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1

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4-Methoxybrassinin, a sulphur-containing phytoalexin from Brassica oleracea

Monde, K. ; Sasaki, K. ; Shirata, A. ; [et al.]

Amsterdam : Elsevier

Phytochemistry 29 (1990), S. 1499-1500

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ISSN: 0031-9422

Keywords: Brassica oleracea ; Cruciferae ; indole ; phytoalexin ; stress metabolise ; sulphur compound. ; white cabbage

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Biology , Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0031-9422(90)80108-S

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2

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Brassicanal C and two dioxindoles from cabbage

Monde, K. ; Sasaki, K. ; Shirata, A. ; [et al.]

Amsterdam : Elsevier

Phytochemistry 30 (1991), S. 2915-2917

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ISSN: 0031-9422

Keywords: Brassica oleracea ; Cruciferae ; Pseudomonas cichorii ; brassicanal C ; cabbage ; dioxibrassinin ; dioxindole ; indole ; phytoalexin ; sulphinate ; sulphur compound.

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Biology , Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/S0031-9422(00)98224-4

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3

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Methoxybrassenins A and B, sulphur-containing stress metabolites from Brassica oleracea var. Capitata

Monde, K. ; Sasaki, K. ; Shirata, A. ; [et al.]

Amsterdam : Elsevier

Phytochemistry 30 (1991), S. 3921-3922

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ISSN: 0031-9422

Keywords: Brassica oleracea ; Cruciferae ; cabbage ; methoxybrassenin A ; methoxybrassenin B ; phytoalexin, indole ; stress metabolite ; sulphur compound ; topomerization.

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Biology , Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0031-9422(91)83435-N

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4

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Projection of the cerebellar dentate nucleus onto the frontal association cortex in monkeys (1979)

Sasaki, K. ; Jinnai, K. ; Gemba, H. ; [et al.]

Springer

Experimental brain research 37 (1979), S. 193-198

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ISSN: 1432-1106

Keywords: Cerebello-cerebral projection ; Dentate nucleus ; Monkey

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Stimulation of the cerebellar dentate nucleus in monkeys elicited responses in the frontal association cortex (area 9) on the contralateral side to the stimulation, in addition to those in the motor (area 4) and premotor (area 6) cortices which were reported previously. The responses in the frontal association cortex were characterized by surface positive-deep negative field potentials in the cortex. They contrasted with surface negative-deep positive potentials in the motor and premotor cortices on the same dentate nucleus stimulation. In the rostral part of the premotor cortex (area 6) on the border of area 9, both types of responses were induced and admixed. The relay nucleus of the thalamus was suggested for the dentate-induced responses in the frontal association cortex.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01474266

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5

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A comparison of the inhibitory actions of Golgi cells and of basket cells (1967)

Eccles, J. C. ; Sasaki, K. ; Strata, P.

Springer

Experimental brain research 3 (1967), S. 81-94

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ISSN: 1432-1106

Keywords: Cerebellar inhibition ; Golgi cells ; Basket cells ; Purkinje cells ; Granule cells

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. There has been a comparative study of two kinds of inhibition in the cerebellar cortex: basket cell inhibition of Purkinje cells; and Golgi cell inhibition of granule cells. These inhibitory actions were assayed by the degree of inhibition of the potential waves that juxta-fastigial (J.F.) stimulation evoked in the granular or molecular layers: basket cell inhibition by the N1 wave generated by antidromic invasion of Purkinje cells; and Golgi cell inhibition of the N3 or P2 waves evoked by the mossy fibre volley in the molecular and granular layers respectively. 2. The Golgi cell inhibition produced by a parallel fibre volley (LOC stimulation) extended transversely for no more than 200 μ on either side of the narrow beam of the excited parallel fibres, whereas the spread of basket cell inhibition was much larger — to as far as 1 mm. 3. When activated by the on-beam LOC stimulation, the Golgi cell and the basket cell inhibition showed much the same threshold of the stimulation. The off-beam LOC stimulation produced only the basket cell inhibition which is in conformity with the different transverse distributions described in (2) above. 4. When evoked by J. F. or trans-folial (T. F.) stimulation, the Golgi cell inhibition had a much lower threshold than the basket cell inhibition. It is suggested that in part at least this is attributable to the direct synaptic connection from mossy fibres to Golgi cells. 5. The Golgi cell inhibition elicited by the LOC stimulation showed a relatively short time course, the maximum being attained by about 10 msec, after which there was an approximately exponential decrease so that the total duration was only about 100 msec. On the other hand, the basket cell inhibition had a much slower time course, maximum being attained at a latency of 20 to 40 msec, the total duration being even in excess of 200 msec. Suggestions are made with respect to the factors responsible for the slow time course of the basket cell inhibition.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234471

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6

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Cortical field potentials preceding visually initiated hand movements and cerebellar actions in the monkey (1982)

Sasaki, K. ; Gemba, H. ; Mizuno, N.

