Structural variant caller using low-depth long reads
Project description
NanoVar - Structural variant caller using low-depth long-read sequencing
NanoVar is a neural-network-based genomic structural variant (SV) caller that utilizes low-depth long-read sequencing such as Oxford Nanopore Technologies (ONT). It characterizes SVs with high accuracy and speed using only 4x depth sequencing for homozygous SVs and 8x depth for heterozygous SVs. NanoVar reduces sequencing cost and computational requirements which makes it compatible with large cohort SV-association studies or routine clinical SV investigations.
Basic capabilities
- Performs long-read mapping (HS-Blastn, Chen et al., 2015) and SV discovery in a single rapid pipeline.
- Accurately characterizes SVs using long sequencing reads (High SV recall and precision in simulation datasets, overall F1 score >0.9)
- Characterizes six classes of SVs including novel-sequence insertion, deletion, inversion, tandem duplication, sequence transposition and translocation.
- Requires 4x and 8x sequencing depth for detecting homozygous and heterozygous SVs respectively.
- Rapid computational speed (Takes <3 hours to map and analyze 12 gigabases datasets (4x) using 24 CPU threads)
- Approximates SV genotype
Getting Started
Operating system:
- Linux (x86_64 architecture, tested in Ubuntu 14.04, 16.04, 18.04)
Installation:
There are three ways to install NanoVar:
Option 1: Conda (Recommended)
# Installing from bioconda automatically installs all dependencies
conda install -c bioconda nanovar
Option 2: Pip (See dependencies below)
# Installing from PyPI requires own installation of dependencies, see below
pip3 install nanovar
Option 3: GitHub (See dependencies below)
# Installing from GitHub requires own installation of dependencies, see below
git clone https://github.com/cytham/nanovar.git
cd nanovar
pip install .
Installation of dependencies
- bedtools >=2.26.0
- makeblastdb and windowmasker
- hs-blastn
Please make sure each executable binary is in PATH.
1. bedtools
Please visit here for instructions to install.
2. makeblastdb and windowmasker
# Download NCBI-BLAST v2.3.0+ from NCBI FTP server
wget ftp://ftp.ncbi.nlm.nih.gov/blast/executables/blast+/2.3.0/ncbi-blast-2.3.0+-x64-linux.tar.gz
# Extract tar.gz
tar zxf ncbi-blast-2.3.0+-x64-linux.tar.gz
# Copy makeblastdb and windowmasker binaries to PATH (e.g. ~/bin)
cp ncbi-blast-2.3.0+/bin/makeblastdb ~/bin && cp ncbi-blast-2.3.0+/bin/windowmasker ~/bin
2. hs-blastn
# Download and compile
git clone https://github.com/chenying2016/queries.git
cd queries/hs-blastn-src/
make
# Copy hs-blastn binary to path (e.g. ~/bin)
cp hs-blastn ~/bin
Quick run
nanovar [Options] -t 24 -f hg38 read.fa ref.fa working_dir
Parameter | Argument | Comment |
---|---|---|
-t |
num_threads | Indicate number of CPU threads to use |
-f |
gap_file | Choose built-in gap BED file to exclude gap regions in the reference genome. Built-in gap files include: hg19, hg38 and mm10 (Optional) |
- | read.fa | Input long-read FASTA/FASTQ file |
- | ref.fa | Input reference genome in FASTA format |
- | working_dir | Specify working directory |
Documentation
See Wiki for more information.
Versioning
See CHANGELOG
Citation
NanoVar: Accurate Characterization of Patients’ Genomic Structural Variants Using Low-Depth Nanopore Sequencing (Tham. et al, 2019) https://www.biorxiv.org/content/10.1101/662940v1
Authors
- Tham Cheng Yong - cytham
- Roberto Tirado Magallanes - rtmag
- Touati Benoukraf - benoukraflab
License
This project is licensed under GNU General Public License - see LICENSE.txt for details.
Simulation datasets
SV-simulated datasets used for evaluating SV calling accuracy can be downloaded here.
Project details
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