Through RIKEN Scientists’ Networking System (SciNetS), the service provides a secure, flexible andlight weight interface to millions of data records and their network of semantic relationships, ushering in a new era of collaboration, analysis and information-sharing for life science research and applied innovation.

Gene annotation, protein structure analysis, plant ontologies, transcriptomes – dramatic increases in the size, variety and complexity of data resources in the life sciences have accentuated the challenges of data analysis in the information age.

Adding to these challenges, much of the data handled at each step of the research process is private,making integration with public data more difficult and hindering collaboration. Overcoming these challenges requires systems for securely integrating data resources and making their information widely available through a flexible interface. (Left) RIKEN bioinformatics & Systems Engineering division director, Tetsuro Toyoda

The RIKEN Bioinformatics And Systems Engineering (BASE) division, Japan’s leading research institute focusing on the integration and publication of life science research data, has now developed such an interface.

Referred to as Semantic-JSON, the interface accesses a “virtual laboratory cloud centre” also developed at BASE named the Scientists’ Networking System (SciNetS ), which brings together, as of May 2011, a total of 192 public database projects both internal and external to RIKEN.

SciNetS creates common ground for sharing life science data resources by linking these resources together in a network of semantic relationships based on standardized Semantic Web techniques.
Semantic-JSON  provides a flexible interface to SciNetS on the web, enabling bioinformaticians to access specific data from across the SciNetS network using the programming languages and information tools they normally use in their research. The interface does so by defining a set of simple but relevant commands for accessing and searching SciNetS data and their semantic relationships, delivering results in the widely-used JavaScript Object Notation (JSON ) format.

Already, RIKEN has successfully applied Semantic-JSON to a number of projects, including international data collaborations on mouse phenotypes, domestic integrated database projects, and the GenoCon International Rational Genome Design Contest. 

RIKEN plans to use the interface to distribute life science data across its research centres and with international collaborators via the SciNetS project, broadening the life-sciences Semantic Web data universe and promising to achieve not just comprehensive understanding of various life phenomena, but also collaborative breakthroughs for medicine, industry and the environment.