| 3 | | New biotechnologies enable exciting QTL experiments that link genetic variation to 'all' gene expression, protein and metabolite traits.[[BR]] |
| 4 | | Powerful software and hardware are available to analyze these new data but the considerable effort needed to configure pipelines, to scale[[BR]] |
| 5 | | up processing and to track raw, intermediate and result data are a barrier for most except a small community of experts. Here we report[[BR]] |
| 6 | | XGAP/cluster: a collaborative effort to bring seamless data management, advanced analytical pipelines and high throughput cluster computing[[BR]] |
| 7 | | together in one box to biologists workbench. |
| | 4 | New biotechnologies enable exciting QTL experiments that link genetic variation to 'all' gene expression, protein and metabolite traits. |
| | 5 | Powerful software and hardware are available to analyze these new data but the considerable effort needed to configure pipelines, to scale |
| | 6 | up processing and to track raw, intermediate and result data are a barrier for most except a small community of experts. Here we report |
| | 7 | XGAP/cluster: a collaborative effort to bring seamless data management, advanced analytical pipelines and high throughput cluster computing |
| | 8 | together in one box to biologists workbench. |
| | 9 | |
| | 10 | [http://vm7.target.rug.nl/xqtl Try the online xQTL workbench demo][[BR]] |
| | 11 | [http://vm7.target.rug.nl/xqtl_unstable Try the release candidate with the latest features][[BR]] |
| | 12 | [http://vm7.target.rug.nl/download/xqtl_workbench.zip Download xQTL workbench runnable standalone] ('''run.bat''' or '''run.sh''' to start) |
