Robustness of a rhythmic circuit to short- and long-term temperature changes
about
Robust circuit rhythms in small circuits arise from variable circuit components and mechanismsMultiple Solutions to the Same Problem: Utilization of Plausibility and Syntax in Sentence Comprehension by Older Adults with Impaired HearingDe novo transcriptome assembly for the lobster Homarus americanus and characterization of differential gene expression across nervous system tissues.Phase maintenance in a rhythmic motor pattern during temperature changes in vivoHidden synaptic differences in a neural circuit underlie differential behavioral susceptibility to a neural injuryThe effects of temperature on the stability of a neuronal oscillator.Quantitative neuropeptidomics study of the effects of temperature change in the crab Cancer borealisTemperature sensitivity of the pyloric neuromuscular system and its modulation by dopamine.Correlated conductance parameters in leech heart motor neurons contribute to motor pattern formationIdentifying crucial parameter correlations maintaining bursting activityA modeling approach on why simple central pattern generators are built of irregular neuronsElectrophysiological Investigation of Different Methods of Anesthesia in Lobster and Crayfish.Multiple mechanisms switch an electrically coupled, synaptically inhibited neuron between competing rhythmic oscillatorsNatural antisense transcripts regulate the neuronal stress response and excitability.How can motor systems retain performance over a wide temperature range? Lessons from the crustacean stomatogastric nervous system.Many parameter sets in a multicompartment model oscillator are robust to temperature perturbationsAnalysis of Family Structures Reveals Robustness or Sensitivity of Bursting Activity to Parameter Variations in a Half-Center Oscillator (HCO) Model.The complexity of small circuits: the stomatogastric nervous system.Synergistic plasticity of intrinsic conductance and electrical coupling restores synchrony in an intact motor network.Neuromodulation to the Rescue: Compensation of Temperature-Induced Breakdown of Rhythmic Motor Patterns via Extrinsic Neuromodulatory Input.Increase in sodium conductance decreases firing rate and gain in model neurons.Temperature-Robust Neural Function from Activity-Dependent Ion Channel Regulation.The role of cAMP in synaptic homeostasis in response to environmental temperature challenges and hyperexcitability mutations.Temperature-robust neural activity using feedback control of ion channel expression.The Maintenance of Synaptic Homeostasis at the Drosophila Neuromuscular Junction Is Reversible and Sensitive to High Temperature.Physiological Changes as a Measure of Crustacean Welfare under Different Standardized Stunning Techniques: Cooling and Electroshock
P2860
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P2860
Robustness of a rhythmic circuit to short- and long-term temperature changes
description
2012 nî lūn-bûn
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2012年の論文
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2012年学术文章
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2012年学术文章
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2012年学术文章
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2012年学术文章
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2012年学术文章
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2012年學術文章
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2012年學術文章
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2012年學術文章
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name
Robustness of a rhythmic circuit to short- and long-term temperature changes
@ast
Robustness of a rhythmic circuit to short- and long-term temperature changes
@en
type
label
Robustness of a rhythmic circuit to short- and long-term temperature changes
@ast
Robustness of a rhythmic circuit to short- and long-term temperature changes
@en
prefLabel
Robustness of a rhythmic circuit to short- and long-term temperature changes
@ast
Robustness of a rhythmic circuit to short- and long-term temperature changes
@en
P2093
P2860
P1476
Robustness of a rhythmic circuit to short- and long-term temperature changes
@en
P2093
Adam L Taylor
Anatoly Rinberg
Lamont S Tang
P2860
P304
10075-10085
P356
10.1523/JNEUROSCI.1443-12.2012
P407
P50
P577
2012-07-01T00:00:00Z