Journal ArticleDOI
Contribution of a single CA3 neuron to network synchrony
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TLDR
It is reported that an individual CA3 pyramidal cell can activate the CA1 neuronal network in vivo in rat hippocampus using electrical stimulations with simultaneous intracellular gamma and extracellular theta and slow and slow frequencies.About:
This article is published in NeuroImage.The article was published on 2006-07-01. It has received 9 citations till now. The article focuses on the topics: Pyramidal cell & Biological neural network.read more
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Propagation of specific network patterns through the mouse hippocampus.
TL;DR: Propagation of ripples through the hippocampal loop maintained precise temporal relationships at the network and cellular level, as indicated by coupling of field potentials, multiunit and single cell activity between major portions of CA3 and CA1.
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Field Potential Signature of Distinct Multicellular Activity Patterns in the Mouse Hippocampus
TL;DR: Application of unbiased sorting algorithms to sharp wave–ripple complexes in mouse hippocampal slices did indeed reveal the reliable recurrence of defined waveforms that were robust over prolonged recording periods and may be important for cognition-related physiological studies in humans and behaving animals.
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Characterization of synchronized bursts in cultured hippocampal neuronal networks with learning training on microelectrode arrays.
TL;DR: Results indicate that firing, association and synchrony of spontaneous bursts in neuronal networks were promoted by learning, and are encouraged to think of a more engineered system based on in vitro hippocampal neurons, as a novel sensitive system for electrophysiological evaluations.
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The limits of brain determinacy
TL;DR: Developmental stochasticity is sufficiently low to make neurobehavioural defects uncommon, but a chance component of neural development remains, indicating that the authors' brains and behaviour are not entirely determined by a combination of genes-plus-environment.
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The Effect of Neural Noise on Spike Time Precision in a Detailed CA3 Neuron Model
TL;DR: This study investigates the spike time precision of a multicompartmental pyramidal neuron model of the CA3 region of the hippocampus under the influence of various sources of neuronal noise, and describes differences in the contribution to noise originating from voltage-gated ion channels, synaptic vesicles release, and vesicle quantal size.
References
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Bursts as a unit of neural information: selective communication via resonance
TL;DR: An alternative, but complementary, hypothesis is discussed: bursts with specific resonant interspike frequencies are more likely to cause a postsynaptic cell to fire than are bursts with higher or lower frequencies, suggesting that bursts of action potentials might provide effective mechanisms for selective communication between neurons.
Bursts as a unit of neural information: selective communication via
TL;DR: In this article, the authors discuss the alternative, but complementary, hypothesis that bursts with specific resonant interspike frequencies are more likely to cause a postsynaptic cell to fire than are bursts with higher or lower frequencies.
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Hippocampal sequence-encoding driven by a cortical multi-item working memory buffer
Ole Jensen,John E. Lisman +1 more
TL;DR: It is argued that LTP can underlie the learning of such memory sequences, provided the input to the hippocampus is from a cortical multi-item working memory buffer in which theta and gamma oscillations have an important role.
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Single granule cells reliably discharge targets in the hippocampal CA3 network in vivo.
TL;DR: It is suggested that information in single granule cells is converted into a temporal delay code in target CA3 pyramidal cells and interneurons and reduced the delay between the onset of a granule cell train and evoked firing in postsynaptic targets.
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Serotonergic control of the hippocampus via local inhibitory interneurons.
TL;DR: The results show that the mechanism by which the serotonergic pathway may exert a powerful influence on hippocampal function involves the modulation of local inhibitory circuits, as well as among the subcortical input pathways originating in the septum and raphe.