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- The Functional Significance of Short-term Synaptic Plasticity. 短时程突触可塑性的功能意义。
- To investigate the effects of intermittent hypoxia on the hippocamp al synaptic plasticity in rat. 目的:研究间歇性低氧对大鼠海马神经元突触可塑性的影响。
- Covers ion channels in excitable membrane, synaptic transmission, and synaptic plasticity. 可激发细胞膜上之离子通道,神经突触传导与神经突触可塑性。
- Neuronal plasticity or synaptic plasticity is maximal during brain development and still exists in adult brain. 脑发育过程中其可塑性最强,成年脑仍具有可塑性。
- Liu Qian, Supervisor: Wang Huai-jing. Title: Effect of CUZHIFANG on Ethology and Synaptic Plasticity in hippocampus of aged learning and memory impaired rate. 刘谦,导师:王怀经教授。论文题目:“促智方对老年学习记忆减退大鼠行为学及海马突触可塑性的实验研究”。2001-2004。
- Synaptic plasticity is the basis of learning and memory and extensive studies focused on neurons and synapses whereas glial cells are neglected for a long time. 摘要突触的可塑性是研究学习与记忆的基础,很长时间以来人们对突触的可塑性研究主要集中在神经元和突触上;
- Abstract: Synaptic plasticity is important for the remodeling of neural circuits during brain development and is implicated in higher brain functions such as learning and memory. 摘 要: 突触可塑性对于脑发育过程中的神经环路重构以及学习记忆等脑的高级功能是非常重要的。
- Surveys the molecular and cellular mechanisms of neuronal communication.Coversion channels in excitable membrane, synaptic transmission, and synaptic plasticity. 本课程探讨神经元传导,可激发细胞膜上之离子通道,神经突触传导与神经突触可塑性的分子以及细胞机制。
- Memories are formed when the repeated actiation of brain cells leads to a strengthening of neural connections, or synapses, a process known as synaptic plasticity. 当重复激活脑细胞以形成固定的神经联系时,就形成了记忆力,或者重复刺激突触也能形成这种联系,这个过程叫做突触可塑性。
- In the present work, we investigated the synaptic plasticity and neural circuitry in the outer retina using the electrophysiological method and model analysis. 本论文从实验和模型两方面研究了视网膜外网状层的突触可塑性和神经元回路。
- A possible mathematical formula of synaptic plasticity is proposed which may be used to describe both the long-term potentiation and the long-term depression. 提出突触可塑性的一个可能的数学公式,尝试用这个公式统一地描述突触长时程增强效应和突触长时程抑制效应。
- Long-term recovery after brain injury, through neurite outgrowth, synaptic plasticity, or neuron regeneration, is influenced by astrocyte surface molecule expression and trophic factor release [3]. 脑损伤后,通过神经突生长,突触可塑性和神经元再生的长期恢复过程受星形胶质细胞表面分子的表达和营养因子释放的影响。
- There are evidences that astrocytes, microglia and oligodendrocytes can modulate the synaptic plasticity via multiple signaling pathways, including glutamate, serine, glycine and ATP et al. 最近的研究发现胶质细胞也参与突触的构成并影响突触的活动。
- Yet, while we are beginning to understand the cellular mechanisms underlying synaptic changes, it is important to consider the functional implications of synaptic plasticity in the intact brain. 当开始了解这些突触改变的细胞生物学机制的时候,也应该考虑这种突触可塑性在完整大脑中的功能意义。
- Synaptic Plasticity and Transsynaptic Signaling 突触的可塑性及跨突触传递
- PROGRESS IN STUDY OF SHORT-TERM SYNAPTIC PLASTICITY 短时程突触可塑性研究概况
- NMDA receptor-dependent synaptic plasticity NMDA受体相关的突触可塑性
- Synaptic Plasticity Modeling Upon a New Model of Biological Neuron 基于新型神经元模型上的突触可塑性建模
- Keywords synaptic plasticity;long term depression;hippocampus; 突触可塑性;长时程抑制;海马;
- Keywords NMDA receptors;synaptic plasticity;receptor subunits.; NMDA受体;突触可塑性;受体亚单位;