Targeted Exome Sequencing Outcome Variations of Colorectal Tumors within and across Two Sequencing Platforms.

Next generation, sequencing & applications Pub Date : 2016-06-01 Epub Date: 2016-03-14 DOI:10.4172/2469-9853.1000123

Hassan Ashktorab, Hamed Azimi, Michael L Nickerson, Sara Bass, Sudhir Varma, Hassan Brim

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引用次数: 11

Abstract

Background and aim: Next generation sequencing (NGS) has quickly the tool of choice for genome and exome data generation. The multitude of sequencing platforms as well as the variabilities within each platform need to be assessed. In this paper we used two platforms (ION TORRENT AND ILLUMINA) to assess single nucleotides variants in colorectal cancer (CRC) specimens.

Methods: CRC specimens (n = 13) collected from 6 CRC (cancer and matched normal) patients were used to establish the mutational profile using ION TORRENT AND ILLUMINA sequencing platforms. We analyzed a set of samples from Formalin Fixed Paraffin Embedded and FF (FF) samples on both platforms to assess the effect of sample nature (FFPE vs. FF) on sequencing outcome and to evaluate the similarity/differences of SNVs across the two platforms. In addition, duplicates of FF samples were sequenced on each platform to assess variability within platform.

Results: The comparison of FF replicates to each other gave a concordance of 77% (± 15.3%) in Ion Torrent and 70% (± 3.7%) in Illumina. FFPE vs. FF replicates gave a concordance of 40% (± 32%) in Ion Torrent and 49% (± 19%) in Illumina. For the cross platform concordance were FFPE compared to FF (Average of 75% (± 9.8%) for FFPE samples and 67% (± 32%) for FF and 70% (± 26.8%) overall average).

Conclusion: Our data show a significant variability within and across platforms. Also the number of detected variants depend on the nature of the specimen; FF vs. FFPE. Validation of NGS discovered mutations is a must to rule-out false positive mutants. This validation might either be performed through a second NGS platform or through Sanger sequencing.

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结直肠肿瘤的靶向外显子组测序结果在两个测序平台内和之间的差异。

背景与目的:下一代测序(NGS)是快速生成基因组和外显子组数据的首选工具。需要评估众多测序平台以及每个平台内的可变性。在本文中，我们使用两个平台(ION TORRENT和ILLUMINA)来评估结直肠癌(CRC)标本中的单核苷酸变异。方法:采用ION TORRENT和ILLUMINA测序平台，收集6例结直肠癌(癌和配对正常)患者的结直肠癌标本(n = 13)，建立突变谱。我们分析了两种平台上福尔马林固定石蜡包埋和FF (FF)样品的一组样品，以评估样品性质(FFPE vs. FF)对测序结果的影响，并评估两种平台上snv的相似性/差异性。此外，在每个平台上对FF样本的重复序列进行测序，以评估平台内的变异性。结果:在Ion Torrent和Illumina中，FF重复序列的一致性分别为77%(±15.3%)和70%(±3.7%)。在Ion Torrent和Illumina中，FFPE和FF重复的一致性分别为40%(±32%)和49%(±19%)。对于跨平台一致性，FFPE与FF比较(FFPE样本平均为75%(±9.8%)，FF样本平均为67%(±32%)，整体平均为70%(±26.8%))。结论:我们的数据显示了平台内部和平台之间的显著差异。此外，检测到的变异数量取决于标本的性质;FF vs. FFPE。为了排除假阳性突变，必须对NGS发现的突变进行验证。该验证可以通过第二个NGS平台进行，也可以通过Sanger测序进行。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Next generation, sequencing & applications

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