中枢谷氨酸能突触处量子传递的潜在事件序列。

The sequence of events that underlie quantal transmission at central glutamatergic synapses.

作者信息

Lisman John E, Raghavachari Sridhar, Tsien Richard W

机构信息

Brandeis University, Department of Biology, MS 008, 415 South Street, Waltham, Massachusetts 02454-9110, USA.

出版信息

Nat Rev Neurosci. 2007 Aug;8(8):597-609. doi: 10.1038/nrn2191.

DOI:10.1038/nrn2191

PMID:17637801

Abstract

The properties of synaptic transmission were first elucidated at the neuromuscular junction. More recent work has examined transmission at synapses within the brain. Here we review the remarkable progress in understanding the biophysical and molecular basis of the sequential steps in this process. These steps include the elevation of Ca2+ in microdomains of the presynaptic terminal, the diffusion of transmitter through the fusion pore into the synaptic cleft and the activation of postsynaptic receptors. The results give insight into the factors that control the precision of quantal transmission and provide a framework for understanding synaptic plasticity.

摘要

突触传递的特性最初是在神经肌肉接头处得以阐明的。最近的研究工作已对脑内突触的传递进行了检测。在此，我们回顾在理解这一过程中各个连续步骤的生物物理和分子基础方面所取得的显著进展。这些步骤包括突触前终末微区内Ca2+浓度的升高、递质通过融合孔扩散至突触间隙以及突触后受体的激活。这些结果有助于深入了解控制量子传递精确性的因素，并为理解突触可塑性提供一个框架。

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中枢谷氨酸能突触处量子传递的潜在事件序列。

The sequence of events that underlie quantal transmission at central glutamatergic synapses.

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