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Sultan Qaboos Univ Med J. 2013 Feb;13(1):69-79. doi: 10.12816/0003198. Epub 2013 Feb 27.
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An Extended Targeted Copy Number Variation Detection Array Including 187 Genes for the Diagnostics of Neuromuscular Disorders.一种扩展的靶向拷贝数变异检测阵列,包含 187 个基因,用于神经肌肉疾病的诊断。
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Custom oligonucleotide array-based CGH: a reliable diagnostic tool for detection of exonic copy-number changes in multiple targeted genes.定制寡核苷酸微阵列 CGH:一种可靠的检测多个靶向基因中外显子拷贝数变化的诊断工具。
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Multiplex Amplifiable Probe Hybridization (MAPH) methodology as an alternative to comparative genomic hybridization (CGH).多重可扩增探针杂交(MAPH)方法作为比较基因组杂交(CGH)的替代方法。
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Gene Dosage Analysis in a Clinical Environment: Gene-Targeted Microarrays as the Platform-of-Choice.临床环境中的基因剂量分析:以基因靶向微阵列作为首选平台
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Array comparative genomic hybridization identifies a heterozygous deletion of exon 3 of the RYR2 gene.阵列比较基因组杂交鉴定出RYR2基因外显子3的杂合缺失。
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A Streamlined Protocol for Molecular Testing of the DMD Gene within a Diagnostic Laboratory: A Combination of Array Comparative Genomic Hybridization and Bidirectional Sequence Analysis.诊断实验室内DMD基因分子检测的简化方案:阵列比较基因组杂交与双向序列分析相结合
ISRN Neurol. 2013;2013:908317. doi: 10.1155/2013/908317. Epub 2013 Feb 7.

本文引用的文献

1
Automation of a primer design and evaluation pipeline for subsequent sequencing of the coding regions of all human Refseq genes.用于对所有人类Refseq基因编码区进行后续测序的引物设计与评估流程的自动化。
Bioinformation. 2012;8(8):365-8. doi: 10.6026/97320630008365. Epub 2012 Apr 30.
2
Motor chip: a comparative genomic hybridization microarray for copy-number mutations in 245 neuromuscular disorders.电机芯片:245 种神经肌肉疾病中拷贝数突变的比较基因组杂交微阵列。
Clin Chem. 2011 Nov;57(11):1584-96. doi: 10.1373/clinchem.2011.168898. Epub 2011 Sep 6.
3
Utilization of targeted array comparative genomic hybridization, MitoMet, in prenatal diagnosis of metabolic disorders.应用靶向阵列比较基因组杂交技术(MitoMet)进行产前代谢疾病诊断。
Mol Genet Metab. 2011 Jun;103(2):148-52. doi: 10.1016/j.ymgme.2011.03.003. Epub 2011 Mar 10.
4
Array-based technology and recommendations for utilization in medical genetics practice for detection of chromosomal abnormalities.基于阵列的技术及其在医学遗传学实践中用于检测染色体异常的应用建议。
Genet Med. 2010 Nov;12(11):742-5. doi: 10.1097/GIM.0b013e3181f8baad.
5
Multiplex Ligation-dependent Probe Amplification (MLPA®) for the detection of copy number variation in genomic sequences.用于检测基因组序列拷贝数变异的多重连接依赖探针扩增技术(MLPA®)
Methods Mol Biol. 2011;688:97-126. doi: 10.1007/978-1-60761-947-5_8.
6
Consensus statement: chromosomal microarray is a first-tier clinical diagnostic test for individuals with developmental disabilities or congenital anomalies.共识声明:对于患有发育障碍或先天畸形的个体,染色体微阵列是一线临床诊断测试。
Am J Hum Genet. 2010 May 14;86(5):749-64. doi: 10.1016/j.ajhg.2010.04.006.
7
Copy number variants at Williams-Beuren syndrome 7q11.23 region.威廉姆斯-贝伦综合征 7q11.23 区域的拷贝数变异。
Hum Genet. 2010 Jul;128(1):3-26. doi: 10.1007/s00439-010-0827-2. Epub 2010 May 1.
8
The Human Gene Mutation Database: 2008 update.人类基因突变数据库:2008 年更新。
Genome Med. 2009 Jan 22;1(1):13. doi: 10.1186/gm13.
9
Identification of large gene deletions and duplications in KCNQ1 and KCNH2 in patients with long QT syndrome.长QT综合征患者中KCNQ1和KCNH2基因大片段缺失和重复的鉴定。
Heart Rhythm. 2008 Sep;5(9):1275-81. doi: 10.1016/j.hrthm.2008.05.033. Epub 2008 Jun 4.
10
Molecular diagnosis of Duchenne/Becker muscular dystrophy: enhanced detection of dystrophin gene rearrangements by oligonucleotide array-comparative genomic hybridization.杜兴/贝克型肌营养不良症的分子诊断:通过寡核苷酸阵列比较基因组杂交增强对肌营养不良蛋白基因重排的检测
Hum Mutat. 2008 Sep;29(9):1100-7. doi: 10.1002/humu.20841.

