Am J Hum Genet. 2012 Feb 10;90(2):314-20. doi: 10.1016/j.ajhg.2011.12.005. Epub 2012 Jan 26.
7
Molecular diagnosis of infantile mitochondrial disease with targeted next-generation sequencing.采用靶向下一代测序的婴儿线粒体疾病的分子诊断。
Sci Transl Med. 2012 Jan 25;4(118):118ra10. doi: 10.1126/scitranslmed.3003310.
8
Atypical case of Wolfram syndrome revealed through targeted exome sequencing in a patient with suspected mitochondrial disease.通过对疑似线粒体疾病患者进行靶向外显子组测序发现 Wolfram 综合征的非典型病例。
BMC Med Genet. 2012 Jan 6;13:3. doi: 10.1186/1471-2350-13-3.
9
A p.R369G POLG2 mutation associated with adPEO and multiple mtDNA deletions causes decreased affinity between polymerase γ subunits.与 adPEO 和多种 mtDNA 缺失相关的 p.R369G POLG2 突变导致聚合酶 γ 亚基之间的亲和力降低。
Mitochondrion. 2012 Mar;12(2):313-9. doi: 10.1016/j.mito.2011.11.006. Epub 2011 Dec 4.
10
Mutations in MTFMT underlie a human disorder of formylation causing impaired mitochondrial translation.MTFMT 中的突变导致了一种影响线粒体翻译的人类形式化障碍疾病。
Cell Metab. 2011 Sep 7;14(3):428-34. doi: 10.1016/j.cmet.2011.07.010.

疑似线粒体疾病的靶向外显子组测序。

Targeted exome sequencing of suspected mitochondrial disorders.

机构信息

Department of Molecular Biology, Massachusetts General Hospital, Boston, MA, USA.

出版信息

Neurology. 2013 May 7;80(19):1762-70. doi: 10.1212/WNL.0b013e3182918c40. Epub 2013 Apr 17.

DOI:10.1212/WNL.0b013e3182918c40
PMID:23596069
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3719425/
Abstract

OBJECTIVE

To evaluate the utility of targeted exome sequencing for the molecular diagnosis of mitochondrial disorders, which exhibit marked phenotypic and genetic heterogeneity.

METHODS

We considered a diverse set of 102 patients with suspected mitochondrial disorders based on clinical, biochemical, and/or molecular findings, and whose disease ranged from mild to severe, with varying age at onset. We sequenced the mitochondrial genome (mtDNA) and the exons of 1,598 nuclear-encoded genes implicated in mitochondrial biology, mitochondrial disease, or monogenic disorders with phenotypic overlap. We prioritized variants likely to underlie disease and established molecular diagnoses in accordance with current clinical genetic guidelines.

RESULTS

Targeted exome sequencing yielded molecular diagnoses in established disease loci in 22% of cases, including 17 of 18 (94%) with prior molecular diagnoses and 5 of 84 (6%) without. The 5 new diagnoses implicated 2 genes associated with canonical mitochondrial disorders (NDUFV1, POLG2), and 3 genes known to underlie other neurologic disorders (DPYD, KARS, WFS1), underscoring the phenotypic and biochemical overlap with other inborn errors. We prioritized variants in an additional 26 patients, including recessive, X-linked, and mtDNA variants that were enriched 2-fold over background and await further support of pathogenicity. In one case, we modeled patient mutations in yeast to provide evidence that recessive mutations in ATP5A1 can underlie combined respiratory chain deficiency.

CONCLUSION

The results demonstrate that targeted exome sequencing is an effective alternative to the sequential testing of mtDNA and individual nuclear genes as part of the investigation of mitochondrial disease. Our study underscores the ongoing challenge of variant interpretation in the clinical setting.

摘要

目的

评估靶向外显子组测序在具有明显表型和遗传异质性的线粒体疾病的分子诊断中的效用。

方法

我们根据临床、生化和/或分子发现,考虑了 102 名疑似线粒体疾病的患者,其疾病从轻度到重度不等,发病年龄不同。我们对线粒体基因组(mtDNA)和 1598 个核编码基因的外显子进行了测序,这些基因与线粒体生物学、线粒体疾病或具有表型重叠的单基因疾病有关。我们优先考虑可能导致疾病的变异,并根据当前的临床遗传指南建立分子诊断。

结果

靶向外显子组测序在 22%的病例中确定了已建立的疾病基因座的分子诊断,包括 18 例中的 17 例(94%)有先前的分子诊断,84 例中的 5 例(6%)无。5 例新诊断涉及 2 个与经典线粒体疾病相关的基因(NDUFV1、POLG2)和 3 个已知与其他神经疾病相关的基因(DPYD、KARS、WFS1),突显出与其他先天性错误的表型和生化重叠。我们对另外 26 名患者进行了优先排序,包括隐性、X 连锁和 mtDNA 变异,这些变异比背景富集了 2 倍,有待进一步证实其致病性。在一个病例中,我们在酵母中模拟了患者的突变,提供了证据表明 ATP5A1 的隐性突变可能导致呼吸链缺陷的综合缺陷。

结论

结果表明,靶向外显子组测序是一种有效的替代方法,可以替代 mtDNA 和个体核基因的顺序测试,作为线粒体疾病研究的一部分。我们的研究强调了在临床环境中变异解释的持续挑战。