FMP Publications

Our publications are recorded in a searchable database since 2010, updates will be added regularly.

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References
Stable Positioning of Unc13 Restricts Synaptic Vesicle Fusion to Defined Release Sites to Promote Synchronous Neurotransmission
Reddy-Alla(*), S., Böhme, M. A., Reynolds(*), E., Beis(*), C., Grasskamp, A. T., Mampell(*), M. M., Maglione, M., Jusyte, M., Rey(*), U., Babikir(*), H., McCarthy, A. W., Quentin(*), C., Matkovic(*), T., Bergeron(*), D. D., Mushtaq, Z., Goettfert(*), F., Owald(*), D., Mielke(*), T., Hell(*), S. W., Sigrist(*), S. J.; Walter, A. M.
Neuron,
(2017)

Tags: Molecular and Theoretical Neuroscience (Walter)

Abstract: Neural information processing depends on precisely timed, Ca2+-activated synaptic vesicle exocytosis from release sites within active zones (AZs), but molecular details are unknown. Here, we identify that the (M)Unc13-family member Unc13A generates release sites and show the physiological relevance of their restrictive AZ targeting. Super-resolution and intravital imaging of Drosophila neuromuscular junctions revealed that (unlike the other release factors Unc18 and Syntaxin-1A) Unc13A was stably and precisely positioned at AZs. Local Unc13A levels predicted single AZ activity. Different Unc13A portions selectively affected release site number, position, and functionality. An N-terminal fragment stably localized to AZs, displaced endogenous Unc13A, and reduced the number of release sites, while a C-terminal fragment generated excessive sites at atypical locations, resulting in reduced and delayed evoked transmission that displayed excessive facilitation. Thus, release site generation by the Unc13A C terminus and their specific AZ localization via the N terminus ensure efficient transmission and prevent ectopic, temporally imprecise release.

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Leibniz-Forschungsinstitut für Molekulare Pharmakologie im Forschungsverbund Berlin e.V. (FMP)
Campus Berlin-Buch
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