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The use of ultra-dense array CGH analysis for the discovery of micro-copy number alterations and gene fusions in the cancer genome

机译：超密集阵列CGH分析在癌症基因组中发现微观拷贝数改变和基因融合的发现

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BackgroundMolecular alterations critical to development of cancer include mutations, copy number alterations (amplifications and deletions) as well as genomic rearrangements resulting in gene fusions. Massively parallel next generation sequencing, which enables the discovery of such changes, uses considerable quantities of genomic DNA (> 5 ug), a serious limitation in ever smaller clinical samples. However, a commonly available microarray platforms such as array comparative genomic hybridization (array CGH) allows the characterization of gene copy number at a single gene resolution using much smaller amounts of genomic DNA. In this study we evaluate the sensitivity of ultra-dense array CGH platforms developed by Agilent, especially that of the 1 million probe array (1 M array), and their application when whole genome amplification is required because of limited sample quantities.

机译：背景技术对癌症发展至关重要的分子变化包括突变，拷贝数变化（扩增和缺失）以及导致基因融合的基因组重排。大规模并行的下一代测序（可发现此类变化）使用了大量的基因组DNA（> 5 ug），这在越来越小的临床样本中是一个严重的局限。然而，诸如阵列比较基因组杂交（阵列CGH）之类的普遍可用的微阵列平台允许使用数量少得多的基因组DNA以单个基因分辨率表征基因拷贝数。在这项研究中，我们评估了安捷伦开发的超致密阵列CGH平台的灵敏度，尤其是100万个探针阵列（1 M阵列）的灵敏度，以及由于样品数量有限而需要全基因组扩增时它们的应用。

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期刊名称 BMC Medical Genomics
作者
Ewa Przybytkowski; Cristiano Ferrario; Mark Basik;
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年(卷),期 2011(4),-1
年度 2011
页码 16
总页数 13
原文格式 PDF
正文语种
中图分类遗传学;
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专利

1. The use of ultra-dense array CGH analysis for the discovery of micro-copy number alterations and gene fusions in the cancer genome [J] . Ewa Przybytkowski, Cristiano Ferrario, Mark Basik BMC Medical Genomics . 2011,第1期

机译：超密集阵列CGH分析在癌症基因组中发现显微数变化和基因融合的发现
2. Tumor Genome Wide DNA Alterations Assessed by Array CGH in Patients with Poor and Excellent Survival Following Operation for Colorectal Cancer [J] . Kristina K. Lagerstedt, Johan Staaf, G?ran J?nsson, Cancer Informatics . 2007,第1期

机译：阵列CGH评估大肠癌术后不良和良好生存率的肿瘤全基因组DNA改变
3. Significance of Genome-Wide Analysis of Copy Number Alterations and UPD in Myelodysplastic Syndromes using Combined CGH - SNP Arrays. [J] . Ausaf Ahmad, M Anwar Iqbal Current medicinal chemistry . 2012,第22期

机译：使用组合CGH-SNP阵列进行全基因组增生异常综合征中拷贝数变化和UPD基因组分析的意义。
4. Combination of gene expression and genome copy number alteration has a prognostic value for breast cancer [C] . Cava, C., Zoppis, I., Mauri, G., Annual Conference of Japanese Society for Medical and Biological Engineering;Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2013

机译：基因表达和基因组拷贝数改变的结合对乳腺癌有预后价值
5. Optical mapping reveals gene rearrangements and high-resolution structural alterations in breast cancer genomes. [D] . Herschleb, Jill Lynden. 2009

机译：光学作图揭示了乳腺癌基因组中的基因重排和高分辨率结构改变。
6. Ultra dense array CGH and discovery of micro-copy number alterations and gene fusions in cancer genome [O] . Ewa Przybytkowski, Adrianan Aguilar-Mahecha, Sheida Nabavi, -1

机译：超密集阵列CGH和癌症基因组中微拷贝数改变和基因融合的发现
7. The use of ultra-dense array CGH analysis for the discovery of micro-copy number alterations and gene fusions in the cancer genome [O] . Ewa Przybytkowski, Cristiano Ferrario, Mark Basik 2011

机译：超密集阵列CGH分析在癌症基因组中发现微观拷贝数改变和基因融合的发现
8. Discovery of Metastatic Breast Cancer Suppressor Genes Using Functional Genome Analysis. [R] . Wang, X. 2012

机译：利用功能基因组分析发现转移性乳腺癌抑制基因。

The use of ultra-dense array CGH analysis for the discovery of micro-copy number alterations and gene fusions in the cancer genome

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