Program Snapshot
The Common Fund’s Structural Biology program is developing novel methods to isolate large amounts of membrane proteins and determine protein structure. Proteins that reside in cellular membranes perform many critical functions in our cells and each protein has a unique three-dimensional structure that allows it to fulfill its specific role by defining how it interacts with other cellular components. Membrane proteins that don’t perform as they should in diseased tissue are major targets for drug therapy. However, it is challenging to develop drugs with few side effects without knowing the structure of the protein target and which surfaces the drug interacts with. Membrane proteins have been particularly resistant to having their structure determined since the methods used to isolate them for structure determination can destroy them.
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Program Highlights
Researchers publish methods and tools to aid in protein structure determination
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Researchers Discover Structure of Opioid Receptors
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Common Fund Researchers Uncover Structure of Important Target For Drug Design
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Structure of allergy-causing histamine receptor revealed
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Program Highlight
Structural Biology grantee wins Nobel Prize in ChemistryDr. Brian Kobilka, grantee of the Common Fund Structural Biology program, has been awarded the 2012 Nobel Prize in Chemistry for groundbreaking studies on G-protein coupled receptors.