光学图谱可识别全基因组范围的DNA甲基化图谱。

Optical mapping discerns genome wide DNA methylation profiles.

作者信息

Ananiev Gene E, Goldstein Steve, Runnheim Rod, Forrest Dan K, Zhou Shiguo, Potamousis Konstantinos, Churas Chris P, Bergendahl Veit, Thomson James A, Schwartz David C

机构信息

Department of Chemistry, Laboratory for Molecular and Computational Genomics, University of Wisconsin Biotechnology Center, University of Wisconsin-Madison, Madison, WI 53706, USA.

出版信息

BMC Mol Biol. 2008 Jul 30;9:68. doi: 10.1186/1471-2199-9-68.

DOI:10.1186/1471-2199-9-68

PMID:18667073

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2516518/

Abstract

BACKGROUND

Methylation of CpG dinucleotides is a fundamental mechanism of epigenetic regulation in eukaryotic genomes. Development of methods for rapid genome wide methylation profiling will greatly facilitate both hypothesis and discovery driven research in the field of epigenetics. In this regard, a single molecule approach to methylation profiling offers several unique advantages that include elimination of chemical DNA modification steps and PCR amplification.

RESULTS

A single molecule approach is presented for the discernment of methylation profiles, based on optical mapping. We report results from a series of pilot studies demonstrating the capabilities of optical mapping as a platform for methylation profiling of whole genomes. Optical mapping was used to discern the methylation profile from both an engineered and wild type Escherichia coli. Furthermore, the methylation status of selected loci within the genome of human embryonic stem cells was profiled using optical mapping.

CONCLUSION

The optical mapping platform effectively detects DNA methylation patterns. Due to single molecule detection, optical mapping offers significant advantages over other technologies. This advantage stems from obviation of DNA modification steps, such as bisulfite treatment, and the ability of the platform to assay repeat dense regions within mammalian genomes inaccessible to techniques using array-hybridization technologies.

摘要

背景

CpG 二核苷酸的甲基化是真核生物基因组表观遗传调控的基本机制。快速全基因组甲基化谱分析方法的发展将极大地促进表观遗传学领域基于假设和发现驱动的研究。在这方面，单分子甲基化谱分析方法具有几个独特的优势，包括消除化学 DNA 修饰步骤和 PCR 扩增。

结果

提出了一种基于光学图谱的单分子甲基化谱分析方法。我们报告了一系列初步研究的结果，证明了光学图谱作为全基因组甲基化谱分析平台的能力。光学图谱被用于识别工程化大肠杆菌和野生型大肠杆菌的甲基化谱。此外，利用光学图谱对人类胚胎干细胞基因组内选定基因座的甲基化状态进行了分析。

结论

光学图谱平台能有效检测 DNA 甲基化模式。由于采用单分子检测，光学图谱相对于其他技术具有显著优势。这一优势源于无需进行亚硫酸氢盐处理等 DNA 修饰步骤，以及该平台能够检测使用阵列杂交技术无法检测的哺乳动物基因组中富含重复序列的区域。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/00b0/2516518/1a5132a52691/1471-2199-9-68-1.jpg

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光学图谱可识别全基因组范围的DNA甲基化图谱。

Optical mapping discerns genome wide DNA methylation profiles.

作者信息

Ananiev Gene E, Goldstein Steve, Runnheim Rod, Forrest Dan K, Zhou Shiguo, Potamousis Konstantinos, Churas Chris P, Bergendahl Veit, Thomson James A, Schwartz David C

机构信息

Department of Chemistry, Laboratory for Molecular and Computational Genomics, University of Wisconsin Biotechnology Center, University of Wisconsin-Madison, Madison, WI 53706, USA.