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¹ Institute of Biology, Department of Biophysics, Humboldt-University, Berlin, D-10115, Germany
² Howard Hughes Medical Institute and Department of Cell Biology, Harvard Medical School, Boston, MA 02115

Correspondence to Tom A. Rapoport: tom_rapoport{at}hms.harvard.edu

How can organelles communicate by bidirectional vesicle transport and yet maintain different protein compositions? We show by mathematical modeling that a minimal system, in which the basic variables are cytosolic coats for vesicle budding and membrane-bound soluble N-ethyl-maleimide–sensitive factor attachment protein receptors (SNAREs) for vesicle fusion, is sufficient to generate stable, nonidentical compartments. A requirement for establishing and maintaining distinct compartments is that each coat preferentially packages certain SNAREs during vesicle budding. Vesicles fuse preferentially with the compartment that contains the highest concentration of cognate SNAREs, thus further increasing these SNAREs. The stable steady state is the result of a balance between this autocatalytic SNARE accumulation in a compartment and the distribution of SNAREs between compartments by vesicle budding. The resulting nonhomogeneous SNARE distribution generates coat-specific vesicle fluxes that determine the size of compartments. With nonidentical compartments established in this way, the localization and cellular transport of cargo proteins can be explained simply by their affinity for coats.

Abbreviation used in this paper: BFA, brefeldin A.

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This article has been cited by other articles:

• Gong, H., Sengupta, D., Linstedt, A. D., Schwartz, R. (2008). Simulated De Novo Assembly of Golgi Compartments by Selective Cargo Capture during Vesicle Budding and Targeted Vesicle Fusion. Biophys. J 95: 1674-1688 [Abstract] [Full Text]  
• Ungermann, C., Langosch, D. (2005). Functions of SNAREs in intracellular membrane fusion and lipid bilayer mixing. J. Cell Sci. 118: 3819-3828 [Abstract] [Full Text]  

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