Dendritic spines shaped by synaptic activity.

Segal M; Andersen P

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Dendritic spines shaped by synaptic activity.

机译：树突棘由突触活动塑造。

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A recent series of exciting observations, using novel high-resolution time-lapse imaging of living cells, has provoked a major shift in our understanding of the dendritic spine, from a stable storage site of long-term memory to a dynamic structure that undergoes rapid morphological variations. Through these recent observations, the molecular mechanisms underlying spine plasticity are beginning to emerge. A common mechanism involving changes in intracellular Ca(2+) concentration may control both the formation/elongation and the pruning/retraction of spines. Spine motility may be instrumental in the formation of synapses, may contribute to the anchoring/removing of glutamate receptors at spine heads, and may control the efficacy of existing synapses.

机译：最近的一系列激动人心的发现，使用活细胞的新型高分辨率延时成像技术，促使我们对树突棘的认识发生了重大转变，从长期记忆的稳定存储位置变为经历快速运动的动态结构。形态变化。通过这些最近的观察，脊柱可塑性的分子机制开始出现。涉及细胞内Ca（2+）浓度变化的常见机制可能同时控制棘的形成/伸长和修剪/回缩。脊柱运动可能在突触的形成中起重要作用，可能有助于将谷氨酸受体锚定/去除在脊柱头部，并可能控制现有突触的功效。

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《Current Opinion in Neurobiology》 |2000年第5期|共5页
作者
Segal M; Andersen P;
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原文格式 PDF
正文语种 eng
中图分类生理学;
关键词
Dendrites; Synapses; 树突; 突触;

机译：Dendrites;Synapses;树突;突触;
入库时间 2022-08-18 09:45:07

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1. Dendritic spines shaped by synaptic activity. [J] . Segal M, Andersen P Current Opinion in Neurobiology . 2000,第5期

机译：树突棘由突触活动塑造。
2. SGP-1 increases dendritic and synaptic development dependent on synaptic activity. [J] . Cove J, Morales CR, Baranes D Neuroscience Research: The Official Journal of the Japan Neuroscience Society . 2006,第4期

机译：SGP-1依赖于突触活性增加树突状和突触发育。
3. APLP1 Is a Synaptic Cell Adhesion Molecule, Supporting Maintenance of Dendritic Spines and Basal Synaptic Transmission [J] . Schilling Sandra, Mehr Annika, Ludewig Susann, The Journal of Neuroscience: The Official Journal of the Society for Neuroscience . 2017,第21期

机译：APLP1是突触细胞粘附分子，支撑树突刺和基底突触传递的维持
4. Using holographic illumination to study synaptic signal integration at individual dendritic spines [C] . Ju-Yun Weng, Cesar Celis, Dejan Zecevic Neural Imaging and Sensing 2019 . 2019

机译：使用全息照明研究单个树突棘的突触信号整合
5. Local, Non-linear Regulation of Synaptic Signals at Dendritic Spines of CA1 Pyramidal Cells. [D] . Giessel, Andrew Jacob. 2010

机译：CA1金字塔形细胞的树突棘中突触信号的局部，非线性调节。
6. Targeting of NF-κB to Dendritic Spines Is Required for Synaptic Signaling and Spine Development [O] . Erica C. Dresselhaus, Matthew C.H. Boersma, Mollie K. Meffert 2018

机译：突触信号传导和脊柱发育需要NF-κB靶向树突棘。
7. Targeting of NF-κB to Dendritic Spines is Required for Synaptic Signaling and Spine Development [O] . Erica C. Dresselhaus, Matthew C.H. Boersma, Mollie K. Meffert 2018

机译：突触信号传导和脊柱发育需要靶向NF-κB至树突状脊柱
8. Role of the Neurofibromin-Syndecan-CASK Complex in the Regulation of Synaptic Ras-MAPK Signaling and Dendritic Spine Plasticity [R] . Wu, G. 2006

机译：Neurofibromin-syndecan-CasK复合物在调节突触Ras-mapK信号和树突棘可塑性中的作用

Dendritic spines shaped by synaptic activity.

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