Identification of somatically acquired rearrangements in cancer using genome-wide massively parallel paired-end sequencing

Campbell, Peter J.; Stephens, Philip J.; Pleasance, Erin; O’Meara, Sarah; Li, Heng; Santarius, Thomas; Stebbings, Lucy; Leroy, Catherine; Edkins, Sarah; Hardy, Claire; Teague, Jon W.; Menzies, Andrew; Goodhead, Ian; Turner, Daniel J.; Clee, Christopher M.; Quail, Michael A.; Cox, Antony V.; Brown, Clive; Durbin, Richard; Hurles, Matthew E.; Edwards, Paul A.W.; Bignell, Graham R.; Stratton, Michael R.; Futreal, P. Andrew

doi:10.1038/ng.128

Cited by 732 publications

(634 citation statements)

References 23 publications

Supporting

Mentioning

610

Contrasting

Unclassified

Order By: Relevance

“…The high resolution of the aCGH platform employed here has confirmed the structural complexity of amplicons found in breast cancer cell lines and primary breast cancers [40,41,57]. For instance, in agreement with previous studies [40,41], on 8p11.2-q12.1, 4 smallest regions of amplification (SRAs) were identified, whereas on 20q13, at least three distinct SRAs were found.…”

supporting

confidence: 90%

A high-resolution integrated analysis of genetic and expression profiles of breast cancer cell lines

Mackay

Tamber

Fenwick

et al. 2009

Breast Cancer Res Treat

View full text Add to dashboard Cite

supporting

confidence: 90%

A high-resolution integrated analysis of genetic and expression profiles of breast cancer cell lines

Mackay

Tamber

Fenwick

et al. 2009

Breast Cancer Res Treat

View full text Add to dashboard Cite

“…Read-pair methodologies, for example, are most sensitive to events between 40 bp and 1 kbp (depending on library insert sizes and consistency) [30][31][32][33]. Readdepth methodologies are powerful for detecting copy number changes greater than 10 kbp and are dependent on sequence coverage, which limits the number of genomes that can be analyzed [29,30,[34][35][36][37]. This leaves a gap in our detection abilities between about 1 kbp and 50 kbp where performance is suboptimal ( Figure 1B).…”

Section: Size Spectrum Of Copy Number Variationmentioning

confidence: 99%

A genetic model for neurodevelopmental disease

Coe¹,

Girirajan²,

Eichler³

2012

Current Opinion in Neurobiology

View full text Add to dashboard Cite

The genetic basis of neurodevelopmental and neuropsychiatric diseases has been advanced by the discovery of large and recurrent copy number variants significantly enriched in cases when compared to controls. The pattern of this variation strongly implies that rare variants contribute significantly to neurological disease; that different genes will be responsible for similar diseases in different families; and that the same "primary" genetic lesions can result in a different disease outcome depending potentially on the genetic background. Next-generation sequencing technologies are beginning to broaden the spectrum of disease-causing variation and provide specificity by pinpointing both genes and pathways for future diagnostics and therapeutics.

show abstract

“…1, 62 Their advantages in speed and cost 62 and their higher capabilities in detecting divergent types of variants 56,[59][60][61]63 granted their wide applications in the field of medical research and diagnostics. 64 Moreover, genomics, 64 functional genomics, 9 proteomics, 64 transcriptome analysis, 65 epigenetic research 66 and the characterization of new virus 67 and bacterium 68,69 all benefited from these technologies immediately after their introduction into the market.…”

Section: Challenges and Prospectsmentioning

confidence: 99%

Evaluation of next-generation sequencing software in mapping and assembly

et al. 2011

View full text Add to dashboard Cite

Next-generation high-throughput DNA sequencing technologies have advanced progressively in sequence-based genomic research and novel biological applications with the promise of sequencing DNA at unprecedented speed. These new non-Sanger-based technologies feature several advantages when compared with traditional sequencing methods in terms of higher sequencing speed, lower per run cost and higher accuracy. However, reads from next-generation sequencing (NGS) platforms, such as 454/Roche, ABI/SOLiD and Illumina/Solexa, are usually short, thereby restricting the applications of NGS platforms in genome assembly and annotation. We presented an overview of the challenges that these novel technologies meet and particularly illustrated various bioinformatics attempts on mapping and assembly for problem solving. We then compared the performance of several programs in these two fields, and further provided advices on selecting suitable tools for specific biological applications.

show abstract

Identification of somatically acquired rearrangements in cancer using genome-wide massively parallel paired-end sequencing

Cited by 732 publications

References 23 publications

A high-resolution integrated analysis of genetic and expression profiles of breast cancer cell lines

A high-resolution integrated analysis of genetic and expression profiles of breast cancer cell lines

A genetic model for neurodevelopmental disease

Evaluation of next-generation sequencing software in mapping and assembly

Contact Info

Product

Resources

About