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ExScalibur: A High-Performance Cloud-Enabled Suite for Whole Exome Germline and Somatic Mutation Identification

Authors :
Samuel L. Volchenboum
Elizabeth T. Bartom
Lei Huang
Kyle M. Hernandez
Wenjun Kang
Jorge Andrade
Riyue Bao
Kenan Onel
Source :
PLoS ONE, Vol 10, Iss 8, p e0135800 (2015), PLoS ONE
Publication Year :
2015
Publisher :
Public Library of Science (PLoS), 2015.

Abstract

Whole exome sequencing has facilitated the discovery of causal genetic variants associated with human diseases at deep coverage and low cost. In particular, the detection of somatic mutations from tumor/normal pairs has provided insights into the cancer genome. Although there is an abundance of publicly-available software for the detection of germline and somatic variants, concordance is generally limited among variant callers and alignment algorithms. Successful integration of variants detected by multiple methods requires in-depth knowledge of the software, access to high-performance computing resources, and advanced programming techniques. We present ExScalibur, a set of fully automated, highly scalable and modulated pipelines for whole exome data analysis. The suite integrates multiple alignment and variant calling algorithms for the accurate detection of germline and somatic mutations with close to 99% sensitivity and specificity. ExScalibur implements streamlined execution of analytical modules, real-time monitoring of pipeline progress, robust handling of errors and intuitive documentation that allows for increased reproducibility and sharing of results and workflows. It runs on local computers, high-performance computing clusters and cloud environments. In addition, we provide a data analysis report utility to facilitate visualization of the results that offers interactive exploration of quality control files, read alignment and variant calls, assisting downstream customization of potential disease-causing mutations. ExScalibur is open-source and is also available as a public image on Amazon cloud.

Details

ISSN :
19326203
Volume :
10
Database :
OpenAIRE
Journal :
PLOS ONE
Accession number :
edsair.doi.dedup.....1f2aea6387c406ad790079c38528a2e0