VIPER is no longer maintained. This repository now only serves archive purposes.
VIPER (Variant InsPector and Expert Rating tool) can be utilised to view variant calls and decide whether or not those are true or false positives. All calls are visualised using IGV, thus enabling fast rating of sv calls. VIPER is implemented using Java and AngularJS.
If you are using VIPER for the first time, you should have a look at at the short tutorial.
To run the VIPER server, Java version 1.8 is required. You can check your java version by running java -version
in a console.
Make sure to use a modern web browser, as VIPER is heavily reliant on the browser's Javascript environment.
It is advised to use the VIPER and IGV jar files (as well as example configuration files) that can be downloaded from the GitHub release pages.
If you are using Linux, it is recommended to install Xvfb
with
sudo apt-get install xvfb
You can then run VIPER with
java -jar VIPER.jar config.json
to start the VIPER server, and open http://localhost:8090
in a browser tab.
To build VIPER from source, bower
and gradle
need to be installed.
You can then use ./build.sh
to create an executable version of the VIPER server.
VIPER can be configured using a .json file. There are mandatory and optional parameters that change the way VIPER operates.
These parameters act as input to the VIPER server and must be specified by the user:
parameter | description |
---|---|
analysisFile | File containing variant calls (must be a .csv or .vcf file). .csv files must include a header with column names. Columns sample , type , chr1 , bp1 , chr2 and bp2 are mandatory. |
workDir | Directory that stores images by igv and decision progress. WARNING: Do not delete this directory, or your progress will be lost |
bamDir | Directory containing your .bam /.bai sample files. |
These parameters are optional and may be omitted using the default values:
parameter | description | default value |
---|---|---|
enableGrouping | Group together calls with same chromosome values and similar breakpoint values | true |
breakpointTolerance | If grouping is enabled, this is the maximum distance where two breakpoints are considered similar. | 3 |
csvDelimiter | Character that delimits csv columns. | ";" |
collectionDelimiter | A single cell in a csv table may have multiple values. These values are seperated by this character. | "," |
partnerFile | CSV file containing partnering information (i.e., control-tumor pairs, trios). When used, VIPER offers to inspect the partner samples as well as the sample the respective variant was called in. | null |
partnerDelimiter | Delimiter used when reading partnering information. | "," |
viperPort | Port that VIPER listens on. | 8090 |
igvPort | Port that IGV uses to communicate with VIPER | 9090 |
fastaRef | .fasta reference file or IGV reference key (e.g. hg19 ). Set to a .fasta file for improved performance. |
"hg19" |
numPrecomputedSnapshots | Precompute this number of breakpoint images to minimize visualization waiting time. | 10 |
keepVcfSimple | Use only mandatory vcf columns and ignore additional INFO and genotype information | false |
excludeRefVcfCalls | Ignore calls that are marked as reference calls. | true |
igvJar | Path to IGV jar file. | "igv.jar" |
xvfbDisplay | When using Xvfb , use this number as display number. |
1234 |
xvfbWidth | When using Xvfb , create a window with this width. |
1280 |
xvfbHeight | When using Xvfb , create a window with this height. |
1680 |
igvMaxMemory | Maximum heap size of the IGV process. | 1200 |
xslxExportWindowSize | When creating .xlsx files, this improves memory usage. Only change if exceptions occur during .xlsx export. |
1000 |
igvLog | File containing IGV logs | igv.log |
sleepInterval | Time to wait between IGV commands | 0 |
Some example .bam
files and sample .csv
call files can be found on Sciebo.
You encountered any errors or have ideas that might improve VIPER? Feel free to open an issue or write me an e-mail: [email protected]
Please make sure to cite the applications note when using VIPER for research purposes:
Marius Wöste, Martin Dugas; VIPER: a web application for rapid expert review of variant calls, Bioinformatics
The VIPER icon was provided by courtesy of Niké Jenny Bruinsma.