Synaptically activated burst-generating conductances may underlie a group-pacemaker mechanism for respiratory rhythm generation in mammals. - Wikidata - awgldk - TriplyDB

Synaptically activated burst-generating conductances may underlie a group-pacemaker mechanism for respiratory rhythm generation in mammals.

Synaptically activated burst-generating conductances may underlie a group-pacemaker mechanism for respiratory rhythm generation in mammals.

http://www.wikidata.org/entity/Q42188063

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Brainstem respiratory networks: building blocks and microcircuits Microcircuits in respiratory rhythm generation: commonalities with other rhythm generating networks and evolutionary perspectives.Flufenamic acid as an ion channel modulator.Expression of phospho-Ca(2+) /calmodulin-dependent protein kinase II in the pre-Bötzinger complex of rats.Respiratory neuron characterization reveals intrinsic bursting properties in isolated adult turtle brainstems (Trachemys scripta).Robust network oscillations during mammalian respiratory rhythm generation driven by synaptic dynamics.Metabotropic glutamate receptors (mGluR5) activate transient receptor potential canonical channels to improve the regularity of the respiratory rhythm generated by the pre-Bötzinger complex in mice.Cycle-by-cycle assembly of respiratory network activity is dynamic and stochastic.Computational models and emergent properties of respiratory neural networks.Understanding the rhythm of breathing: so near, yet so far.The cellular building blocks of breathing Structural-functional properties of identified excitatory and inhibitory interneurons within pre-Botzinger complex respiratory microcircuits.Neural circuit flexibility in a small sensorimotor system.Sensory-evoked perturbations of locomotor activity by sparse sensory input: a computational study.The Onset of the Fetal Respiratory Rhythm: An Emergent Property Triggered by Chemosensory Drive?Different roles for inhibition in the rhythm-generating respiratory network.Transient Receptor Potential Channels TRPM4 and TRPC3 Critically Contribute to Respiratory Motor Pattern Formation but not Rhythmogenesis in Rodent Brainstem Circuits.

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P2860

Synaptically activated burst-generating conductances may underlie a group-pacemaker mechanism for respiratory rhythm generation in mammals.

http://www.wikidata.org/entity/Q42188063

description

2010 nî lūn-bûn

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2010年の論文

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2010年学术文章

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2010年学术文章

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2010年学术文章

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2010年学术文章

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2010年學術文章

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2010年學術文章

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2010年學術文章

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name

Synaptically activated burst-g ...... rhythm generation in mammals.

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Synaptically activated burst-g ...... rhythm generation in mammals.

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type

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Synaptically activated burst-g ...... rhythm generation in mammals.

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Synaptically activated burst-g ...... rhythm generation in mammals.

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Synaptically activated burst-g ...... rhythm generation in mammals.

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Synaptically activated burst-g ...... rhythm generation in mammals.

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Progress in Brain Research

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Synaptically activated burst-g ...... rhythm generation in mammals.

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Benjamin R Brush

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Christopher A Del Negro

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Jack L Feldman

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John A Hayes

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Ryland W Pace

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Ryoichi Teruyama

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P2860

Intracellular Ca2+ and the phospholipid PIP2 regulate the taste transduction ion channel TRPM5

Circuits controlling vertebrate locomotion: moving in a new direction

Pre-Bötzinger complex: a brainstem region that may generate respiratory rhythm in mammals

TRPV1 channels mediate long-term depression at synapses on hippocampal interneurons

Multiple rhythmic states in a model of the respiratory central pattern generator

Spatial and functional architecture of the mammalian brain stem respiratory network: a hierarchy of three oscillatory mechanisms

Models of respiratory rhythm generation in the pre-Bötzinger complex. I. Bursting pacemaker neurons

Models of respiratory rhythm generation in the pre-Bötzinger complex. II. Populations Of coupled pacemaker neurons

Central pattern generators and the control of rhythmic movements

Sodium currents in medullary neurons isolated from the pre-Bötzinger complex region

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