Anatomy and dynamics of a supramolecular membrane protein cluster
- PMID: 17717182
- DOI: 10.1126/science.1141727
Anatomy and dynamics of a supramolecular membrane protein cluster
Abstract
Most plasmalemmal proteins organize in submicrometer-sized clusters whose architecture and dynamics are still enigmatic. With syntaxin 1 as an example, we applied a combination of far-field optical nanoscopy, biochemistry, fluorescence recovery after photobleaching (FRAP) analysis, and simulations to show that clustering can be explained by self-organization based on simple physical principles. On average, the syntaxin clusters exhibit a diameter of 50 to 60 nanometers and contain 75 densely crowded syntaxins that dynamically exchange with freely diffusing molecules. Self-association depends on weak homophilic protein-protein interactions. Simulations suggest that clustering immobilizes and conformationally constrains the molecules. Moreover, a balance between self-association and crowding-induced steric repulsions is sufficient to explain both the size and dynamics of syntaxin clusters and likely of many oligomerizing membrane proteins that form supramolecular structures.
Comment in
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Biochemistry. Crowds of syntaxins.Science. 2007 Aug 24;317(5841):1045-6. doi: 10.1126/science.1148010. Science. 2007. PMID: 17717175 No abstract available.
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