iCopyDAV: Integrated platform for copy number variations-Detection, annotation and visualization.
Discovery of copy number variations (CNVs), a major category of structural variations, have dramatically changed our understanding of differences between individuals and provide an alternate paradigm for the genetic basis of human diseases. CNVs include both copy gain and copy loss events and their...
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doaj-2de79bcbadc24315b0369e921e69944a2020-11-24T20:41:39ZengPublic Library of Science (PLoS)PLoS ONE1932-62032018-01-01134e019533410.1371/journal.pone.0195334iCopyDAV: Integrated platform for copy number variations-Detection, annotation and visualization.Prashanthi DharanipragadaSriharsha VogetiNita ParekhDiscovery of copy number variations (CNVs), a major category of structural variations, have dramatically changed our understanding of differences between individuals and provide an alternate paradigm for the genetic basis of human diseases. CNVs include both copy gain and copy loss events and their detection genome-wide is now possible using high-throughput, low-cost next generation sequencing (NGS) methods. However, accurate detection of CNVs from NGS data is not straightforward due to non-uniform coverage of reads resulting from various systemic biases. We have developed an integrated platform, iCopyDAV, to handle some of these issues in CNV detection in whole genome NGS data. It has a modular framework comprising five major modules: data pre-treatment, segmentation, variant calling, annotation and visualization. An important feature of iCopyDAV is the functional annotation module that enables the user to identify and prioritize CNVs encompassing various functional elements, genomic features and disease-associations. Parallelization of the segmentation algorithms makes the iCopyDAV platform even accessible on a desktop. Here we show the effect of sequencing coverage, read length, bin size, data pre-treatment and segmentation approaches on accurate detection of the complete spectrum of CNVs. Performance of iCopyDAV is evaluated on both simulated data and real data for different sequencing depths. It is an open-source integrated pipeline available at https://github.com/vogetihrsh/icopydav and as Docker's image at http://bioinf.iiit.ac.in/icopydav/.http://europepmc.org/articles/PMC5886540?pdf=render |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Prashanthi Dharanipragada Sriharsha Vogeti Nita Parekh |
spellingShingle |
Prashanthi Dharanipragada Sriharsha Vogeti Nita Parekh iCopyDAV: Integrated platform for copy number variations-Detection, annotation and visualization. PLoS ONE |
author_facet |
Prashanthi Dharanipragada Sriharsha Vogeti Nita Parekh |
author_sort |
Prashanthi Dharanipragada |
title |
iCopyDAV: Integrated platform for copy number variations-Detection, annotation and visualization. |
title_short |
iCopyDAV: Integrated platform for copy number variations-Detection, annotation and visualization. |
title_full |
iCopyDAV: Integrated platform for copy number variations-Detection, annotation and visualization. |
title_fullStr |
iCopyDAV: Integrated platform for copy number variations-Detection, annotation and visualization. |
title_full_unstemmed |
iCopyDAV: Integrated platform for copy number variations-Detection, annotation and visualization. |
title_sort |
icopydav: integrated platform for copy number variations-detection, annotation and visualization. |
publisher |
Public Library of Science (PLoS) |
series |
PLoS ONE |
issn |
1932-6203 |
publishDate |
2018-01-01 |
description |
Discovery of copy number variations (CNVs), a major category of structural variations, have dramatically changed our understanding of differences between individuals and provide an alternate paradigm for the genetic basis of human diseases. CNVs include both copy gain and copy loss events and their detection genome-wide is now possible using high-throughput, low-cost next generation sequencing (NGS) methods. However, accurate detection of CNVs from NGS data is not straightforward due to non-uniform coverage of reads resulting from various systemic biases. We have developed an integrated platform, iCopyDAV, to handle some of these issues in CNV detection in whole genome NGS data. It has a modular framework comprising five major modules: data pre-treatment, segmentation, variant calling, annotation and visualization. An important feature of iCopyDAV is the functional annotation module that enables the user to identify and prioritize CNVs encompassing various functional elements, genomic features and disease-associations. Parallelization of the segmentation algorithms makes the iCopyDAV platform even accessible on a desktop. Here we show the effect of sequencing coverage, read length, bin size, data pre-treatment and segmentation approaches on accurate detection of the complete spectrum of CNVs. Performance of iCopyDAV is evaluated on both simulated data and real data for different sequencing depths. It is an open-source integrated pipeline available at https://github.com/vogetihrsh/icopydav and as Docker's image at http://bioinf.iiit.ac.in/icopydav/. |
url |
http://europepmc.org/articles/PMC5886540?pdf=render |
work_keys_str_mv |
AT prashanthidharanipragada icopydavintegratedplatformforcopynumbervariationsdetectionannotationandvisualization AT sriharshavogeti icopydavintegratedplatformforcopynumbervariationsdetectionannotationandvisualization AT nitaparekh icopydavintegratedplatformforcopynumbervariationsdetectionannotationandvisualization |
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