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Thalamic and temporal cortex input to medial prefrontal cortex in rhesus monkeys (1997)

Bachevalier, Jocelyne ; Meunier, M. ; Lu, M. X. ; [et al.]

Springer

Experimental brain research 115 (1997), S. 430-444

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ISSN: 1432-1106

Keywords: Key words Prefrontal cortex ; Cingulate cortex ; Thalamus ; Medial temporal lobe ; Nonhuman primates

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract To determine the source of thalamic input to the medial aspect of the prefrontal cortex, we injected retrograde tracers (wheat germ agglutinin conjugated to horseradish peroxidase, nuclear yellow, and/or bisbenzimide) into seven medial prefrontal sites and anterograde tracers (tritiated amino acids) into six thalamic sites, in a total of nine rhesus monkeys. The results indicated that ventral precallosal and subcallosal areas 14 and 25, and the ventral, subcallosal part of area 32, all receive projections from the mediodorsal portion of the magnocellular division of the medial dorsal nucleus (MDmc). The dorsal, precallosal part of area 32 receives projections mainly from the dorsal portion of the parvocellular division of the medial dorsal nucleus (MDpc), which also provides some input to area 14. Polar area 10 receives input from both MDpc and the densocellular division of the medial dorsal nucleus (MDdc), as does supracallosal area 24. Area 24 receives additional input from the anterior medial nucleus and midline nuclei. All medial prefrontal cortical areas were also found to receive projections from a number of cortical regions within the temporal lobe, such as the temporal pole, superior temporal gyrus, and parahippocampal gyrus. Areas 24, 25, and 32 receive, in addition, input from the entorhinal cortex. Combining these results with prior anatomical and behavioral data, we conclude that medial temporal areas that are important for object recognition memory send information directly both to dorsal medial prefrontal areas 24 and 32 and to ventral medial prefrontal areas 14 and 25. Only the latter two areas have additional access to this information via projections from the mediodorsal part of MDmc.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/PL00005713

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Neural correlates of category-specific knowledge (1996)

Martin, Alex ; Wiggs, Cheri L. ; Ungerleider, Leslie G. ; [et al.]

[s.l.] : Nature Publishing Group

Nature 379 (1996), S. 649-652

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] We studied sixteen (8 male, 8 female), right-handed subjects with positron emission tomography (PET) to measure changes in regional cerebral blood flow (rCBF) associated with identifying line drawings of animals and of tools11. These categories were chosen because distinctions between four-legged ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/379649a0

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Generalized deficits in visual selective attention after V4 and TEO lesions in macaques (2003)

De Weerd, Peter ; Desimone, Robert ; Ungerleider, Leslie G.

Oxford, UK : Blackwell Science, Ltd

European journal of neuroscience 18 (2003), S. 0

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ISSN: 1460-9568

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: To test the role of areas V4 and TEO in the attentional filtering of distracting information, we studied the effects of lesions in these areas, in monkeys discriminating target stimuli surrounded by irrelevant distracters. The lesions were restricted, such that a single visual field quadrant was affected by a V4 lesion alone, a TEO lesion alone, or a combined lesion in V4 and TEO, while one quadrant served as a normal control. The monkeys fixated a spot while discriminating the orientation, colour or motion of target stimuli presented extrafoveally in each quadrant. When the target was presented alone, discrimination deficits in the quadrants affected by the lesions were generally small. However, these deficits were substantially increased by surrounding the target with luminance, colour or motion distracters. The discrimination of target orientation was more impaired than the discrimination of target colour or motion, irrespective of distracter type. The discrimination of target motion was strongly affected only by motion distracters. The magnitude of the impairments increased with distracter strength and with the extent to which the distracters conveyed information conflicting with the target. Deficits in the quadrant affected by combined V4 and TEO lesions were twice as large as those in quadrants affected by V4 or TEO lesions alone. The results suggest that in the absence of V4 and TEO, information from both relevant and irrelevant stimuli is ‘averaged’ together across several different feature domains, impairing the discrimination of the relevant target features. The results suggest a broad role of V4 and TEO in visual selective attention.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1460-9568.2003.02862.x

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Transient and sustained activity in a distributed neural system for human working memory (1997)

Courtney, Susan M. ; Ungerleider, Leslie G. ; Keil, Katrina ; [et al.]

