Consortium for Functional Glycomics

Consortium for Functional Glycomics
Formation 2001
Purpose to define paradigms by which protein-carbohydrate interactions mediate cell communication
Headquarters The Scripps Research Institute
Membership
open to any investigator conducting grant-funded research on glycan-binding proteins or their ligands
Principal Investigator
James Paulson, Ph.D.
Budget
funded by a 10-year glue grant from the National Institute of General Medical Sciences, part of the U.S. National Institutes of Health (NIH)
Website http://www.functionalglycomics.org

The Consortium for Functional Glycomics (CFG) is a large research initiative funded in 2001 by a glue grant from the National Institute of General Medical Sciences (NIGMS) to “define paradigms by which protein-carbohydrate interactions mediate cell communication”.[1] To achieve this goal, the CFG studies the functions of:

The CFG comprises eight core facilities and 500+ participating investigators that work together to develop resources and services and make them available to the scientific community free of charge. The data generated by these resources are captured in databases accessible through the Functional Glycomics Gateway, a web resource maintained through a partnership between the CFG and Nature Publishing Group.

Organization

The CFG is composed of three main components: the Participating Investigators, the Cores, and the Steering Committee.

Participating Investigators

Progress towards the CFG’s overall goal is driven by the research of more than 500 Participating Investigators (PIs) around the world, whose laboratories utilize resources, services, and data produced by the CFG scientific cores.

The PIs are the largest component of the program, continuing to grow with new members each year. Each PI also has a program of research within the scope of the CFG, supported by non-CFG funds. Investigators apply for membership and must have a funded grant within the scope of the CFG, but they are not required to join the CFG to access resources. Several PIs also have CFG-funded bridging grants that are primarily tied to and enable the goals of the scientific cores, for the benefit of all PIs.

The PIs are organized into 10 subgroups led by Subgroup Leaders:

The subgroups hold at least three workshops per year, where they have formed several working groups to leverage CFG funding in their efforts to define GBP biology. PI contributions toward elucidating paradigms that define GBP function are captured in the CFG’s databases, as well as research publications and review articles.[2]

Cores

The majority of CFG funds are invested in the scientific cores, which are responsible for generating novel resources, new technologies, and a platform of information that investigators use in their research. The eight CFG cores are described below:

Steering Committee

The CFG is managed by a steering committee chaired by James Paulson, Ph.D., professor at The Scripps Research Institute and Principal Investigator of the CFG glue grant. Eleven additional glycomics experts and one NIGMS scientific officer make up the rest of the committee.

Five subcommittees oversee the cores and make recommendations to the steering committee regarding resource priorities and technology development: Bioinformatics Subcommittee, Glycan Array/Carbohydrate Library Subcommittee, Glycan Analysis Subcommittee, Mouse Subcommittee, and Nomenclature Subcommittee.

Resources

The CFG resources and services described above are free for the use of investigators studying the complex biology that governs the interactions of glycan-binding proteins and their ligands in mediating cell communication.

Resources can be requested by submitting a form at the Functional Glycomics Gateway website. Once a request is received, the appropriate core director reviews it and contacts the investigator if more information is needed. Once the core director finalizes a request and determines whether or not the core is capable of fulfilling it, the CFG Steering Committee reviews the request for final approval.

Membership in the CFG is not a requirement for receiving resources, but an investigator's institution must endorse the CFG's data sharing agreement in order to complete the resource request process.

Databases

Data obtained by CFG scientific cores with samples submitted by PIs, and data obtained by investigators in their own labs using CFG resources, are uploaded into the CFG databases for dissemination to investigators and to the scientific community. Specialty databases for GBPs, glycan structures, and glycosyltransferases are designed to help integrate data and assess progress against the overall goal.[13]

The easiest way to search through all CFG-related information is to enter a keyword (e.g. “galectin-1”, “sialic acid”, etc.) or IUPAC carbohydrate nomenclature in the search box at the top of the Functional Glycomics Gateway.

Funding

In 2001, the CFG was awarded a five-year, $34 million glue grant from NIGMS. In 2006, the CFG glue grant was renewed for another five years with an additional $40.7 million.[14] Glue grant funding ended August 31, 2011. The CFG is seeking alternate funding to continue many aspects of the CFG beyond the glue grant funding period.

External links

References

  1. NIGMS press release: http://www.nigms.nih.gov/News/Results/Paulson.htm
  2. For more information, see:
    Subgroup activities page
    List of PI publications citing CFG resources
  3. Raman R, Raguram S, Venkataraman G, Paulson JC, Sasisekharan R (2005). "Glycomics: an integrated systems approach to structure-function relationships of glycans". Nature Methods 2 (11): 817–24. doi:10.1038/nmeth807. PMID 16278650.
  4. Taniguchi N, Paulson JC (May 2007). "Frontiers in glycomics; bioinformatics and biomarkers in disease. September 11–13, 2006 Natcher Conference Center, NIH Campus, Bethesda, MD, USA". Proteomics 7 (9): 1360–3. doi:10.1002/pmic.200700123. PMID 17436269.
  5. Haslam SM, North SJ, Dell A (October 2006). "Mass spectrometric analysis of N- and O-glycosylation of tissues and cells". Current Opinion in Structural Biology 16 (5): 584–91. doi:10.1016/j.sbi.2006.08.006. PMID 16938453.
  6. Haslam SM, Julien S, Burchell JM, Monk CR, Ceroni A, Garden OA, Dell A (October 2008). "Characterizing the glycome of the mammalian immune system". Immunology and Cell Biology 86 (7): 564–73. doi:10.1038/icb.2008.54. PMID 18725885.
  7. New technology will advance our understanding of role of complex sugar chains decorating the surface of cells in the body. News-Medical.Net. December 8, 2004.
  8. Paulson JC, Blixt O, Collins BE (May 2006). "Sweet spots in functional glycomics". Nature Chemical Biology 2 (5): 238–48. doi:10.1038/nchembio785. PMID 16619023.
  9. Blixt O, Razi N (2006). "Chemoenzymatic synthesis of glycan libraries". Methods in Enzymology 415: 137–53. doi:10.1016/S0076-6879(06)15009-0. PMID 17116472.
  10. Comelli EM, Amado M, Head SR, Paulson JC (2002). "Custom microarray for glycobiologists: considerations for glycosyltransferase gene expression profiling". Biochemical Society Symposia (69): 135–42. PMID 12655780.
  11. Blixt O, Head S, Mondala T; et al. (December 2004). "Printed covalent glycan array for ligand profiling of diverse glycan binding proteins". Proceedings of the National Academy of Sciences of the United States of America 101 (49): 17033–8. doi:10.1073/pnas.0407902101. PMC 534418. PMID 15563589.
  12. Alvarez RA, Blixt O (2006). "Identification of ligand specificities for glycan-binding proteins using glycan arrays". Methods in Enzymology 415: 292–310. doi:10.1016/S0076-6879(06)15018-1. PMID 17116481.
  13. Raman R, Venkataraman M, Ramakrishnan S, Lang W, Raguram S, Sasisekharan R (May 2006). "Advancing glycomics: implementation strategies at the consortium for functional glycomics". Glycobiology 16 (5): 82R–90R. doi:10.1093/glycob/cwj080. PMID 16478800.
  14. TSRI press release: http://www.scripps.edu/news/press/090706.html
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