Abstract
How Ca(2+) triggers delayed asynchronous release has long remained enigmatic. Synaptotagmin-7 has been implicated recently as Ca(2+) sensor in mediating delayed asynchronous release, or vesicle repriming, in cultured neurons. To test the precise function of synaptotagmin-7 in a physiologically important synapse in situ, we have used pair recordings to study the synaptic transmission between retinal rod bipolar cells and AII amacrine cells. Our data demonstrate that the knock-out of synaptotagmin-7 selectively impaired delayed asynchronous release but not synchronous release. In contrast, the readily releasable vesicles after depletion recover normally in knock-out mice. Therefore, our findings extend our knowledge of synaptotagmins as Ca(2+) sensors in vesicle fusion and support the idea that synapses are governed universally by different synaptotagmin Ca(2+) sensors mediating distinct release.
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