通过比较两个先前测序的细菌基因组对比较基因组测序（CGS）进行评估。

An evaluation of Comparative Genome Sequencing (CGS) by comparing two previously-sequenced bacterial genomes.

作者信息

Herring Christopher D, Palsson Bernhard Ø

机构信息

Department of Bioengineering, University of California San Diego, La Jolla, USA.

出版信息

BMC Genomics. 2007 Aug 14;8:274. doi: 10.1186/1471-2164-8-274.

DOI:10.1186/1471-2164-8-274

PMID:17697331

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2072959/

Abstract

BACKGROUND

With the development of new technology, it has recently become practical to resequence the genome of a bacterium after experimental manipulation. It is critical though to know the accuracy of the technique used, and to establish confidence that all of the mutations were detected.

RESULTS

In order to evaluate the accuracy of genome resequencing using the microarray-based Comparative Genome Sequencing service provided by Nimblegen Systems Inc., we resequenced the E. coli strain W3110 Kohara using MG1655 as a reference, both of which have been completely sequenced using traditional sequencing methods. CGS detected 7 of 8 small sequence differences, one large deletion, and 9 of 12 IS element insertions present in W3110, but did not detect a large chromosomal inversion. In addition, we confirmed that CGS also detected 2 SNPs, one deletion and 7 IS element insertions that are not present in the genome sequence, which we attribute to changes that occurred after the creation of the W3110 lambda clone library. The false positive rate for SNPs was one per 244 Kb of genome sequence.

CONCLUSION

CGS is an effective way to detect multiple mutations present in one bacterium relative to another, and while highly cost-effective, is prone to certain errors. Mutations occurring in repeated sequences or in sequences with a high degree of secondary structure may go undetected. It is also critical to follow up on regions of interest in which SNPs were not called because they often indicate deletions or IS element insertions.

摘要

背景

随着新技术的发展，最近在实验操作后对细菌基因组进行重测序已成为现实。然而，了解所使用技术的准确性并确信检测到所有突变至关重要。

结果

为了评估使用Nimblegen Systems公司提供的基于微阵列的比较基因组测序服务进行基因组重测序的准确性，我们以MG1655为参考对大肠杆菌W3110 Kohara菌株进行了重测序，这两个菌株均已使用传统测序方法完成了全基因组测序。比较基因组测序检测到了W3110中8个小序列差异中的7个、1个大缺失以及12个插入序列元件中的9个，但未检测到一个大的染色体倒位。此外，我们证实比较基因组测序还检测到了基因组序列中不存在的2个单核苷酸多态性、1个缺失和7个插入序列元件，我们将其归因于W3110 λ克隆文库构建后发生的变化。单核苷酸多态性的假阳性率为每244 kb基因组序列出现1个。

结论

比较基因组测序是检测一种细菌相对于另一种细菌存在的多个突变的有效方法，虽然成本效益高，但容易出现某些错误。在重复序列或具有高度二级结构的序列中发生的突变可能未被检测到。对未检测到单核苷酸多态性的感兴趣区域进行跟进也很关键，因为它们通常表明存在缺失或插入序列元件。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f059/2072959/be685d206c44/1471-2164-8-274-1.jpg

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通过比较两个先前测序的细菌基因组对比较基因组测序（CGS）进行评估。

An evaluation of Comparative Genome Sequencing (CGS) by comparing two previously-sequenced bacterial genomes.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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