Journal of neurophysiology
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1. We examined single-neuronal activity in the temporal pole of monkeys, including the anterior ventromedial temporal (VMT) cortex (the temporopolar cortex, area 36, area 35, and the entorhinal cortex) and the anterior inferotemporal (IT) cortex, during a visual recognition memory task. In the task, a trial began when the monkey pressed a lever. ⋯ Thus neurons that fire during the delay period represent a subgroup of visually responsive neurons that are selectively tuned to a certain stimulus. 7. More neurons fired during the delay period in the anterior VMT cortex than in the anterior IT cortex. 8. We conclude that firing during the delay period by neurons in the temporal pole reflects the short-term storage of visual information regarding a particular S.
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1. The withdrawal properties of the endogenous steroid progesterone (P) were tested in female rats as a function of benzodiazepine modulation of gamma-aminobutyric acid-A (GABAA)-gated current with the use of the whole cell patch-clamp technique on acutely dissociated CA1 hippocampal neurons. In a previous study, this steroid was shown to exhibit withdrawal properties, behaviorally. 2. ⋯ P withdrawal produced no inhibitory effect on either basal levels of GABAA-evoked current, the GABAA EC50, or barbiturate (+/-Pentobarbital, 10(-7)-10(-4) M) modulation of this parameter. 4. The effect of steroid withdrawal on LZM modulation of GABAA-evoked current was blocked by picrotoxin as well as by indomethacin, a drug that prevents conversion of P to its metabolite, the GABAA modulator 3 alpha,5 alpha-THP. These results suggest that the withdrawal properties of P may be due to changes in GABAA receptor function produced by 3 alpha,5 alpha-THP.
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1. The aim of this study was to utilize new quantitative behavioral methods in rats to investigate the effects of electrical stimulation in midbrain analgesia areas on the magnitude of flexion hindlimb withdrawal and tail flick reflexes evoked by graded noxious heating. Electrophysiological experiments were then done with the use of these animals to correlate behavioral data with the effects of identical midbrain stimulation on sacral dorsal horn neuronal responses to graded heating of the tail. 2. ⋯ Limb withdrawal EMG magnitude increased monotonically from threshold (approximately 40 degrees C) to 52 degrees C. The population stimulus-response function was fit equally well by linear regression or a 2 degrees polynomial function (r2 = 0.79 for both). PAG stimulation significantly reduced the mean slope of the stimulus-response function (to 73%; n = 15), whereas LRF stimulation shifted it toward the right with a smaller slope reduction (to 85%) and 3 degrees C increase in threshold.(ABSTRACT TRUNCATED AT 400 WORDS)
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1. Because the nucleus reticularis gigantocellularis (NRGc) receives a substantial descending projection from the caudal vestibular nuclei, we used extracellular single-unit recording combined with natural vestibular stimulation to examine the possible peripheral origins of the vestibularly modulated activity of caudal NRGc neurons located within 500 microns of the midline. Chloralose-urethan anesthetized rabbits were stimulated with an exponential "step" and/or static head-tilt stimulus, as well as sinusoidal rotation about the longitudinal or interaural axes providing various combinations of roll or pitch, respectively. ⋯ The activity of neurons in the medial aspect of the caudal NRGc of rabbits was modulated by both otolithic macular and vertical semicircular canal receptor stimulation. This vestibular information may be important for controlling the intensity of the muscle activity in muscles such as neck muscles where the load on the muscle is affected by the position of the head with respect to gravity. Some of these neurons may also shift muscle function from an agonist to an antagonist as the direction of head tilt changes.
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1. Electroolfactorgram (EOG) recordings were made from different regions of the rat olfactory epithelium to test for spatial distribution of odor responses. 2. The EOG recordings showed spatial distribution of the odor responses in the olfactory epithelium. ⋯ The responses to other odors (e.g., hexane or limonene) were not greatly affected by flow rate or sniff duration. 7. Taken with existing anatomic data, the results indicate that the primary olfactory neurons that project axons to glomeruli in different parts of the olfactory bulb are responsive to different odors. The latency differences between responses at medial and lateral sites are large enough to be physiologically significant in the generation of the patterned responses of olfactory bulb neurons.