Action Potential and Sodium Current in the Slowly and Rapidly Adapting Stretch Receptor Neurons of the Crayfish (Astacus astacus) (original) (raw)

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Antidromic potential spread modulates the receptor responses in the stretch receptor neurons of the crayfish

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Transducer properties of the rapidly adapting stretch receptor neurone in the crayfish (Pacifastacus leniusculus)

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Crayfish stretch receptor: an investigation with voltage-clamp and ion-sensitive electrodes

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Different spatial distributions of sodium channels in the slowly and rapidly adapting stretch receptor neuron of the crayfish

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Summation of excitation and inhibition in the slowly adapting stretch receptor neuron of the crayfish

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In situ performance of slowly adapting stretch receptor of the crayfish

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On the Innervation of the Slowly Adapting Stretch Receptor of the Crayfish‘ Abdomen. An Electrophysiological Approach

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Macrocurrents of voltage gated Na+ and K+ channels from the crayfish stretch receptor neuronal soma

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The ionic regulation of action potentials in the axon of a stretch receptor neuron of the stick insect (Carausius morosus)

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Journal of Comparative Physiology A, 1995

Inward current caused by sodium-dependent uptake of GABA in the crayfish stretch receptor neurone

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Presynaptic calcium currents at voltage-clamped excitor and inhibitor nerve terminals of crayfish

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The Journal of physiology, 1996

The accessory reflex of the crayfish stretch receptor

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Processes of Excitation in the Dendrites and in the Soma of Single Isolated Sensory Nerve Cells of the Lobster and Crayfish

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Membrane Potentials, Synaptic Responses, Neuronal Circuitry, Neuromodulation and Muscle Histology Using the Crayfish: Student Laboratory Exercises

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Calcium-activated potassium conductance in presynaptic terminals at the crayfish neuromuscular junction

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Low Calcium Treatment Provokes Persistent Spiking in Tonic Crayfish Muscle

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Motor Neurones of the Crayfish Walking System Possess Tea+-Revealed Regenerative Electrical Properties

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The Journal of Experimental Biology, 1994

Ionic currents in identified swimmeret motor neurones of the crayfish Pacifastacus leniusculus

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Journal of Experimental Biology, 1995

Motor neurones of the crayfish walking system posses TEA+-revealed regenerative electrical properties

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Journal of Experimental Biology

Quantifying the Effects of Two Local Anesthetics on the Crayfish Stretch Receptor Organ: An Integrated Neurophysiology Lab

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Linear and Non-Linear Electrical Properties in Peptidergic Neurons of Crayfish Procambarus Clarkii and Cherax Quadricarinatus

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Journal of Crustacean Biology, 2009

Presynaptic facilitation at the crayfish neuromuscular junction. Role of calcium-activated potassium conductance

George Bittner

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Presynaptic Inhibition and Antidromic Spikes in Primary Afferents of the Crayfish: A Computational and Experimental Analysis

Daniel Cattaert

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Inhibitory Component of the Resistance Reflex in the Locomotor Network of the Crayfish

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Firing Properties of the Soma and Axon of the Abdominal Stretch Receptor Neurons in the Craysh ( )

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The Effects of External Potassium and Long Duration Voltage Conditioning on the Amplitude of Sodium Currents in the Giant Axon of the Squid, Loligo pealei

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The Journal of General Physiology, 1969

Structure and function relationship in the abdominal stretch receptor organs of the crayfish

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Comparison of excitatory currents activated by different transmitters on crustacean muscle. II. Glutamate-activated currents and comparison with acetylcholine currents present on the same muscle

Anthony Auerbach

The Journal of General Physiology, 1983

Sodium-dependent depolarizing potentials in veratrinized crayfish muscle fibres

Piotr Łaszczyca

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Analysis of Mechanisms of Spiking in Normally 'Non-Spiking' Motoneurone Somata in Crayfish

Gerard Czternasty

Temporal dynamics of convergent modulation at a crustacean neuromuscular junction

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Anesthetics produce differential actions on membrane responses of the crayfish stretch receptor neuron

Bruce MacIver

European Journal of Pharmacology, 1987

Shunting versus Inactivation: Analysis of Presynaptic Inhibitory Mechanisms in Primary Afferents of the Crayfish

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