基于芯片技术在诊断环境中识别拷贝数变化:同时进行基因靶向和低分辨率全人类基因组分析。

Array-based Identification of Copy Number Changes in a Diagnostic Setting: Simultaneous gene-focused and low resolution whole human genome analysis.

作者信息

Marquis-Nicholson Renate, Doherty Elaine, Love Jennifer M, Lan Chuan-Ching, George Alice M, Thrush Anthony, Love Donald R

机构信息

Diagnostic Genetics, LabPLUS, Auckland City Hospital, Auckland, New Zealand;

出版信息

Sultan Qaboos Univ Med J. 2013 Feb;13(1):69-79. doi: 10.12816/0003198. Epub 2013 Feb 27.

DOI:10.12816/0003198
PMID:23573385
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3616803/
Abstract

OBJECTIVES

The aim of this study was to develop and validate a comparative genomic hybridisation (CGH) array that would allow simultaneous targeted analysis of a panel of disease genes and low resolution whole genome analysis.

METHODS

A bespoke Roche NimbleGen 12x135K CGH array (Roche NimbleGen Inc., Madison, Wisconsin, USA) was designed to interrogate the coding regions of 66 genes of interest, with additional widely-spaced backbone probes providing coverage across the whole genome. We analysed genomic deoxyribonucleic acid (DNA) from 20 patients with a range of previously characterised copy number changes and from 8 patients who had not previously undergone any form of dosage analysis.

RESULTS

The custom-designed Roche NimbleGen CGH array was able to detect known copy number changes in all 20 patients. A molecular diagnosis was also made for one of the additional 4 patients with a clinical diagnosis that had not been confirmed by sequence analysis, and carrier testing for familial copy number variants was successfully completed for the remaining four patients.

CONCLUSION

The custom-designed CGH array described here is ideally suited for use in a small diagnostic laboratory. The method is robust, accurate, and cost-effective, and offers an ideal alternative to more conventional targeted assays such as multiplex ligation-dependent probe amplification.

摘要

目的

本研究旨在开发并验证一种比较基因组杂交(CGH)芯片,该芯片能够同时对一组疾病基因进行靶向分析以及进行低分辨率全基因组分析。

方法

定制了一款罗氏NimbleGen 12x135K CGH芯片(罗氏NimbleGen公司,美国威斯康星州麦迪逊),用于检测66个感兴趣基因的编码区,另外还设置了间距较大的骨架探针以覆盖整个基因组。我们分析了20例先前已确定存在多种拷贝数变化的患者以及8例先前未进行过任何形式剂量分析的患者的基因组脱氧核糖核酸(DNA)。

结果

定制设计的罗氏NimbleGen CGH芯片能够检测出所有20例患者已知的拷贝数变化。对于另外4例临床诊断未通过序列分析得到确认的患者中的1例,也做出了分子诊断,并且成功完成了其余4例患者家族性拷贝数变异的携带者检测。

结论

本文所述的定制设计的CGH芯片非常适合在小型诊断实验室中使用。该方法稳健、准确且具有成本效益,为诸如多重连接依赖探针扩增等更传统的靶向检测提供了理想的替代方案。