De Coster Wouter scite author profile

De Coster Wouter

3Publications

59Citation Statements Received

102Citation Statements Given

How they've been cited

211

How they cite others

100

Affiliations

VIB-UAntwerp Center for Molecular Neurology, University of Antwerp, Center for Neuro-Oncology

Publications

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NanoPack2: population-scale evaluation of long-read sequencing data

Wouter

Rademakers

2023

198

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Summary Increases in the cohort size in long-read sequencing projects necessitate more efficient software for quality assessment and processing of sequencing data from Oxford Nanopore Technologies and Pacific Biosciences. Here we describe novel tools for summarizing experiments, filtering datasets, visualizing phased alignments results, and updates to the NanoPack software suite. Availability and implementation The cramino, chopper, kyber, and phasius tools are written in Rust and available as executable binaries without requiring installation or managing dependencies. Binaries build on musl are available for broad compatibility. NanoPlot and NanoComp are written in Python3. Links to the separate tools and their documentation can be found at https://github.com/wdecoster/nanopack. All tools are compatible with Linux, Mac OS, and the MS Windows Subsystem for Linux and are released under the MIT license. The repositories include test data, and the tools are continuously tested using GitHub Actions and can be installed with the conda dependency manager. Supplementary information Supplementary data are available at Bioinformatics online.

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Structural variants identified by Oxford Nanopore PromethION sequencing of the human genome

Wouter

Arne

Tim

et al. 2018

Preprint

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We sequenced the Yoruban NA19240 genome on the long read sequencing platform Oxford Nanopore PromethION for benchmarking and evaluation of recently published aligners and structural variant calling tools. In this work, we determined the precision and recall, present high confidence and high sensitivity call sets of variants and discuss optimal parameters. The aligner Minimap2 and structural variant caller Sniffles are both the most accurate and the most computationally efficient tools in our study. We describe our scalable workflow for identification, annotation, and characterization of tens of thousands of structural variants from long read genome sequencing of an individual or population. By discussing the results of this genome we provide an approximation of what can be expected in future long read sequencing studies aiming for structural variant identification.

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Critical length in long read resequencing

Wouter

Stražišar

Rijk

2019

Preprint

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Long read sequencing has a substantial advantage for structural variant discovery and phasing of variants compared to short-read technologies, but the required and optimal read length has not been assessed. In this work, we used simulated long reads and evaluated structural variant discovery and variant phasing using current best practice bioinformatics methods. We determined that optimal discovery of structural variants from human genomes can be obtained with reads of minimally 15 kbp. Haplotyping genes entirely only reaches its optimum from reads of 100 kbp. These findings are important for the design of future long read sequencing projects.

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De Coster Wouter

NanoPack2: population-scale evaluation of long-read sequencing data

Structural variants identified by Oxford Nanopore PromethION sequencing of the human genome

Critical length in long read resequencing

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