Springer

Experimental brain research 46 (1982), S. 29-36

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ISSN: 1432-1106

Keywords: Premovement cortical potential ; Visually initiated movement ; Cerebellum ; Monkey

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Cortical field potentials preceding hand movements initiated by a visual stimulus were recorded with chronically implanted electrodes in premotor, motor and somatosensory cortices of monkeys, and the influences of cerebellar hemispherectomy on cortical potentials as well as reaction time of movements were examined. As reported previously, early surface-positive, depth-negative (2.5–3 mm depth from the cortical surface) premovement potentials emerged at about 40 ms latency after onset of the light stimulus bilaterally in premotor and forelimb motor areas. Early potentials in the forelimb motor area contralateral to the moving hand were followed at about 120 ms latency by surface-negative, depth-positive late premovement potentials which are considered to be mainly composed of superficial thalamo-cortical (T-C) responses. Unilateral hemispherectomy of the cerebellum contralateral to the motor area immediately eliminated the surface-negative, depth-positive potentials. Reaction time from onset of the light stimulus to the hand movement was prolonged by 90–250 ms after cerebellar hemispherectomy. If the dentate and interpositus nuclei were also lesioned, disappearance of the late potentials and delay of the movement continued for many months. However, if the interpositus was spared, there was earlier recovery of reaction time with simultaneous reappearance of the late premovement potentials in the motor cortex. The conclusion is drawn that the cerebellar hemisphere (neocerebellum) activates the motor cortex via superficial T-C projections and participates directly in the initiation of reaction movements in response to an external stimulus.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238095

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7

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Compensatory motor function of the somatosensory cortex for the motor cortex temporarily impaired by cooling in the monkey (1984)

Sasaki, K. ; Gemba, H.

Springer

Experimental brain research 55 (1984), S. 60-68

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ISSN: 1432-1106

Keywords: Compensatory motor function ; Somatosensory cortex ; Motor cortex cooling ; Monkey

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The motor cortex was temporarily impaired by local cooling during repeated execution of visually initiated hand movements in monkeys. The effects of cooling were examined by recording premovement cortical field potentials in the forelimb motor and somatosensory cortices and by measuring reaction time and force exerted by the movement. The cortex was cooled by perfusing cold water (about 1° C) through a metal chamber placed on the cortical epidural surface. Cooling of the forelimb motor area lowered temperature of the cortex under the chamber to 20–29° C within 4–5 min. Recording electrodes for cortical field potentials were implanted chronically on the surface and at 2.5–3.0 mm depth of various cortical areas including that being cooled. Spread of cooling to surrounding cortical areas was prevented by placing chambers perfused with warm water (38–39° C) on the areas. Cooling of the forelimb motor area greatly reduced its premovement cortical field potentials, followed by prolonged reaction times of weakened contralateral wrist muscles. Simultaneous recording from the primary somatosensory cortex revealed an enhancement of its premovement field potentials. All changes were completely reversible by rewarming of the motor cortex. Concomitant cooling of the motor and somatosensory cortices entirely paralysed the contralateral wrist muscles. These results suggest that the motor function of the somatosensory cortex becomes predominant and compensates for dysfunction of the motor cortex when it is temporarily impaired.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00240498

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8

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Compensatory motor function of the somatosensory cortex for dysfunction of the motor cortex following cerebellar hemispherectomy in the monkey (1984)

Sasaki, K. ; Gemba, H.

