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Dendritic beading during early brain development impairs signal transmission and synaptic plasticity. [PDF]
Acta Neuropathol CommunSuryavanshi P +5 more
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Tumori Journal, 2002
Dendritic cells (DC) are the most effective or ‘professional’ of the antigen‐presenting cells (APC) that initiate primary immune responses. They are located at surveillance sites where they capture and process antigens. They then initiate and regulate T‐ and B‐cell responses by expressing lymphocyte costimulatory molecules, migrating to lymphoid organs
Massimo, Di Nicola, A, Massimo Gianni
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Dendritic cells (DC) are the most effective or ‘professional’ of the antigen‐presenting cells (APC) that initiate primary immune responses. They are located at surveillance sites where they capture and process antigens. They then initiate and regulate T‐ and B‐cell responses by expressing lymphocyte costimulatory molecules, migrating to lymphoid organs
Massimo, Di Nicola, A, Massimo Gianni
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Dendritic Subunits Determined by Dendritic Morphology
Neural Computation, 2001A theoretical framework is presented in which arbitrarily branched dendritic structures with nonhomogeneous membrane properties and nonuniform geometry can be transformed into an equivalent unbranched structure (equivalent cable). Rall's equivalent cylinder is seen to be one part of the equivalent cable in the special case of dendrites satisfying the ...
Lindsay, K. A. +2 more
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Current Opinion in Neurobiology, 2001
Dendritic processing multiplies the computational power of a single neuron by enabling the processing of inputs in a spatio-temporally differentiated manner. Recently, the development of new and refined optical, electrophysiological and molecular-biological techniques has led to new insights into dendritic function and revealed an astonishing plethora ...
Euler, T., Denk, W.
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Dendritic processing multiplies the computational power of a single neuron by enabling the processing of inputs in a spatio-temporally differentiated manner. Recently, the development of new and refined optical, electrophysiological and molecular-biological techniques has led to new insights into dendritic function and revealed an astonishing plethora ...
Euler, T., Denk, W.
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Angewandte Chemie International Edition, 1998
Self-organization is the key. A series of dendritic pseudorotaxanes were efficiently constructed from complementary building blocks-namely, a three-armed, triply charged ammonium salt and the first, second, and third generations of benzyl ether dendrons bearing the dibenzo[24]crown-8 moiety.
Nori, Yamaguchi +2 more
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Self-organization is the key. A series of dendritic pseudorotaxanes were efficiently constructed from complementary building blocks-namely, a three-armed, triply charged ammonium salt and the first, second, and third generations of benzyl ether dendrons bearing the dibenzo[24]crown-8 moiety.
Nori, Yamaguchi +2 more
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Current Opinion in Hematology, 1998
Dendritic cells are potent stimulators of immune responses against foreign antigens. Recent advances in this area include the delineation of distinct developmental pathways for different dendritic cell subsets; the emerging concept that one dendritic cell subset has regulatory functions that may contribute to induction of tolerance to self antigens ...
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Dendritic cells are potent stimulators of immune responses against foreign antigens. Recent advances in this area include the delineation of distinct developmental pathways for different dendritic cell subsets; the emerging concept that one dendritic cell subset has regulatory functions that may contribute to induction of tolerance to self antigens ...
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Annual Review of Neuroscience, 2005
One of the central questions in neuroscience is how particular tasks, or computations, are implemented by neural networks to generate behavior. The prevailing view has been that information processing in neural networks results primarily from the properties of synapses and the connectivity of neurons within the network, with the intrinsic excitability
Michael, London, Michael, Häusser
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One of the central questions in neuroscience is how particular tasks, or computations, are implemented by neural networks to generate behavior. The prevailing view has been that information processing in neural networks results primarily from the properties of synapses and the connectivity of neurons within the network, with the intrinsic excitability
Michael, London, Michael, Häusser
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Qualitative Theory of Dynamical Systems, 2017
zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Haj Salem, Aymen, Hattab, Hawete
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zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Haj Salem, Aymen, Hattab, Hawete
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