通过从标记的混合DNA中进行靶向捕获和下一代测序对视网膜营养不良患者进行突变筛查。

Mutation screening of retinal dystrophy patients by targeted capture from tagged pooled DNAs and next generation sequencing.

作者信息

Watson Christopher M, El-Asrag Mohammed, Parry David A, Morgan Joanne E, Logan Clare V, Carr Ian M, Sheridan Eamonn, Charlton Ruth, Johnson Colin A, Taylor Graham, Toomes Carmel, McKibbin Martin, Inglehearn Chris F, Ali Manir

机构信息

Yorkshire Regional Genetics Service, St. James's University Hospital, Leeds, United Kingdom.

Section of Ophthalmology & Neuroscience, Leeds Institute of Biomedical & Clinical Sciences, University of Leeds, Leeds, United Kingdom.

出版信息

PLoS One. 2014 Aug 18;9(8):e104281. doi: 10.1371/journal.pone.0104281. eCollection 2014.

DOI:10.1371/journal.pone.0104281

PMID:25133751

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4136783/

Abstract

PURPOSE

Retinal dystrophies are genetically heterogeneous, resulting from mutations in over 200 genes. Prior to the development of massively parallel sequencing, comprehensive genetic screening was unobtainable for most patients. Identifying the causative genetic mutation facilitates genetic counselling, carrier testing and prenatal/pre-implantation diagnosis, and often leads to a clearer prognosis. In addition, in a proportion of cases, when the mutation is known treatment can be optimised and patients are eligible for enrolment into clinical trials for gene-specific therapies.

METHODS

Patient genomic DNA was sheared, tagged and pooled in batches of four samples, prior to targeted capture and next generation sequencing. The enrichment reagent was designed against genes listed on the RetNet database (July 2010). Sequence data were aligned to the human genome and variants were filtered to identify potential pathogenic mutations. These were confirmed by Sanger sequencing.

RESULTS

Molecular analysis of 20 DNAs from retinal dystrophy patients identified likely pathogenic mutations in 12 cases, many of them known and/or confirmed by segregation. These included previously described mutations in ABCA4 (c.6088C>T,p.R2030*; c.5882G>A,p.G1961E), BBS2 (c.1895G>C,p.R632P), GUCY2D (c.2512C>T,p.R838C), PROM1 (c.1117C>T,p.R373C), RDH12 (c.601T>C,p.C201R; c.506G>A,p.R169Q), RPGRIP1 (c.3565C>T,p.R1189*) and SPATA7 (c.253C>T,p.R85*) and new mutations in ABCA4 (c.3328+1G>C), CRB1 (c.2832_2842+23del), RP2 (c.884-1G>T) and USH2A (c.12874A>G,p.N4292D).

CONCLUSIONS

Tagging and pooling DNA prior to targeted capture of known retinal dystrophy genes identified mutations in 60% of cases. This relatively high success rate may reflect enrichment for consanguineous cases in the local Yorkshire population, and the use of multiplex families. Nevertheless this is a promising high throughput approach to retinal dystrophy diagnostics.

摘要

目的

视网膜营养不良具有遗传异质性，由200多个基因的突变引起。在大规模平行测序技术发展之前，大多数患者无法进行全面的基因筛查。确定致病基因突变有助于遗传咨询、携带者检测和产前/植入前诊断，并且通常能得出更明确的预后。此外，在一部分病例中，当突变已知时，可以优化治疗，患者有资格参加针对特定基因疗法的临床试验。

方法

在进行靶向捕获和下一代测序之前，将患者基因组DNA进行剪切、标记并按四个样本一批进行混合。富集试剂是针对RetNet数据库（2010年7月）中列出的基因设计的。序列数据与人类基因组进行比对，并对变异进行筛选以识别潜在的致病突变。这些突变通过桑格测序进行确认。

结果

对20例视网膜营养不良患者的DNA进行分子分析，在12例中鉴定出可能的致病突变，其中许多通过分离分析已知和/或得到确认。这些突变包括先前描述的ABCA4（c.6088C>T，p.R2030*；c.5882G>A，p.G1961E）、BBS2（c.1895G>C，p.R632P）、GUCY2D（c.2512C>T，p.R838C）、PROM1（c.1117C>T，p.R373C）、RDH12（c.601T>C，p.C201R；c.506G>A，p.R169Q）、RPGRIP1（c.3565C>T，p.R1189*）和SPATA7（c.253C>T，p.R85*）的突变，以及ABCA4（c.3328+1G>C）、CRB1（c.2832_2842+23del）、RP2（c.884-1G>T）和USH2A（c.12874A>G，p.N4292D）的新突变。

结论

在对已知的视网膜营养不良基因进行靶向捕获之前对DNA进行标记和混合，在60%的病例中鉴定出了突变。这种相对较高的成功率可能反映了约克郡当地人群中近亲结婚病例的富集以及多重家庭的使用。尽管如此，这是一种有前途的用于视网膜营养不良诊断的高通量方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4b31/4136783/1c76ec4417ca/pone.0104281.g001.jpg

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通过从标记的混合DNA中进行靶向捕获和下一代测序对视网膜营养不良患者进行突变筛查。

Mutation screening of retinal dystrophy patients by targeted capture from tagged pooled DNAs and next generation sequencing.

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