Add to ORKG1. The five large and four small neurones in the cardiac ganglion of the crab, Portunus, are electrotonically coupled and behave as a single relaxation oscillator, exhibiting periodic bursting activity in vitro. Recorded from the large neurone somata, this activity consists of 200-400 ms slow depolariza-tions called 'driver potentials ' (Tazaki & Cooke, 1979a), accompanied by attenuated action potentials and EPSP's from small neurone input. 2. There is a strong positive correlation between the duration of the driver potential and the duration of the following interburst interval in the spon-taneously active ganglion. This correlation is preserved during prolonged depolarization and hyperpolarization. 3. When a driver pote...
bursting in an identified neuron of an oscillatory circuit. J. Neuro-physiol. 82: 115–122, 1999. In ...
Many rhythmical behaviors such as walking, flying, breathing and chewing are generated by neural cir...
We studied the effect of synaptic inputs of different amplitude and duration on neural oscillators b...
The crustacean cardiac ganglion has traditionally been viewed as a two-layered system in which pacem...
Ionic current components during TTX-resistant driver potential (DP) oscillation were studied on volt...
The pacemaker ganglion of the lobster heart is a functionally complete neural structure of nine cell...
The isolated cardiac ganglion of the lobster is an autonomous, integrating system containing only ni...
The spontaneous burst discharges of isolated lobster (Homarus americanus) cardiac ganglia were recor...
1. The repetitive spike firing in the large neuron of the crab cardiac ganglion has been studied by ...
Generating appropriate and functional neuronal output is a matter of fundamental importance to nervo...
Many nervous systems contain rhythmically active subnet-works that interact despite oscillating at w...
In subesophageal ganglia of Helix pomatia there are cells which rhythmically show self-sustained mem...
The slow potential was recorded from the large cell of the lobster cardiac ganglion, and effects of ...
Neuronal networks produce reliable functional output throughout the lifespan of an animal despite ce...
The living cell maintain an electrical potential difference between the interior and the environment...
bursting in an identified neuron of an oscillatory circuit. J. Neuro-physiol. 82: 115–122, 1999. In ...
Many rhythmical behaviors such as walking, flying, breathing and chewing are generated by neural cir...
We studied the effect of synaptic inputs of different amplitude and duration on neural oscillators b...
The crustacean cardiac ganglion has traditionally been viewed as a two-layered system in which pacem...
Ionic current components during TTX-resistant driver potential (DP) oscillation were studied on volt...
The pacemaker ganglion of the lobster heart is a functionally complete neural structure of nine cell...
The isolated cardiac ganglion of the lobster is an autonomous, integrating system containing only ni...
The spontaneous burst discharges of isolated lobster (Homarus americanus) cardiac ganglia were recor...
1. The repetitive spike firing in the large neuron of the crab cardiac ganglion has been studied by ...
Generating appropriate and functional neuronal output is a matter of fundamental importance to nervo...
Many nervous systems contain rhythmically active subnet-works that interact despite oscillating at w...
In subesophageal ganglia of Helix pomatia there are cells which rhythmically show self-sustained mem...
The slow potential was recorded from the large cell of the lobster cardiac ganglion, and effects of ...
Neuronal networks produce reliable functional output throughout the lifespan of an animal despite ce...
The living cell maintain an electrical potential difference between the interior and the environment...
bursting in an identified neuron of an oscillatory circuit. J. Neuro-physiol. 82: 115–122, 1999. In ...
Many rhythmical behaviors such as walking, flying, breathing and chewing are generated by neural cir...
We studied the effect of synaptic inputs of different amplitude and duration on neural oscillators b...