Ohno Takae, Fukuda Satoshi, Murabe Naoyuki, Miyake Hideo, Takai Shu, Hayashi Toshihiro. New approach of cell types and their networks of red nucleus(タイトル和訳中). The Journal of Physiological Sciences. 2023. 73. Suppl.1. 80-80
Ohno, T, Fukuda, S, Murabe, N, Niido, M, Sakurai, M. Temporal course of transient direct corticomotoneuronal connections during development in rodents. Neuroscience. 2021. 478. 88-99
Murabe N, Mori T, Fukuda S, Isoo N, Ohno T, Mizukami H, Ozawa K, Yoshimura Y, Sakurai M. Higher primate-like direct corticomotoneuronal connections are transiently formed in a juvenile subprimate mammal. Scientific reports. 2018
Ohno, T, Fukuda, S, Murabe, N, Mizukami, H, Ozawa, K, Hayashi, T, Sakurai, M. Temporal profile of transient corticomotoneuronal direct connection in the rodent. Society for Neuroscience. 2019
Fukuda, S, Ohno, T, Murabe, N, Niido, M, Mizukami, H, Ozawa, K, Hayashi, T, Sakurai, M. Transient synapse formation and regression of direct cortico-motoneuronal synapses during development in rodents. The 42st Annual Meeting of the Japan Neuroscience Society. 2019
Ohno, T, Fukuda, S, Niido, M, Murabe, N, Mizukami, H, Ozawa, K, Hayashi, T, Sakurai, M. Temporal profile of developmental change in corticomotoneuronal direct connection in rodents. The 41st Annual Meeting of the Japan Neuroscience Society. 2018
Fukuda, S, Ohno, T, Niido, M, Murabe, N, Mizukami, H, Ozawa, K, Hayashi, T, Sakurai, M. Quantitative study of distal-proximal distribution of target muscles innervated by motoneurons which receive direct connections from corticospinal axons in juvenile rodent. The 41st Annual Meeting of the Japan Neuroscience Society. 2018
Takae Ohno, Mutsumi Isowaki, Noriko Isoo, Naoyuki Murabe, Hitoshi Maeda, Satoshi Fukuda, Noboru Yoshioka, Masayoshi Mishina, Masaki Sakurai. Developmental shift of NMDA receptor subunits is essential for closing the critical period in corticospinal synapse elimination. NEUROSCIENCE RESEARCH. 2011. 71. E232-E232
Manipulating “critical period” by controlling synaptic GluN2B expression
(43th Annual Meeting of Society for Neuroscience 2013)
Manipulating “critical period” by regulating the synaptic GluN2B expression
(2013)
Is it possible to manipulate the “critical period” ?
(2012)
Developmental decline of 2B subunit containing NMDA receptor is essential for closing the critical period plasticity window in mouse corticospinal synapse elimination
(41th Annual Meeting of Society for Neuroscience 2011)
Developmental shift of NMDA receptor subunits is essential for closing the critical period plasticity window in mouse corticospinal synapse elimination
(2011)
日本神経心理学会
, THE PHYSIOLOGICAL SOCIETY OF JAPAN
, THE JAPAN NEUROSCIENCE SOCIETY
, 日本神経内科学会
, THE JAPANESE SOCIETY OF INTERNAL MEDICINE
, Society for Neuroscience