Marcel H. Schulz scite author profile

Motivation: There is a strong demand in the genomic community to develop effective algorithms to reliably identify genomic variants. Indel detection using next-gen data is difficult and identification of long structural variations is extremely challenging.Results: We present Pindel, a pattern growth approach, to detect breakpoints of large deletions and medium-sized insertions from paired-end short reads. We use both simulated reads and real data to demonstrate the efficiency of the computer program and accuracy of the results.Availability: The binary code and a short user manual can be freely downloaded from http://www.ebi.ac.uk/∼kye/pindel/.Contact: k.ye@lumc.nl; zn1@sanger.ac.uk

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Oases:robustde novoRNA-seq assembly across the dynamic range of expression levels

Schulz¹,

Zerbino²,

Vingron³

et al. 2012

1,366

1,247

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Motivation: High-throughput sequencing has made the analysis of new model organisms more affordable. Although assembling a new genome can still be costly and difficult, it is possible to use RNA-seq to sequence mRNA. In the absence of a known genome, it is necessary to assemble these sequences de novo, taking into account possible alternative isoforms and the dynamic range of expression values.Results: We present a software package named Oases designed to heuristically assemble RNA-seq reads in the absence of a reference genome, across a broad spectrum of expression values and in presence of alternative isoforms. It achieves this by using an array of hash lengths, a dynamic filtering of noise, a robust resolution of alternative splicing events and the efficient merging of multiple assemblies. It was tested on human and mouse RNA-seq data and is shown to improve significantly on the transABySS and Trinity de novo transcriptome assemblers.Availability and implementation: Oases is freely available under the GPL license at www.ebi.ac.uk/~zerbino/oases/Contact: dzerbino@ucsc.eduSupplementary information: Supplementary data are available at Bioinformatics online.

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A Global View of Gene Activity and Alternative Splicing by Deep Sequencing of the Human Transcriptome

Sultan

Schulz

Richard

et al. 2008

Science

1,141

853

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The functional complexity of the human transcriptome is not yet fully elucidated. We report a high-throughput sequence of the human transcriptome from a human embryonic kidney and a B cell line. We used shotgun sequencing of transcripts to generate randomly distributed reads. Of these, 50% mapped to unique genomic locations, of which 80% corresponded to known exons. We found that 66% of the polyadenylated transcriptome mapped to known genes and 34% to nonannotated genomic regions. On the basis of known transcripts, RNA-Seq can detect 25% more genes than can microarrays. A global survey of messenger RNA splicing events identified 94,241 splice junctions (4096 of which were previously unidentified) and showed that exon skipping is the most prevalent form of alternative splicing.

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Marcel H. Schulz

Pindel: a pattern growth approach to detect break points of large deletions and medium sized insertions from paired-end short reads

Oases:robustde novoRNA-seq assembly across the dynamic range of expression levels

A Global View of Gene Activity and Alternative Splicing by Deep Sequencing of the Human Transcriptome

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