表达基因组杂交:细胞遗传学水平上的基因表达谱。

Molecular pathology : MP Pub Date : 2003-08-01 DOI:10.1136/mp.56.4.210

F Al-Mulla, M Al-Maghrebi, G Varadharaj

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引用次数: 6

摘要

目的:描述一种基于比较基因组杂交(CGH)的细胞遗传学技术，用于快速评估全局基因表达，并利用它来了解基因扩增与基因表达之间的关系。方法:传统的基因组杂交使用DNA作为测试和参考，而表达性基因组杂交(EGH)使用全局扩增的mRNA作为测试和正常DNA作为参考。EGH是一种快速而强大的工具，用于定位和研究全球基因表达谱，并将其与传统CGH的基因扩增位点相关联。结果:EGH将CGH检测到的基因扩增与两个独立细胞系col320和T47D的表达谱相关联。虽然许多扩增导致过表达，但其他扩增在细胞遗传学水平上部分或完全沉默。结论:该技术有助于扩增子内过表达基因的分析，解决了肿瘤细胞遗传学中一个有争议的问题;即基因扩增与过表达之间的关系。

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Expressive genomic hybridisation: gene expression profiling at the cytogenetic level.

Aims: To describe a cytogenetic technique suitable for the rapid assessment of global gene expression that is based on comparative genomic hybridisation (CGH), and to use it to understand the relation between genetic amplifications and gene expression.

Methods: Whereas traditional CGH uses DNA as test and reference in hybridisations, expressive genomic hybridisation (EGH) uses globally amplified mRNA as test and normal DNA as reference. EGH is a rapid and powerful tool for localising and studying global gene expression profiles and correlating them with loci of genetic amplifications using traditional CGH.

Results: EGH was used to correlate genetic amplifications detected by CGH with the expression profile of two independent cell lines-Colo320 and T47D. Although many amplifications resulted in overexpression, other amplifications were partially or completely silenced at the cytogenetic level.

Conclusion: This technique will assist in the analysis of overexpressed genes within amplicons and could resolve a controversial issue in cancer cytogenetics; namely, the relation between genetic amplifications and overexpression.

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Molecular pathology : MP

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