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Accurate multiplexing and filtering for high-throughput amplicon-sequencing (2015)

Esling, P., Lejzerowicz, F., Pawlowski, J.

Oxford University Press

In: Nucleic Acids Research

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Publikationsdatum: 2015-03-14

Beschreibung: Tagging amplicons with tag sequences appended to PCR primers allow the multiplexing of numerous samples for high-throughput sequencing (HTS). This approach is routinely used in HTS-based diversity analyses, especially in microbial ecology and biomedical diagnostics. However, amplicon library preparation is subject to pervasive sample sequence cross-contaminations as a result of tag switching events referred to as mistagging . Here, we sequenced seven amplicon libraries prepared using various multiplexing designs in order to measure the magnitude of this phenomenon and its impact on diversity analyses. Up to 28.2% of the unique sequences correspond to undetectable (critical) mistags in single- or saturated double-tagging libraries. We show the advantage of multiplexing samples following Latin Square Designs in order to optimize the detection of mistags and maximize the information on their distribution across samples. We use this information in designs incorporating PCR replicates to filter the critical mistags and to recover the exact composition of mock community samples. Being parameter-free and data-driven, our approach can provide more accurate and reproducible HTS data sets, improving the reliability of their interpretations.

Schlagwort(e): Computational Methods, Massively Parallel (Deep) Sequencing, Genomics

Print ISSN: 0305-1048

Digitale ISSN: 1362-4962

Thema: Biologie

Publiziert von Oxford University Press

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T-lex2: genotyping, frequency estimation and re-annotation of transposable elements using single or pooled next-generation sequencing data (2015)

Fiston-Lavier, A.-S., Barron, M. G., Petrov, D. A., Gonzalez, J.

Oxford University Press

In: Nucleic Acids Research

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Publikationsdatum: 2015-03-01

Beschreibung: Transposable elements (TEs) constitute the most active, diverse and ancient component in a broad range of genomes. Complete understanding of genome function and evolution cannot be achieved without a thorough understanding of TE impact and biology. However, in-depth analysis of TEs still represents a challenge due to the repetitive nature of these genomic entities. In this work, we present a broadly applicable and flexible tool: T-lex2. T-lex2 is the only available software that allows routine, automatic and accurate genotyping of individual TE insertions and estimation of their population frequencies both using individual strain and pooled next-generation sequencing data. Furthermore, T-lex2 also assesses the quality of the calls allowing the identification of miss-annotated TEs and providing the necessary information to re-annotate them. The flexible and customizable design of T-lex2 allows running it in any genome and for any type of TE insertion. Here, we tested the fidelity of T-lex2 using the fly and human genomes. Overall, T-lex2 represents a significant improvement in our ability to analyze the contribution of TEs to genome function and evolution as well as learning about the biology of TEs. T-lex2 is freely available online at http://sourceforge.net/projects/tlex .

Schlagwort(e): Computational Methods, Massively Parallel (Deep) Sequencing, Genomics

Print ISSN: 0305-1048

Digitale ISSN: 1362-4962

Thema: Biologie

Publiziert von Oxford University Press

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Allele-specific copy number profiling by next-generation DNA sequencing (2015)

Chen, H., Bell, J. M., Zavala, N. A., Ji, H. P., Zhang, N. R.

Oxford University Press

In: Nucleic Acids Research

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Publikationsdatum: 2015-03-01

Beschreibung: The progression and clonal development of tumors often involve amplifications and deletions of genomic DNA. Estimation of allele-specific copy number, which quantifies the number of copies of each allele at each variant loci rather than the total number of chromosome copies, is an important step in the characterization of tumor genomes and the inference of their clonal history. We describe a new method, falcon , for f inding somatic al lele-specific co py n umber changes by next generation sequencing of tumors with matched normals. falcon is based on a change-point model on a bivariate mixed Binomial process, which explicitly models the copy numbers of the two chromosome haplotypes and corrects for local allele-specific coverage biases. By using the Binomial distribution rather than a normal approximation, falcon more effectively pools evidence from sites with low coverage. A modified Bayesian information criterion is used to guide model selection for determining the number of copy number events. Falcon is evaluated on in silico spike-in data and applied to the analysis of a pre-malignant colon tumor sample and late-stage colorectal adenocarcinoma from the same individual. The allele-specific copy number estimates obtained by falcon allows us to draw detailed conclusions regarding the clonal history of the individual's colon cancer.

Schlagwort(e): Computational Methods, Massively Parallel (Deep) Sequencing, Genomics

Print ISSN: 0305-1048

Digitale ISSN: 1362-4962

Thema: Biologie

Publiziert von Oxford University Press

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