Results 241 to 250 of about 466,973 (293)
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Accounts of Chemical Research, 2019
Living organisms have a long evolutionary history that has provided them with functions and structures that enable them to survive in their environment. The goal of biomimetic technology is to emulate these traits of living things.
Yeongjun Lee, Tae‐Woo Lee
semanticscholar +1 more source
Living organisms have a long evolutionary history that has provided them with functions and structures that enable them to survive in their environment. The goal of biomimetic technology is to emulate these traits of living things.
Yeongjun Lee, Tae‐Woo Lee
semanticscholar +1 more source
Artificial Synapses Based on Multiterminal Memtransistors for Neuromorphic Application
Advanced Functional Materials, 2019Neuromorphic computing, which emulates the biological neural systems could overcome the high‐power consumption issue of conventional von‐Neumann computing. State‐of‐the‐art artificial synapses made of two‐terminal memristors, however, show variability in
Lin Wang +17 more
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Electrical synapses and their functional interactions with chemical synapses [PDF]
Nature Reviews Neuroscience, 2014 Brain function relies on the ability of neurons to communicate with each other. Interneuronal communication primarily takes place at synapses, where information from one neuron is rapidly conveyed to a second neuron. There are two main modalities of synaptic transmission: chemical and electrical. Far from functioning independently and serving unrelated
Alberto E Pereda
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The Neuroscientist, 2006
Synapses are packed with mitochondria, complex organelles with roles in energy metabolism, cell signaling, and calcium homeostasis. However, the precise mechanisms by which mitochondria influence neurotrans mission remain undefined. In this review, the authors discuss pharmacological and genetic analyses of synaptic mitochondrial function, focusing on
Cindy V, Ly, Patrik, Verstreken
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Synapses are packed with mitochondria, complex organelles with roles in energy metabolism, cell signaling, and calcium homeostasis. However, the precise mechanisms by which mitochondria influence neurotrans mission remain undefined. In this review, the authors discuss pharmacological and genetic analyses of synaptic mitochondrial function, focusing on
Cindy V, Ly, Patrik, Verstreken
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Progress in Neurobiology, 1997
Thalamocortical synapses inform the cerebral neocortex about the external and internal worlds. The thalamus produces myriad thalamocortical pathways that vary in morphological, physiological, pharmacological and functional properties. All these features are of great importance for understanding how information is acquired, integrated, processed, stored
M A, Castro-Alamancos, B W, Connors
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Thalamocortical synapses inform the cerebral neocortex about the external and internal worlds. The thalamus produces myriad thalamocortical pathways that vary in morphological, physiological, pharmacological and functional properties. All these features are of great importance for understanding how information is acquired, integrated, processed, stored
M A, Castro-Alamancos, B W, Connors
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Memristive Synapses and Neurons for Bioinspired Computing
Advanced Electronic Materials, 2019To realize highly efficient neuromorphic computing that is comparable to biological counterparts, bioinspired computing systems, consisting of biorealistic artificial synapses and neurons, are developed with memristive devices with native dynamics ...
Rui Yang, He-Ming Huang, Xin Guo
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Nature Reviews Neuroscience, 2002
Post-translational modification by the attachment of ubiquitin seems to have a crucial role in regulating synaptic structure and function. By controlling the stability, activity and localization of target proteins, this versatile regulatory system can shape the pattern, activity and plasticity of synaptic connections.
Ashok N, Hegde, Aaron, DiAntonio
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Post-translational modification by the attachment of ubiquitin seems to have a crucial role in regulating synaptic structure and function. By controlling the stability, activity and localization of target proteins, this versatile regulatory system can shape the pattern, activity and plasticity of synaptic connections.
Ashok N, Hegde, Aaron, DiAntonio
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European Journal of Neuroscience, 2014
AbstractIt has been several decades since synaptic dysfunction was first suggested to play a role in schizophrenia, but only in the last few years has convincing evidence been obtained as progress has been made in elucidating the genetic underpinnings of the disorder.
Andrew J, Pocklington +2 more
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AbstractIt has been several decades since synaptic dysfunction was first suggested to play a role in schizophrenia, but only in the last few years has convincing evidence been obtained as progress has been made in elucidating the genetic underpinnings of the disorder.
Andrew J, Pocklington +2 more
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PDZ domain proteins of synapses
Nature Reviews Neuroscience, 2004Eunjoon Kim, Morgan Sheng
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Molecular Immunology, 2002
The immunological synapse plays a central role in organising the immune system. Through their synaptic activity both T and B cells usually, but not always, acquire the information that critically determines the level and nature of the responses that they make. For T cells much of that information comes from epicrine and paracrine cell-cell interactions
R J, Creusot +2 more
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The immunological synapse plays a central role in organising the immune system. Through their synaptic activity both T and B cells usually, but not always, acquire the information that critically determines the level and nature of the responses that they make. For T cells much of that information comes from epicrine and paracrine cell-cell interactions
R J, Creusot +2 more
openaire +2 more sources