Abstract 5270: The UCSC Xena system for integrating and visualizing functional genomics

UCSC Xena (http://xena.ucsc.edu/) is a bioinformatics tool to visualize functional genomics data from multiple sources simultaneously, including both public and private data. The Xena system consists of a set of federated data hubs and the Xena browser, which integrates across hubs, providing one location to analyze and visualize all data. The lightweight Xena data hubs are straightforward to install on Windows, Mac and Linux operating systems and easily allow hub administrators to authenticate users, ensuring that only authorized users have access to secure data. Loading data into a Xena hub is easy using either our application or command line interface. Hosting public data from major projects, such as TCGA, on public Xena hubs gives users access without having to download these large datasets. The Xena system makes it easy to aggregate across many hubs, allowing users to integrate public datasets and private secure data together or view them separately. This system of the browser and hubs helps researchers combine new or preliminary results from their laptops or internal servers, or even data from a new paper, securely with vetted data from the public sphere. The largest public Xena hub, based at UCSC, currently hosts an expanding set of searchable data, including 806 public datasets from several large consortiums including TCGA (The Cancer Genome Atlas), ICGC (International Cancer Genome Consortium), Treehouse Childhood Cancer Project, CCLE (Cancer Cell Line Encyclopedia), and more. Xena hubs are flexible enough to handle most data types, including gene, exon, miRNA and protein expression, copy number, DNA methylation and somatic mutation data along with phenotypes, subtype classifications and genomic biomarkers. Dynamic Kaplan-Meier survival analysis helps investigators to assess survival stratification by any information while scatter plots and bar graphs offer new insights into the data. Integration with Galaxy gives users access to a myriad of bioinformatics tools for further analysis and hypothesis testing. Citation Format: Mary Goldman, Brian Craft, Jingchun Zhu, Teresa Swatloski, Melissa Cline, David Haussler. The UCSC Xena system for integrating and visualizing functional genomics. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 5270.