对单个中枢突触处可释放量子的池大小以及重新填充该池所需时间的估计。
Estimates for the pool size of releasable quanta at a single central synapse and for the time required to refill the pool.
作者信息
Stevens C F, Tsujimoto T
机构信息
Howard Hughes Medical Institute, Salk Institute Molecular Neurobiology Laboratory, La Jolla, CA 92037.
出版信息
Proc Natl Acad Sci U S A. 1995 Jan 31;92(3):846-9. doi: 10.1073/pnas.92.3.846.
Abstract
Local superfusion of limited dendritic areas with hypertonic or hyperkalemic solutions stimulates the release of quanta from a small population of synapses made on rodent hippocampal neurons maintained in primary culture, and each quantal event can be detected in the postsynaptic neuron. With maintained stimulation, the initial release rate is about 20 quanta per sec per synapse, and this rate declines exponentially to a final low level. These observations can be interpreted as depletion of available quanta and, with this interpretation, a bouton would contain one to two dozen quanta in its readily releasable pool. Tests with a second application of the solution that produces release reveal that the pool of readily releasable quanta is replenished with a time constant of about 10 sec (36 degrees C). The pool of quanta defined in this way may correspond to the population of vesicles docked at the bouton's active zone.
摘要
用高渗或高钾溶液对有限的树突区域进行局部灌流,可刺激原代培养的啮齿动物海马神经元上一小群突触释放量子,并且每个量子事件都能在突触后神经元中被检测到。在持续刺激下,初始释放速率约为每秒每个突触20个量子,且该速率呈指数下降至最终低水平。这些观察结果可解释为可用量子的耗尽,据此解释,一个突触小体在其易释放池中会包含一到二十几个量子。用能产生释放的溶液再次进行测试表明,易释放量子池以约10秒(36摄氏度)的时间常数进行补充。以这种方式定义的量子池可能对应停靠在突触小体活动区的囊泡群体。
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