Enhancement of community resources on a large scale should provide a major incentive and increased ability to accomplish the full integration of genomics capabilities into research programs. Cloud computing can provide novel opportunities for a collaborative environment that fosters re-use of data and community-driven creation of tools and analytics. Technology companies could play multiple roles in supporting an imaging-genomics correlation initiative, from implementation vendors to marketplace contributors and facilitators, and ultimately as community stakeholders. They can contribute by providing input and feedback that help to shape technical standards in their development
and implementation. Technology companies need recognition as key stakeholders in this new model, since they are www.selleckchem.com/products/OSI-906.html the source of continued innovation, ongoing technical expertise, and professional networks for furthering the ecosystem. Collaboration with industry under public-private partnerships selleckchem could help to ensure industry participation. The NIH’s Biomarkers Consortium is a public-private partnerships that has successfully
benefited the federal government as well as industry, helping to accelerate new biomarkers for discovery, and ultimately for marketed therapies and drugs. Creation of an interactive community that enables collaboration through the cloud computing environment and utilization of other crowd sourcing technologies will help to develop innovative solutions. Community-driven tool development can be enabled with Mirabegron the provision of a software development kit. User-provided analytics can be vetted by the community. Crowd sourcing challenges can be issued to solve especially intractable problems for analytics, display, or data integration. The recommendations for this
new field of radiogenomics was developed by workshop attendees, who have very diverse experiences in fields of imaging sciences, genomics, molecular biology, bioinformatics, computer science, and industry. The recommendations address both short-and long-term requirements where appropriate to advance the field of radiogenomics specifically in predicting and/or measuring response to therapy. Four breakout groups were formed: (a) clinical opportunities, (b) scientific opportunities, (c) computational methodology opportunities, and finally (d) research resource opportunities. Breakout group reports are listed below. A: Clinical Opportunities 1. Short-term Clinical Recommendations: (a) Define what we mean by imaging-genomics (and all the other similar terms): • Identify the gene mutations in a tumor “
“The ubiquitin-proteasome system plays a crucial role in the maintenance of cellular homeostasis by participation in the degradation of the majority of cytosolic proteins. This system is involved in the regulation of the cell cycle, apoptosis, transcription, cell signaling, antigen presentation, inflammation and development [1].