GAP-Seq：一种识别DNA回文序列的方法。

GAP-Seq: a method for identification of DNA palindromes.

作者信息

Yang Hui, Volfovsky Natalia, Rattray Alison, Chen Xiongfong, Tanaka Hisashi, Strathern Jeffrey

机构信息

Gene Regulation and Chromosome Biology Laboratory, Frederick National Laboratory for Cancer Research, Cancer Research and Development Center, Frederick, MD 21702, USA.

出版信息

BMC Genomics. 2014 May 22;15(1):394. doi: 10.1186/1471-2164-15-394.

DOI:10.1186/1471-2164-15-394

PMID:24885769

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4057610/

Abstract

BACKGROUND

Closely spaced long inverted repeats, also known as DNA palindromes, can undergo intrastrand annealing to form DNA hairpins. The ability to form these hairpins results in genome instability, difficulties in maintaining clones in Escherichia coli and major problems for most DNA sequencing approaches. Because of their role in genomic instability and gene amplification in some human cancers, it is important to develop systematic approaches to detect and characterize DNA palindromes.

RESULTS

We developed a new protocol to identify palindromes that couples the S1 nuclease treated Cot0 DNA (GAPF) with high-throughput sequencing (GAP-Seq). Unlike earlier protocols, it does not involve restriction enzymatic digestion prior to DNA snap-back thereby preserving longer DNA sequences. It also indicates the location of the novel junction, which can then be recovered. Using MCF-7 breast cancer cell line as the proof-of-principle analysis, we have identified 35 palindrome candidates and physically characterized the top 5 candidates and their junctions. Because this protocol eliminates many of the false positives that plague earlier techniques, we have improved palindrome identification.

CONCLUSIONS

The GAP-Seq approach underscores the importance of developing new tools for identifying and characterizing palindromes, and provides a new strategy to systematically assess palindromes in genomes. It will be useful for studying human cancers and other diseases associated with palindromes.

摘要

背景

紧密间隔的长反向重复序列，也称为DNA回文序列，可进行链内退火以形成DNA发夹结构。形成这些发夹结构的能力会导致基因组不稳定、在大肠杆菌中维持克隆存在困难以及对大多数DNA测序方法造成重大问题。由于它们在某些人类癌症的基因组不稳定和基因扩增中所起的作用，开发系统的方法来检测和表征DNA回文序列非常重要。

结果

我们开发了一种新的方案来鉴定回文序列，该方案将S1核酸酶处理的Cot0 DNA（GAPF）与高通量测序（GAP-Seq）相结合。与早期方案不同，它在DNA快速复性之前不涉及限制性酶切消化，从而保留了更长的DNA序列。它还能指示新连接点的位置，然后可以回收该连接点。使用MCF-7乳腺癌细胞系进行原理验证分析，我们鉴定出35个回文序列候选物，并对排名前5的候选物及其连接点进行了物理表征。由于该方案消除了困扰早期技术的许多假阳性结果，我们改进了回文序列的鉴定。

结论

GAP-Seq方法强调了开发用于鉴定和表征回文序列的新工具的重要性，并提供了一种系统评估基因组中回文序列的新策略。它将有助于研究人类癌症和其他与回文序列相关的疾病。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/14f6/4057610/7ed7003d3e9e/12864_2013_6105_Fig1_HTML.jpg

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GAP-Seq：一种识别DNA回文序列的方法。

GAP-Seq: a method for identification of DNA palindromes.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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