Springer

Experimental brain research 56 (1984), S. 532-538

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ISSN: 1432-1106

Keywords: Compensatory motor function ; Somatosensory cortex ; Cerebellar hemispherectomy ; Monkey

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Electrical activities of the motor and somatosensory cortices preceding visually-initiated hand movements were recorded with electrodes chronically implanted on the surface and at 2.5–3.0 mm depth in the cortex of monkeys, and changes in field potentials in these cortices after cerebellar hemispherectomy were observed for many weeks. As previously reported, a unilateral cerebellar hemispherectomy including the lateral and interpositus nuclei eliminates the cerebellar-mediated superficial thalamo-cortical (T-C) responses recorded in the forelimb motor cortex contralateral to the hemispherectomy. These T-C responses normally precede the hand movement, and the operation results in the delay of movement initiation. The electrodes in the forelimb area of the contralateral primary somatosensory cortex showed an enhancement of superficial T-C responses of the somatosensory cortex for 30–40 days after the operation. The enhanced potentials preceded the delayed movement as do the cerebellar-mediated superficial T-C responses of the motor cortex in normal situations. Local cooling of the somatosensory cortex following the cerebellar hemispherectomy disturbed the reaction time movement for a few weeks after the operation. This effect was rarely encountered in normal monkeys. The present study suggests the compensatory motor function of the somatosensory cortex for the dysfunction of the motor cortex in early weeks after cerebellar hemispherectomy.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237994

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9

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Cortical field potentials associated with audio-initiated hand movements in the monkey (1987)

Gemba, H. ; Sasaki, K.

Springer

Experimental brain research 65 (1987), S. 649-657

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ISSN: 1432-1106

Keywords: Audio-initiated hand movement ; Cortical field potential ; Cerebellar hemispherectomy ; Monkey

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Monkeys were trained to respond to auditory stimulus by lifting a lever (audio-initiated hand movement), and field potentials were recorded. from various cortical areas with electrodes implanted on the surface and at a depth of 2.0–3.0mm, depending on the area. Tones of 500, 1000 and 2000 Hz were given to the monkey for about 500 or 10 ms, as auditory stimuli. In association with the movement, potentials of different configurations were recorded respectively in the primary auditory, auditory association, prefrontal, premotor, motor and somatosensory cortices. Initial surface-positive (s-P), depthnegative (d-N) potentials appeared in the primary auditory and auditory association cortices about 20 ms after the onset of the auditory stimulus, and they were often followed by s-N, d-P potentials. In the forelimb area of the motor cortex contralateral to the moving hand, s-N, d-P potentials appeared at a latency of about 100 ms. Following cerebellar hemispherectomy ipsilateral to the moving hand, the s-N, d-P potentials in the forelimb motor cortex were eliminated and reaction times prolonged. The same monkeys were also trained to perform a visuoinitiated movement, and results were compared with each other. Primary sensory and sensory association areas activated during such movements were certainly different, and the prefrontal association cortex appeared to participate much less predominantly in the audio- than in the visuo-initiated movement. Reaction times were generally longer and more variable for the audio- than for the visuo-initiated movement. Nevertheless the cerebello-thalamomotor cortical projection was found to be recruited in the same manner prior to both movements.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235988

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Studies on cortical field potentials recorded during learning processes of visually initiated hand movements in monkeys (1984)

Gemba, H. ; Sasaki, K.

Springer

Experimental brain research 55 (1984), S. 26-32

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ISSN: 1432-1106

Keywords: Cortical field potential ; Visually initiated movement ; Motor learning ; Monkey

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary A monkey was trained to lift a lever by wrist extension in response to a light stimulus. During the learning process of the task over several months, field potentials related not only to the task performance but also to substitution and stimulation experiments were recorded with chronically implanted electrodes on the surface and at a depth of 2.5–3.0 mm in the prefrontal, premotor, motor and prestriate cortices. In the substitution experiment, an examiner lifted a lever for the monkey so that it was watching the light and rewarded without the hand movement. In the stimulation experiment, the same light stimulus was simply delivered to the monkey. In a naive monkey which lifted the lever independently of the stimulus, stimulus-locked potentials were evoked by the task experiment in those cortices except the motor cortex, but none was elicited by the substitution or stimulation experiment. In a welltrained monkey, the substitution and stimulation experiments induced almost the same potentials as those prior to the task movement in respective cortices except the motor cortex, in which the component of cerebellar-induced premovement potential was not observed during the substitution and stimulation experiments. At an intermediate stage of learning, the situation was intermediate between the naive and well-trained stages and most premovement potentials except those in the motor cortex were elicited by the substitution experiment in reduced sizes, but nothing by the stimulation experiment. The present study suggests that the neuronal circuits for the operantly conditioned movement are functionally organized and gradually consolidated in the learning process, and that the consolidation is made earlier for the circuit involving association and premotor cortices than the circuit including the motor cortex in the process. The circuit to the motor cortex via the cerebro-cerebellar interconnection is recruited only on the execution of movement.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00240495

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