Journal
SCIENCE
Volume 344, Issue 6187, Pages 1023-1028Publisher
AMER ASSOC ADVANCEMENT SCIENCE
DOI: 10.1126/science.1252884
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Funding
- Boehringer Ingelheim Fonds PhD Fellowship
- Excellence Stipend of the Gottingen Graduate School for Neurosciences, Biophysics, and Molecular Biosciences (GGNB)
- European Research Council (FP7 NANOMAP and ERC-CoG NeuroMolAnatomy)
- Deutsche Forschungsgemeinschaft (DFG) Cluster of Excellence Nanoscale Microscopy and Molecular Physiology of the Brain
- DFG [RI 1967 2/1, RI 1967 3/1, SFB 889/A5, Exc-257-Neurocure, SFB 958/A01, SFB 889, SFB 958/A11]
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Synaptic vesicle recycling has long served as a model for the general mechanisms of cellular trafficking. We used an integrative approach, combining quantitative immunoblotting and mass spectrometry to determine protein numbers; electron microscopy to measure organelle numbers, sizes, and positions; and super-resolution fluorescence microscopy to localize the proteins. Using these data, we generated a three-dimensional model of an average synapse, displaying 300,000 proteins in atomic detail. The copy numbers of proteins involved in the same step of synaptic vesicle recycling correlated closely. In contrast, copy numbers varied over more than three orders of magnitude between steps, from about 150 copies for the endosomal fusion proteins to more than 20,000 for the exocytotic ones.
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