業績リスト

 

蔵田 潔

 

1.         Tanji, J. and K. Kurata, Relation of neuronal activity in the supplementary motor area to distal forelimb movement, in Integrative Control Function of the Brain, M. Ito, et al., Editors. 1979, Kodansha: Tokyo. p. 151-152.

2.         Tanji, J. and K. Kurata, Neuronal activity in the cortical supplementary motor area related with distal and proximal forelimb movements. Neurosci. Lett., 1979. 12(2-3): p. 201-6.

3.         Tanji, J. and K. Kurata, Contrasting neuronal activity in the ipsilateral and contralateral supplementary motor areas in relation to a movement of monkey's distal hindlimb. Brain Res., 1981. 222: p. 155-158.

4.         Tanji, J. and K. Kurata, Recent studies in the supplementary motor area with a technique of single unit recording from behaving primates, in Kyoto Symposia (EEG Suppl. No.36), P.A. Buser, W.A. Cobb, and T. Okuma, Editors. 1982, Elsevier: Amsterdam. p. 378-384.

5.         Tanji, J. and K. Kurata, Comparison of movement-related activity in two cortical motor areas of primates. J Neurophysiol, 1982. 48(3): p. 633-53.

6.         Tanji, J. and K. Kurata, Functional organization of the supplementary motor area, in Motor Control Mechanisms in Health and Disease, J.E. Desmedt, Editor. 1983, Raven Press: New York. p. 421-431.

7.         Tanji, J. and K. Kurata, Responses of pyramidal tract neurons in the postcentral cortex to tactile inputs. Brain Res, 1983. 273(2): p. 352-5.

8.         Kurata, K., K. Okano, and J. Tanji, Distribution of neurons related to a hindlimb as opposed to forelimb movement in the monkey premotor cortex. Exp. Brain Res., 1985. 60: p. 188-191.

9.         Kurata, K. and J. Tanji, Contrasting neuronal activity in supplementary and precentral motor cortex of monkeys. II. Responses to movement triggering vs. nontriggering sensory signals. J. Neurophysiol., 1985. 53: p. 142-152.

10.       Tanji, J. and K. Kurata, Contrasting neuronal activity in supplementary and precentral motor cortex of monkeys. I. Responses to instructions determining motor responses to forthcoming signals of different modalities. J Neurophysiol, 1985. 53(1): p. 129-141.

11.       Tanji, J., K. Kurata, and K. Okano, The effect of cooling of the supplementary motor cortex and adjacent cortical areas. Exp. Brain Res., 1985. 60: p. 423-426.

12.       Kurata, K. and J. Tanji, Premotor cortex neurons in macaques: activity before distal and proximal forelimb movements. J. Neurosci., 1986. 6: p. 403-411.

13.       Kurata, K. and S.P. Wise, Premotor cortex of rhesus monkeys: set-related activity during two conditional motor tasks. Exp. Brain Res., 1988. 69: p. 327-343.

14.       Kurata, K. and S.P. Wise, Premotor and supplementary motor cortex in rhesus monkeys: neuronal activity during externally- and internally-instructed motor tasks. Exp. Brain Res., 1988. 72: p. 237-248.

15.       Vaadia, E., K. Kurata, and S.P. Wise, Neuronal activity preceding directional and nondirectional cues in the premotor cortex of rhesus monkeys. Somatosens. Mot. Res., 1988. 6: p. 207-230.

16.       Kurata, K., Motor programming in the premotor cortex of monkeys, in Neural Programming, Taniguchi Symposia of Brain Sciences, M. Ito, Editor. 1989, Japan Scientific Societies Press: Tokyo. p. 39-47.

17.       Kurata, K., Distribution of neurons with set- and movement-related activity before hand and foot movements in the premotor cortex of rhesus monkeys. Exp. Brain Res., 1989. 77: p. 245-256.

18.       Wise, S.P. and K. Kurata, Set-related activity in the premotor cortex of rhesus monkeys: effect of triggering cues and relatively long delay intervals. Somatosens. Mot. Res., 1989. 6: p. 455-476.

19.       Kurata, K., Corticocortical inputs to the dorsal and ventral aspects of the premotor cortex of macaque monkeys. Neurosci. Res., 1991. 12: p. 263-280.

