Lewis B. Eberly scite author profile

Lewis B. Eberly

4Publications

99Citation Statements Received

46Citation Statements Given

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Affiliations

University of Texas Health Science Center at Dallas, The University of Texas Medical Branch at Galveston, The University of Texas Southwestern Medical Center

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Neuronal correlates of siphon withdrawal in freely behaving Aplysia

Kanz¹,

Eberly²,

Cobbs³

et al. 1979

Journal of Neurophysiology

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1. Central neuronal mechanisms of siphon withdrawal in Aplysia were studied for the first time in intact, freely behaving animals by means of population recordings from implanted whole-nerve cuff electrodes. Intracellular follow-up studies were then conducted when the same animal was reduced to a semi-intact preparation. 2. Background spontaneous activity in the siphon nerve consisted of low-frequency firing of a population of efferent units containing identified siphon motoneurons. 3. Spontaneous patterned bursts of efferent activity occurred irregularly and were associated with all-or-nothing contractions of the parapodia, gill, and siphon. Spontaneous bursts were due to centrally generated activity in the interneuron II (INT II) network, an oscillatory network with endogenous pacemaker properties. 4. In intact animals, even weak tactile stimuli to the siphon typically triggered an INTII burst shortly after the stimulus-locked efferent activity. Thus, the stimulus can phase-advance the INT II oscillator. In semi-intact preparations, short-latency INT II bursts were triggered less less frequently and required more intense stimuli. 5. With weak to moderate-intensity stimuli in intact animals, the presence of short-latency triggered INT II bursts largely determined the duration of the siphon component and amplitude of the gill component of the withdrawal reflex. 6. When stimuli were repeated over a range of interstimulus intervals (from 60 to 1 min), the likelihood of triggering a short-latency INT II burst die not change systematically. Thus, the ability of the siphon stimulus to stably entrain the all-or-none INT II component over a wide range of intervals will interact behaviorally with the decrement of the monosynaptic component of the reflex with repetition.

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Iontophoretic mapping of corticotropin-releasing factor (CRF) sensitive neurons in the rat forebrain

1983

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Neuroethological studies of reflex plasticity in intact Aplysia..

Eberly¹,

Pinsker²

1984

Behavioral Neuroscience

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Multi-unit recording of siphon nerve activity in intact Aplysia california with chronically implanted cuff electrodes provided a monitor of activity in a central pattern generator, the Interneuron II (Int II) network, which produces large siphon and gill contractions both spontaneously and after tactile stimulation of the siphon. The phase-response curve of the Int II oscillator for single stimuli at different phases of the cycle showed a "refractory" period early in the cycle after which most stimuli phase advanced the oscillator and caused a short-latency Int II burst and a large contraction. The amplitude of gill withdrawal and the duration of siphon withdrawal in response to different stimulus intensities depended on whether an Int II burst was triggered. Activation of the Int II oscillator transformed the reflex from one that was graded smoothly with stimulus intensity to one in which nearly maximal responses were elicited even by weak stimuli. Entrainment and habituation training both involved monotonous repetition of a stimulus at specific intervals. With repeated siphon stimuli, nearly maximal reflex responses were maintained in intact animals as long as the Int II oscillator was entrained, whereas habituation was associated primarily with failure to entrain the oscillator. Long-term sensitization of the reflex was characterized by large and prolonged withdrawal responses. Sensitized animals showed significantly more triggered Int II bursts than did controls. In addition, digital spike-train analysis indicated that individual siphon motoneurons showed significantly increased background activity which often persisted for several minutes.

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Environmental modulation of a central pattern generator in freely behaving aplysia

Eberly

Kanz

Taylor

et al. 1981

Behavioral and Neural Biology

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Lewis B. Eberly

Neuronal correlates of siphon withdrawal in freely behaving Aplysia

Iontophoretic mapping of corticotropin-releasing factor (CRF) sensitive neurons in the rat forebrain

Neuroethological studies of reflex plasticity in intact Aplysia..

Environmental modulation of a central pattern generator in freely behaving aplysia

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