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321
Interaction of frontal and perirhinal cortices in visual object recognition memory in monkeys.
Published 1998“…Monkeys were trained preoperatively in visual object recognition memory. …”
Journal article -
322
Retinal ganglion cells that project to the superior colliculus and pretectum in the macaque monkey.
Published 1984“…Anatomically the P gamma and P epsilon cells are heterogeneous, which would be consistent with the physiological heterogeneity found for ganglion cells which project to the midbrain in monkeys.…”
Journal article -
323
THE EFFECT OF MEPROBAMATE AND RESERPINE ON AUDITORY-DISCRIMINATION AND DELAYED-RESPONSE IN THE RHESUS-MONKEY
Published 1959Journal article -
324
Prospective memory in the formation of learning sets by rhesus monkeys (Macaca mulatta).
Published 2006“…In conventional discrimination learning-set formation, it is possible that rhesus monkeys (Macaca mulatta) learn to lay down prospective memories by anticipating the next trial and deciding in advance what choice will be made. …”
Journal article -
325
Asymmetry of attentional set in rhesus monkeys learning colour and shape discriminations.
Published 2007“…We trained rhesus monkeys on six visual discrimination problems using stimuli that varied in both shape and colour. …”
Journal article -
326
A NOTE ON FURTHER EXPERIMENTS ON THE EFFECTS OF MEPROBAMATE ON DISCRIMINATION PERFORMANCE IN THE MONKEY
Published 1965Journal article -
327
Inferotemporal-frontal Disconnection: The Uncinate Fascicle and Visual Associative Learning in Monkeys.
Published 1992“…In experiment 1, monkeys with bilateral section of the uncinate fascicle showed a marked deficit in learning visuomotor conditional problems. …”
Journal article -
328
Restricted posterior parietal lesions in the rhesus monkey and performance on visuospatial tasks.
Published 1979“…Monkeys with lesions restricted to the inferior parietal lobule or the banks and depths of the superior temporal sulcus were tested on a route-following task. …”
Journal article -
329
RECOGNITION MEMORY AFTER SHORT RETENTION INTERVALS IN FORNIX-TRANSECTED MONKEYS
Published 1977Journal article -
330
Nigrostriatal damage is required for induction of dyskinesias by L-DOPA in squirrel monkeys.
Published 1990“…We examined the ability of L-DOPA to induce dyskinesias in MPTP-treated and normal squirrel monkeys to establish whether the underlying neuropathology associated with parkinsonism is an absolute requirement or merely promotes the development of drug-induced dyskinesias. …”
Journal article -
331
Cross-modal matching in the monkey after discrete temporal lobe lesions.
Published 1975Journal article -
332
Terminators, monkeys and mass culture - The carnival of time in science fiction films
Published 2002“…Through the reading of films such as 12 Monkeys, Terminator and others we attempt to show that time in this context entails a possibility of intervention in history (both personal and social) and is presented as non-linear and non-teleological.…”
Journal article -
333
Comparison of the effects of striate cortex and retinal lesions on visual acuity in the monkey.
Published 1967“…If the same "eccentricity" function applies to the monkey, then it can be shown that striate cortex lesions produce a smaller acuity impairment than is predicted by electrophysiological maps of the projection of retina onto the cortex. …”
Journal article -
334
Recognition impaired and association intact in the memory of monkeys after transection of the fornix.
Published 1974Journal article -
335
Recognition memory after short retention intervals in fornix-transected monkeys.
Published 1977Journal article -
336
Effects of delaying reward on visual-discrimination performance in monkeys with frontal lesions.
Published 1958Journal article -
337
The effects of inferotemporal cortex lesions on Konorski delayed pair comparison in monkeys.
Published 1983“…Rhesus monkeys were trained on a pair comparison recognition memory task, running concurrently with a signal detection (attention) problem. …”
Journal article -
338
Inferotemporal-frontal disconnection and fornix transection in visuomotor conditional learning by monkeys.
Published 1988“…The first 2 experiments examined the ability of monkeys (Macaca fascicularis) to learn a series of visuomotor conditional discrimination problems for food reward. …”
Journal article -
339
Single and concurrent discrimination learning by monkeys after lesions of inferotemporal cortex.
Published 1986Journal article -
340
Interlaminar and lateral excitatory amino acid connections in the striate cortex of monkey.
Published 1989“…The intrinsic excitatory amino acid pathways within the striate cortex of monkeys were studied by autoradiographic detection of retrogradely labeled somata following microinjections of D-3H-aspartate (D-3H-Asp) into different layers. …”
Journal article