20.       Kurata, K., D.S. Hoffman, and I. Kawamoto, Effects of muscimol injection into the dorsal and ventral aspects of the premotor cortex in monkeys performing a conditional motor task. Soc. Neurosci. Abstr., 1991. 17: p. 1113.

21.       Kurata, K., Somatotopy in the human supplementary motor area. TINS, 1992. 15: p. 159-160.

22.       Kurata, K., Premotor cortex of monkeys: set- and movement-related activity reflecting amplitude and direction of wrist movements. J. Neurophysiol., 1993. 69: p. 187-200.

23.       Kurata, K., Motor programming in the premotor cortex: amplitude vs. direction coding in neuronal activity. Biomed. Res., 1993. 14 Suppl. 1: p. 11-12.

24.       Kurata, K., Information processing for motor control in primate premotor cortex. Behav. Brain Res., 1994. 61: p. 135-142.

25.       Kurata, K., Site of origin of projections from the thalamus to dorsal versus ventral aspects of the premotor cortex of monkeys. Neurosci. Res., 1994. 21: p. 71-76.

26.       Kurata, K. and D.S. Hoffman, Differential effects of muscimol microinjection into dorsal and ventral aspects of the premotor cortex of monkeys. J. Neurophysiol., 1994. 71: p. 1151-1164.

27.       Wang, Y. and K. Kurata, Quantitative analyses of thalamic and cortical origins of neurons projecting to the rostral and caudal forelimb motor areas in the cerebral cortex of rats. Brain Res., 1998. 781: p. 137-147.

28.      Kurata, K., Sensorimotor transformations in the dorsal and ventral premotor cortex of primates. Hirosaki Med. J., 1999. 51 Suppl.: p. S75-S80.

29.       Kurata, K., et al., Activation of the dorsal premotor cortex and the pre-supplementary motor area of humans during an auditory conditional motor task. J. Neurophysiol., 2000. 84: p. 1667-1672.

30.       Kurata, K. and H. Aizawa, Influences of motor instructions on the reaction times of saccadic eye movements. Neuroscience Research, 2004. 48(4): p. 447-455.

31.       Kurata, K., Activity properties and location of neurons in the motor thalamus that project to the cortical motor areas in monkeys. J. Neurophysiol., 2005. 94(1): p. 550-566.

32.       Kurata, K., Laterality of movement-related activity reflects transformation of coordinates in ventral premotor cortex and primary motor cortex of monkeys. J. Neurophysiol., 2007. 98(4): p. 2008-2021.

33.       Kurata, K., Conditional selection of contra- and ipsilateral forelimb movements by the dorsal premotor cortex in monkeys. J Neurophysiol, 2010. 103(1): p. 262-77.

34.       Sieck, G.C., Kurata, K. et al., Physiology: a world perspective. Physiology (Bethesda), 2013. 28(4): p. 210-1.

 

木下正治

 

1.         Komatsu, H., I. Murakami, and M. Kinoshita, Surface representation in the visual system. Brain Res Cogn Brain Res, 1996. 5(1-2): p. 97-104.

2.         Komatsu, H., M. Kinoshita, and I. Murakami, Neural responses in the retinotopic representation of the blind spot in the macaque V1 to stimuli for perceptual filling-in. J Neurosci, 2000. 20(24): p. 9310-9.

3.         Kinoshita, M. and H. Komatsu, Neural representation of the luminance and brightness of a uniform surface in the macaque primary visual cortex. J Neurophysiol, 2001. 86(5): p. 2559-70.

4.         Komatsu, H., M. Kinoshita, and I. Murakami, Neural responses in the primary visual cortex of the monkey during perceptual filling-in at the blind spot. Neurosci Res, 2002. 44(3): p. 231-6.

5.         Pfeiffer, K., M. Kinoshita, and U. Homberg, Polarization-Sensitive and Light-Sensitive Neurons in Two Parallel Pathways Passing Through the Anterior Optic Tubercle in the Locust Brain. J Neurophysiol, 2005. 94(6): p. 3903-3915.

6.         Kinoshita, M., C.D. Gilbert, and A. Das, Optical Imaging of Contextual Interactions in V1 of the Behaving Monkey. 10.1152/jn.90882.2008. J Neurophysiol, 2009. 102(3): p. 1930-1944.

7.         Kinoshita, M., et al., Genetic dissection of the circuit for hand dexterity in primates. Nature, 2012. 487(7406): p. 235-8.