Structural Genomics Consortium releases 1000th protein structure
27 September 2010
The 1000th structure - known as JmjD2C - belongs to a class of proteins involved in epigenetic signalling, a key research area for the SGC. Epigenetics is the study of inherited changes in gene expression caused by proteins such as JmjD2C which 'switch' genes on or off. It is believed that a better understanding of epigenetics could lead to new treatments for a wide variety of diseases including cancer, diabetes, obesity and many psychiatric diseases.
"JmjD2C is already known to play a key a role in the maintenance of self renewal in stem cells as well as roles in cancer," says Professor Udo Oppermann of SGC Oxford, who led the team solving the 1000th structure. "Now that its 3D structure is in the public domain, we hope that this will spur other scientists to investigate its functions more deeply and understand more clearly its role in epigenetics."
"This milestone reinforces the advantages of open-innovation partnerships between the public and private sectors," says Dr Aled Edwards, Director of the SGC. "We're extremely proud of this achievement and the efforts of our co-workers and their collaborators around the world."
Formed in 2004, the SGC comprises 180 scientists at labs at the Universities of Oxford and Toronto, and the Karolinska Institutet in Stockholm. The international collaboration is supported by public and private-sector funding. All research output is made available to the research community free from restriction on use. In 2009, the SGC contributed nearly a third of all new human protein structures deposited in the Protein Data Bank (PDB), and a similar fraction of protein structures from pathogenic protozoa.
The vast amount of information generated by the SGC provides insight into molecular function and is expected to have a great impact on human health by providing a structural framework for the rational chemical design of new or improved drugs that can inhibit or enhance protein function.
"The SGC is providing an incredibly valuable resource to the entire biomedical research community," says Professor Ray Stevens, Department of Molecular Biology and Chemistry at The Scripps Research Institute in La Jolla, USA. "It’s a systematic approach, targeting entire protein families such as protein kinases as well as potential drug target classes. It has yielded data that will be very helpful for investigators working to understand further the roles these proteins play in key biological functions. I applaud them for their efforts and accomplishments."
Since its launch, the SGC has identified the key protein structures involved in all aspects of cellular function and linked them to diseases such as cancer, inflammation, diabetes, neurological disorders and infection. Many of the structures have also been published in scientific articles. Most publications of which there are over 250, are the result of collaborative projects with other scientists utilising the structural information. The SGC is involved in more than 200 active collaborations with academics around the world.
Dr Alan Schafer, Director of Science Funding at the Wellcome Trust, comments: "The SGC has achieved a remarkable milestone in depositing its thousandth structure in the public domain. This success demonstrates the value of the public-private partnership model avoiding duplication of effort and allowing maximum benefit to the whole research community."
Image: JmjD2C Credit: Prof. Udo Opperman, SGC laboratory at the University of Oxford
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Notes for editors
A gallery of 'top 10' SGC structures is available from the Wellcome Trust.
The Structural Genomics Consortium (SGC) is a not-for-profit organization formed in July 2004 to determine the three-dimensional structures of proteins of medical relevance, and place them in the public domain immediately and without restriction. The SGC's 180 scientists work out of the Universities of Oxford and Toronto and Karolinska Institutet, Stockholm.
The SGC receives funding from Canadian, Swedish and British sponsors representing both the public and private sectors: the Canada Foundation for Innovation, Canadian Institutes of Health Research, Genome Canada through the Ontario Genomics Institute, Karolinska Institutet, the Knut and Alice Wallenberg Foundation, the Swedish Governmental Agency for Innovation Systems (VINNOVA), Swedish Foundation for Strategic Research, the Government of Ontario, the Wellcome Trust, GlaxoSmithKline, Merck and Novartis.