Research field (3):
Clinical pharmacy
, Physiology
, Neuroscience - general
Research keywords (6):
Satellite cell
, Muscle fiber type
, Exercise
, Histone modification
, Epigenetics
, Skeletal muscle
Research theme for competitive and other funds (23):
2021 - 2025 運動エピジェネティクスを起こすスイッチとしてのサテライト細胞の役割解明
2021 - 2025 運動による骨格筋の適応変化範囲を規定するエピジェネティック機構の追究
2019 - 2022 長期間の重力変化に対するマウス骨格筋の適応メカニズム追究
2019 - 2021 Investigation for exercise-induced histone turnover in skeletal muscle
2018 - 2020 宇宙滞在の影響を受けにくい体質をつくる運動のための加速度センシング機構応用
2016 - 2020 Skeletal muscle epigenetics for understanding individual differences in response to exercise
2016 - 2018 宇宙滞在の影響を受けにくい体質をつくるための新規エピジェネティクス理論確立
2014 - 2017 Mechanisms and predictions for fiber type switching of skeletal muscle
2014 - 2016 Effects of whole body vibration on muscle regeneration after injury
2012 - 2016 Development and Generalization of Multifactor Lifestyle Questionnaires for University Students Available Online
2011 - 2015 Identification of type-specific epigenetics in skeletal muscles
2010 - 2011 Promotion of neuromuscular regeneration by transplantation of bone marrow and/ or muscle satellite cells
2007 - 2011 Promotion of muscle activities as the countermeasure for prevention of the deterioration of brain function
2009 - 2010 Role of phosphorylated HSP27 for regeneration of skeletal muscle fibers
2008 - 2009 鉄欠乏、貧血、または運動が脳の機能および遺伝子・タンパク質発現に及ぼす影響
2007 - 2008 骨格筋肥大時における筋核小体数変化の機序およびその役割
2007 - 2008 Mechanisms responsible for nucleolar accretion during fiber hypertrophy in skeletal muscle
2006 - 2007 骨格筋線維の損傷および回復・再生機構:筋損傷モデルマウスにおける検討
2005 - 2006 RNA干渉を用いた筋感覚神経関連タンパク質の機能追及
2003 - 2006 Investigation of gene and/or protein expression associated with recovery and/or regeneration of skeletal muscle from growth inhibition or damage
2003 - 2004 Role of afferent input for soleus muscle fiber hypertrophy in rats
2003 - 2004 ラットヒラメ筋筋線維の肥大における求心性神経活動の役割
2000 - 2002 Effects of antigravity muscular activity during the lactation period on the development of rat hindlimb muscles
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Papers (67):
Takashi Ohira, Fuminori Kawano, Katsumasa Goto, Hiroshi Kaji, Yoshinobu Ohira. Responses of neuromuscular properties to unloading and potential countermeasures during space exploration missions. Neuroscience & Biobehavioral Reviews. 2022. 136. 104617-104617
Ikumi Ohsawa, Fuminori Kawano. Chronic exercise training activates histone turnover in mouse skeletal muscle fibers. FASEB journal : official publication of the Federation of American Societies for Experimental Biology. 2021. 35. 4. e21453
F. Kawano, T. Ohira, K. Goto, Y. Ohira. ROLE(S) OF GRAVITATIONAL LOADING ON THE GROWTH AND DEVELOPMENT OF NEUROMUSCULAR PROPERTIES. Aerospace and Environmental Medicine. 2020. 54. 6. 73-79
Muscle atrophy induced by gravitational unloading and countermeasures
Proc. GSSI Science Network Forum in Nagano 2000, Edited by Nose H, Spriet LL, and Imaizumi K 2002
重力と神経・筋の機能及び発育・発達の関係
JSUP宇宙環境利用の展望 2002
Muscle atrophy induced by gravitational unloading and countermeasures
Proc. GSSI Science Network Forum in Nagano 2000, Edited by Nose H, Spriet LL, and Imaizumi K 2002
