CORE--STRUCTURAL BIOLOGY FACILITY
Northwestern University, Evanston IL
Investigators
Linked publications & trials
Abstract
DESCRIPTION (provided by applicant): The Structural Biology Facility provides: a) resources required for crystallographic structure determination, refinement and analysis, b) molecular graphics and computational support for structural biology, and c) molecular graphics and computational support for structure-based drug design. The Facility is essential for the research programs of investigators of the Cancer Center who are studying the relation between macromolecular structure and function or who are using protein structure as the starting point for structure-based drug design. It is a unique resource at Northwestern University that capitalizes on the extensive expertise of a large group of users and the unique access to the synchrotron radiation X-ray source at the DND-CAT beamline at Argonne National Laboratories. It also serves to nucleate the development of a local community with expertise in structural and computational biology. Such expertise will increasingly be called upon as the structures of more cancer-related proteins become available. The Structural Biology and Drug Design Facility is based in the Department of Biochemistry, Molecular Biology and Cell Biology, with additional resources in the Department of Molecular Pharmacology and Biological Chemistry at the Medical School and at the DND-CAT sector of Advanced Photon Source. Dr. Alfonso Mondragon, a structural biologists at the Evanston Campus, directs the Facility. The Facility consists of three major components: a) an outstation at the APS that is devoted to state-of-the-art macromolecular crystallography, b) X-ray diffraction facilities at the Chicago and Evanston campuses to support preliminary crystallographic work and more routine crystallographic experiments, and c) computational facilities at both campuses to support structural determination calculations, both NMR and crystallographic, computational drug-design, and modeling efforts, including advanced graphical visualization and manipulation of models. The distributed nature of the facility reflects the means by which the data collection, computational, molecular visualization, and other scientific resources are networked, and thus integrated, for the structural biology research community at Northwesten.
View original record on NIH RePORTER →