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---
title: 'GeneNetwork: framework for web-based genetics'
tags:
- bioinformatics
- genetics
- genomics
authors:
- name: Zachary Sloan
orcid: 0000-0002-8099-1363
affiliation: University of Tennessee Health Science Center, USA
- name: Danny Arends
orcid: 0000-0001-8738-0162
affiliation: Humboldt University, Berlin, Germany
- name: Karl W. Broman
orcid: 0000-0002-4914-6671
affiliation: University of Wisconsin, USA
- name: Arthur Centeno
orcid: 0000-0003-3142-2081
affiliation: University of Tennessee Health Science Center, USA
- name: Nick Furlotte
- name: Harm Nijveen
orcid: 0000-0002-9167-4945
affiliation: Wageningen University, The Netherlands
- name: Lei Yan
orcid: 0000-0001-5259-3379
affiliation: University of Tennessee Health Science Center, USA
- name: Xiang Zhou
orcid: 0000-0002-4331-7599
affiliation: University of Michigan
- name: Robert W. WIlliams
orcid: 0000-0001-8924-4447
affiliation: University of Tennessee Health Science Center, USA
- name: Pjotr Prins
orcid: 0000-0002-8021-9162
affiliation: University Medical Center Utrecht, The Netherlands, University of Tennessee Health Science Center, USA
date: 29 May 2016
bibliography: paper.bib
---
# Summary
GeneNetwork (GN) is a free and open source (FOSS) framework for
web-based genetics that can be deployed anywhere. GN allows biologists
to upload experimental data and map phenotypes interactively against
genotypes using tools, such as R/QTL [@Arends:2010] mapping, interval
mapping for model organisms and pylmm; an implementation of FaST-LMM
[@Lippert:2011] which is suitable for human populations and outbred
crosses, such as the mouse diversity outcross. Interactive D3 graphics
are included from R/qtlcharts and presentation-ready figures can be
generated. Recently we have added functionality for phenotype
correlation [@Wang:2016] and network analysis [@WGCNA:2008].
-![Mouse LMM mapping example](qtl2.png)
GN is written in python and javascript and contains a rich set of
tools and libraries that can be written in any computer language. A
full list of included software can be found in
[guix-bioinformatics](https://github.com/genenetwork/guix-bioinformatics/blob/master/gn/packages/genenetwork.scm). To
make it easy to install GN locally in a byte reproducible way,
including all dependencies and a 2GB MySQL test database (the full
database is 160GB and growing), GN is packaged with
[GNU Guix](https://www.gnu.org/software/guix/), as described
[here](https://github.com/genenetwork/genenetwork2/blob/staging/doc/README.org).
GNU Guix deployment makes it feasible to deploy and rebrand GN
anywhere.
# Future work
More mapping tools will be added, including support for Genome-wide
Efficient Mixed Model Association (GEMMA). The
[Biodiallance genome browser](http://www.biodalliance.org/) is being
added as a Google Summer of Code project with special tracks related
to QTL mapping and network analysis. Faster LMM solutions are being
worked on, including GPU support.
A REST interface is being added so that data can be uploaded to a
server, analysis run remotely on high performance hardware, and
results downloaded and used for further analysis. This feature will
allow biologist-programmers to use R and python on their computer and
execute computations on GN enabled servers.
# References
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