Transcriptome sequencing of malignant pleural mesothelioma tumors

Sugarbaker, David J.; Richards, William G.; Gordon, Gavin J.; Dong, Lingsheng; Rienzo, Assunta De; Maulik, Gautam; Glickman, Jonathan N.; Chirieac, Lucian R.; Hartman, Mor-Li; Taillon, Bruce E.; Du, Lei; Bouffard, Pascal; Miller, Neil; Farmer, Andrew; Jensen, Roderick V.; Gullans, Steven R.; Bueno, Raphael

doi:10.1073/pnas.0712399105

Cited by 139 publications

(120 citation statements)

References 44 publications

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“…The results reported here substantiate the notion that deep analysis of the transcriptome can reveal such genomic changes, thereby highlighting active genomic regions that might contribute to the breast cancer phenotype. This study builds upon previous studies, using the 454 Life Sciences sequencing technology that were focused on deep sequencing of cancer cell transcriptomes to identify alternative transcript splice forms and point mutations (28,29). Our results suggest that with a deeper coverage of transcriptome sequence, genomic rearrangements that result in chimeric genes will be identified in an even more efficient and comprehensive manner.…”

Section: Discussionmentioning

confidence: 99%

Transcriptome-guided characterization of genomic rearrangements in a breast cancer cell line

Zhao

Caballero

Lévy

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

106

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We have identified new genomic alterations in the breast cancer cell line HCC1954, using high-throughput transcriptome sequencing. With 120 Mb of cDNA sequences, we were able to identify genomic rearrangement events leading to fusions or truncations of genes including MRE11 and NSD1, genes already implicated in oncogenesis, and 7 rearrangements involving other additional genes. This approach demonstrates that high-throughput transcriptome sequencing is an effective strategy for the characterization of genomic rearrangements in cancers.cancer genome ͉ transcriptome sequencing

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Section: Discussionmentioning

confidence: 99%

Transcriptome-guided characterization of genomic rearrangements in a breast cancer cell line

Zhao

Caballero

Lévy

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

106

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“…This technology also gives quantitative measurement of copy number and LOH information comparable to SNP 1800K arrays. In combination with cDNA sequencing (Bainbridge et al, 2006;Sugarbaker et al, 2008) this technology has the potential to identify novel fusion genes and gene amplifications which might be exploited for targeted therapeutics as has been demonstrated for ERBB2 (Trastuzumab) and BCR-ABL (Imatinib). This application is particularly relevant for ovarian carcinoma because the structural complexity of the genome renders case-by-case evaluation of all chromosome breakpoints near-impossible by traditional cloning methods.…”

Section: Future Developmentsmentioning

confidence: 99%

Large‐scale genomic analysis of ovarian carcinomas

Gorringe

Campbell

2008

Molecular Oncology

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Epithelial ovarian cancers are typified by frequent genomic aberrations that have been difficult to unravel. Recently, high‐resolution array technologies have provided the first glimpse of the remarkable complexity of these aberrations with some ovarian cancers containing hundreds of copy number breakpoints, micro‐deletions and amplifications. Many of these alterations contain cancer‐related genes suggesting that the majority is disease‐associated and not just the product of random genomic instability. Future developments such as next‐generation sequencing and integrated analysis of data from multiple array platforms on large numbers of samples are poised to revolutionise our understanding of this complex disease.

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“…With the availability of faster and cheaper nextgeneration sequencing platforms, more transcriptomic analyses are performed using a recently-developed deep sequencing approach, RNA-Seq ). Studies using this method have already altered our view of the extent and complexity of eukaryotic transcriptomes (Cloonan et al, 2008;Mortazavi et al, 2008;Sugarbaker et al, 2008;Sultan et al, 2008;Tang et al,2010).…”

Section: Whole Transcriptome Shotgun Sequencing: Rna-seqmentioning

confidence: 99%

The next-generation sequencing technology and application

et al. 2010

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As one of the key technologies in biomedical research, DNA sequencing has not only improved its productivity with an exponential growth rate but also been applied to new areas of application over the past few years. This is largely due to the advent of newer generations of sequencing platforms, offering ever-faster and cheaper ways to analyze sequences. In our previous review, we looked into technical characteristics of the nextgeneration sequencers and provided prospective insights into their future development. In this article, we present a brief overview of the advantages and shortcomings of key commercially available platforms with a focus on their suitability for a broad range of applications.

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Transcriptome sequencing of malignant pleural mesothelioma tumors

Cited by 139 publications

References 44 publications

Transcriptome-guided characterization of genomic rearrangements in a breast cancer cell line

Transcriptome-guided characterization of genomic rearrangements in a breast cancer cell line

Large‐scale genomic analysis of ovarian carcinomas

The next-generation sequencing technology and application

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