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基因组特征标签(GSTs):一种用于分析基因组DNA的系统。

Genomic signature tags (GSTs): a system for profiling genomic DNA.

作者信息

Dunn John J, McCorkle Sean R, Praissman Laura A, Hind Geoffrey, Van Der Lelie Daniel, Bahou Wadie F, Gnatenko Dmitri V, Krause Maureen K

机构信息

Biology Department, Brookhaven National Laboratory, Upton, New York 11973, USA.

出版信息

Genome Res. 2002 Nov;12(11):1756-65. doi: 10.1101/gr.306102.

DOI:10.1101/gr.306102
PMID:12421763
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC187557/
Abstract

Genomic signature tags (GSTs) are the products of a method we have developed for identifying and quantitatively analyzing genomic DNAs. The DNA is initially fragmented with a type II restriction enzyme. An oligonucleotide adaptor containing a recognition site for MmeI, a type IIS restriction enzyme, is then used to release 21-bp tags from fixed positions in the DNA relative to the sites recognized by the fragmenting enzyme. These tags are PCR-amplified, purified, concatenated, and then cloned and sequenced. The tag sequences and abundances are used to create a high-resolution GST sequence profile of the genomic DNA. GSTs are shown to be long enough for use as oligonucleotide primers to amplify adjacent segments of the DNA, which can then be sequenced to provide additional nucleotide information or used as probes to identify specific clones in metagenomic libraries. GST analysis of the 4.7-Mb Yersinia pestis EV766 genome using BamHI as the fragmenting enzyme and NlaIII as the tagging enzyme validated the precision of our approach. The GST profile predicts that this strain has several changes relative to the archetype CO92 strain, including deletion of a 57-kb region of the chromosome known to be an unstable pathogenicity island.

摘要

基因组特征标签(GSTs)是我们开发的一种用于识别和定量分析基因组DNA的方法的产物。DNA首先用II型限制性内切酶进行片段化。然后使用一种含有MmeI(一种IIS型限制性内切酶)识别位点的寡核苷酸接头,从相对于片段化酶识别位点的DNA固定位置释放21个碱基对的标签。这些标签经过PCR扩增、纯化、连接,然后进行克隆和测序。标签序列和丰度用于创建基因组DNA的高分辨率GST序列图谱。结果表明,GSTs足够长,可以用作寡核苷酸引物来扩增DNA的相邻片段,然后对这些片段进行测序以提供额外的核苷酸信息,或用作探针来鉴定宏基因组文库中的特定克隆。使用BamHI作为片段化酶和NlaIII作为标签酶对4.7兆碱基的鼠疫耶尔森菌EV766基因组进行GST分析,验证了我们方法的准确性。GST图谱预测,该菌株相对于原型CO92菌株有几个变化,包括已知为不稳定致病岛的染色体上一个57千碱基区域的缺失。

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