[s.l.] : Nature Publishing Group

Nature 386 (1997), S. 608-611

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] Imaging studies in humans have shown that both visual and prefrontal cortices are active during visual working memory tasks, but these studies did not have sufficient temporal resolution to distinguish transient activity during stimulus presentation from sustained activity after the stimulus is ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/386608a0

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Functional MRI evidence for adult motor cortex plasticity during motor skill learning (1995)

Kami, Avi ; Meyer, Gundela ; Jezzard, Peter ; [et al.]

[s.l.] : Nature Publishing Group

Nature 377 (1995), S. 155-158

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] In the motor task used, the fingers of the non-dominant hand were opposed to the thumb in two specified sequences, A and B (Fig. 10). Subjects were instructed to tap each sequence, without looking at their hand, as accurately and rapidly as possible. FIG. 1 a, The sequence of finger-to-thumb ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/377155a0

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Responses of cells in monkey visual cortex during perceptual filling-in of an artificial scotoma (1995)

Weerd, Peter De ; Gattass, Ricardo ; Desimone, Robert ; [et al.]

[s.l.] : Nature Publishing Group

Nature 377 (1995), S. 731-734

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] The receptive fields of visual area VI neurons in anaesthetized cats have been shown to expand after several minutes of stimulation with a dynamic texture surrounding .the receptive field, suggesting that expansion of the receptive field might underlie filling-in6. However, psychophysical ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/377731a0

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Type I protein kinase C isozyme in the visual-information-processing pathway of monkey brain (1989)

Huang, Freesia L. ; Yoshida, Yasuyoshi ; Nakabayashi, Hiroki ; [et al.]

New York, N.Y. : Wiley-Blackwell

Journal of Cellular Biochemistry 39 (1989), S. 401-410

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ISSN: 0730-2312

Keywords: type I PKC ; memory ; hippocampus ; dentate gyrus ; immunocytochemistry ; immunoblot ; Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Biology , Chemistry and Pharmacology , Medicine

Notes: Previously using PKC isozyme-specific antibodies for immunoblot analysis, we demonstrated the heterogeneous distribution of PKC isozymes in various regions of monkey and rat brains and that type I PKC was most abundant in cerebellum, hippocampus, amygdala, and cerebral cortex (Huang et al.: J Biol Chem 262:15714-15720, 1987). Using these antibodies, we have also demonstrated that type I, II, and III PKC are products of PKC genes γ, β, and α, respectively (Huang et al.: Biochem Biophys Res Commun 149:946-952, 1987). By immunocytochemical analysis, type I PKC-specific antibody showed strong reactivity in various types of neuron in hippocampal formation, amygdala, cerebellum, and neocortex. In hippocampal formation, granule cells of dentate gyrus and pyramidal cells of hippocampus were heavily stained. By immunoblot analysis, relative levels of PKC isozymes in several areas of monkey cerebral cortex involved in the visual information processing and storage were determined. Both type II and III PKCs appeared to be evenly distributed and at moderate levels, type I PKC formed a gradient of increasing concentration rostral along the cerebral cortex of occipital to temporal and then to the limbic areas. Neurobehavioral studies have demonstrated that the neocortical and limbic areas of the anterior and medial temporal regions participate more directly than the striate, prestriate, and posterior temporal regions in the storage of visual representations and that both hippocampus and amygdala are important in the memory formation. As type I PKC is present at high levels in hippocampus, amygdala, and anterior temporal lobe, we predict that the type I protein kinase C may participate in the plastic changes important for mnemonic function.

Additional Material: 6 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/jcb.240390406

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