Results 301 to 310 of about 107,361 (347)
Different states of synaptic vesicle priming explain target cell type-dependent differences in neurotransmitter release. [PDF]
Proc Natl Acad Sci U S AAldahabi M, Neher E, Nusser Z.
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Synaptic vesicle protein 2A mitigates parthanatos via apoptosis-inducing factor in a rat model of pharmacoresistant epilepsy. [PDF]
CNS Neurosci TherLi C +5 more
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The synaptic vesicle proteome [PDF]
Journal of Neurochemistry, 2007 AbstractSynaptic vesicles are key organelles in neurotransmission. Vesicle integral or membrane‐associated proteins mediate the various functions the organelle fulfills during its life cycle. These include organelle transport, interaction with the nerve terminal cytoskeleton, uptake and storage of low molecular weight constituents, and the regulated ...
Jacqueline Burr
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Synaptic vesicle pools: an update [PDF]
Frontiers in Synaptic Neuroscience, 2010 During the last few decades synaptic vesicles have been assigned to a variety of functional and morphological classes or "pools". We have argued in the past (Rizzoli and Betz, 2005) that synaptic activity in several preparations is accounted for by the function of three vesicle pools: the readily releasable pool (docked at active zones and ready to go ...
Silvio O Rizzoli
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Synaptic Vesicle Biogenesis [PDF]
Annual Review of Cell and Developmental Biology, 1999 ▪ Abstract Synaptic vesicles, which have been a paradigm for the fusion of a vesicle with its target membrane, also serve as a model for understanding the formation of a vesicle from its donor membrane. Synaptic vesicles, which are formed and recycled at the periphery of the neuron, contain a highly restricted set of neuronal proteins.
Matthew J. Hannah +2 more
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Biochemical Pharmacology, 1970
Abstract Isolated synaptosomes from guinea pig brain homogenates incorporated choline- 14 C when incubated either in a medium with an external energy source or in one containing only Tris buffer. The incorporation was divisible into three fractions: total, TCA-insoluble, and chloroform-soluble.
Brian A. Hemsworth, H B Bosmann
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Abstract Isolated synaptosomes from guinea pig brain homogenates incorporated choline- 14 C when incubated either in a medium with an external energy source or in one containing only Tris buffer. The incorporation was divisible into three fractions: total, TCA-insoluble, and chloroform-soluble.
Brian A. Hemsworth, H B Bosmann
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Formation of synaptic vesicles
Current Opinion in Cell Biology, 1994Synaptic vesicles (SVs) are specialized secretory organelles used for the fast and focal signaling between nerve cells. They are small and homogeneous in size (50 nm), and contain non-peptide neurotransmitters such as glutamate, gamma-aminobutyric acid (GABA) and acetylcholine. The exocytosis of SVs occurs at low rates in resting nerve terminals and is
O Mundigl, Pietro De Camilli
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Synaptic Vesicles and Exocytosis [PDF]
Annual Review of Neuroscience, 1994 Neurons transmit information by releasing neurotransmitters from presynaptic nerve endings, In the resting stage , transmitters are stored in small organelles of uniform size and shape , the synaptic vesicles . When an action potential arrives in the nerve terminal , the membrane depolarizes and voltage-gated Ca2+ channels open .
Reinhard Jahn, Thomas C. Südhof
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Isolation of Synaptic Vesicles
Current Protocols in Cell Biology, 2004AbstractSynaptic vesicles are the most abundant secretory organelle in eukaryotic neural cells. Synaptic vesicles are physically distinct from other membrane‐bound organelles because they are small, spherical, and highly uniform in size with a diameter of about 40 nm.
Gloria Salazar +2 more
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