Updated on 2025/06/09

写真a

 
YASUO SHINOBU
 
Organization
Faculty of Agriculture Department of Bioresource Sciences Professor
Graduate School of Bioresource and Bioenvironmental Sciences Department of Bioresource Sciences(Concurrent)
School of Agriculture Department of Bioresource and Bioenvironment(Concurrent)
Title
Professor
Profile
In organisms living in temperate zones, various biological functions are regulated by seasonal changes in environment (i.e., photoperiod), including metabolism, immune functions, stress responses, affect, and reproduction. The photoperiodic responses are associated with the circadian clock (internal clock) and its main output hormones, melatonin or glucocorticoids. We are trying to clarify the molecular mechanisms of photoperiodic responses, focusing on brain and peripheral organs of mammmals by means of molecular, morphological, physiological, and functional techniques. This study is important for not only the control of animal production but also therapeutic target for the seasonal affective disorder in human. Disruption of the circadian clock by irregular light-dark cycles, e.g., shift work or irregular light exposure, is a serious problem in the world. Numerous studies report that the circadian disruption increases risk of many diseases such as cancer. We are trying to identify functional nutrients that can ameliorate or prevent the circadian disruption caused by irregular light-dark cycles, and to clarify the effect of dietary rhythms on the clock-associated physiology and behavior.
External link

Research Areas

  • Life Science / Nutrition science and health science

  • Life Science / Animal production science

  • Life Science / Animal life science

Degree

  • Ph.D (agriculture)

Research History

  • Kyushu University  Professor 

    2024.10 - Present

  • Kyushu University Faculty of Agriculture Professor 

    2022.4 - Present

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  • Kyushu University Faculty of Agriculture Associate Professor 

    2009.12 - 2022.4

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  • 2004.01~2005.10 名古屋大学大学院生命農学研究科 産官学連携研究員 2005.11~2007.10 Institute of Anatomy II, Goethe University Frankfurt, 日本学術振興会海外特別研究員 2007.11~2009.11 Institute of Anatomy II, Goethe University Frankfurt, 博士研究員   

Education

  • Nagoya University   大学院生命農学研究科  

    - 2003.12

Research Interests・Research Keywords

  • Research theme: Mechanisms underlying interactions among multi-scale rhythms including seasonal, sexual, and circadian rhythms

    Keyword: 季節、性周期、概日時計、陶器うつ

    Research period: 2024.10

  • Research theme: Studies on cyclic environment and stress physiology

    Keyword: stress, environmental enrichment, brain

    Research period: 2019.3

  • Research theme: Effect of dietary rhythms on brain functions

    Keyword: Dietary rhythm, mouse, behavior, neuron

    Research period: 2017.4 - 2025.3

  • Research theme: Effect of photoperiod during early life stages on learning, memory, neurodevelopment, and metabolism in adulthood.

    Keyword: photoperiodism, neurogenesis, neuronal network, affective behaviors, body weight, metabolism

    Research period: 2014.4

  • Research theme: Search of amino acids that affect the circadian clock

    Keyword: amino acids, circadian clock, mouse

    Research period: 2010.12 - 2018.3

  • Research theme: Chrononutritional studies on the circadian disruption: approach using chronic jet lag mice

    Keyword: circadian disruption, chronic jet lag, mouse

    Research period: 2010.4

  • Research theme: Mechanisms controlling photoperiodic responses in metabolism and mood

    Keyword: metabolism, stress, seasonal affective disorder, brain

    Research period: 2009.12

Awards

  • 九州大学農学研究院賞

    2016.1   九州大学農学研究院  

  • 文部科学大臣表彰 若手科学者賞

    2015.4   文部科学省   哺乳類の季節リズムに関する基盤研究

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    季節性感情障害(冬季うつ病)の病態を反映するマウスモデルを世界に先駆けて見出し、その制御機構の一端を解明した。本研究成果は、季節性感情障害の研究に強力なツールを提供するもので、新しい治療法や予防法の研究開発を飛躍的に発展させると期待される。

  • 日本時間生物学会学術奨励賞

    2010.11   日本時間生物学会   脊椎動物の光周性を支配する脳内メカニズムの解明

  • Young Investigator Award of European Biological Rhythms Society

    2009.9   Organizing committee of the meeting for 11th Congress of the European Biological Rhythms Society   Identification of endocannabinoid in the hypophysial pars tuberalis of the Syrian hamster and its possible role for seasonal prolactin secretion

Papers

  • A Pilot Study: Maternal Undernutrition Programs Energy Metabolism and Alters Metabolic Profile and Morphological Characteristics of Skeletal Muscle in Postnatal Beef Cattle

    Nishino, D; Haginouchi, T; Shimogiri, T; Muroya, S; Kawabata, K; Urasoko, S; Oshima, I; Yasuo, S; Gotoh, T

    METABOLITES   15 ( 3 )   2025.3   ISSN:2218-1989 eISSN:2218-1989

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    Language:English   Publisher:Metabolites  

    Objectives: This study investigated the long-term effects of maternal undernutrition on overall muscle metabolism, growth performance, and muscle characteristics in postnatal offspring of Wagyu (Japanese Black) cattle. Methods: Wagyu cows were divided into nutrient-adequate (control, CNT; n = 4, 120% of requirements) and nutrient-restricted groups (NR; n = 4; 60% of requirements), and treated from day 35 of gestation until parturition. Diets were delivered on the basis of crude protein requirements, meeting 100% and 80% of dry matter requirements in CNT and NR groups, respectively. All offspring were provided with the same diet from birth to 300 days of age (d). Longissimus thoracis muscle (LM) samples were collected from the postnatal offspring. Results: The NR offspring had lower birth body weight, but their body weight caught up before weaning. These offspring showed enhanced efficiency in nutrient utilization during the post-weaning growth period. Comprehensive analyses of metabolites and transcripts revealed the accumulation of proteinogenic amino acid, asparagine, in NR offspring LM at 300 d, while the abundance of nicotinamide adenine dinucleotide (NADH) and succinate were reduced. These changes were accompanied by decreased gene expression of nicotinamide phosphoribosyltransferase (NAMPT), NADH: ubiquinone oxidoreductase subunit A12 (NDUFA12), and NADH dehydrogenase subunit 5 (ND5), which are essential for mitochondrial energy production. Additionally, NR offspring LM exhibited decreased abundance of neurotransmitter, along with a higher proportion of slow-oxidative myofibers and a lower proportion of fast-oxidative myofibers at 300 d. Conclusions: Offspring from nutrient-restricted cows might suppress muscle energy production, primarily in the mitochondria, and conserve energy expenditure for muscle protein synthesis. These findings suggest that maternal undernutrition programs a thrifty metabolism in offspring muscle, with long-term effects.

    DOI: 10.3390/metabo15030209

    Web of Science

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  • Dopamine receptor D3 affects the expression of <i>Period</i>1 in mouse cells via DRD3-ERK-CREB signaling

    Matsuda, M; Nishi, T; Yoshida, Y; Terada, Y; Matsuda-Hayama, C; Kumamoto, T; Hamamura, K; Kohro-Ikeda, E; Yasuo, S; Koyanagi, S; Matsunaga, N; Ohdo, S

    BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS   752   151470   2025.3   ISSN:0006-291X eISSN:1090-2104

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    Language:English   Publisher:Biochemical and Biophysical Research Communications  

    Circadian rhythm alterations are related to the onset and severity of various diseases. The expression of the dopamine receptor D3 (DRD3) is regulated by clock genes, and DRD3 functional abnormalities are linked to various neurological diseases. However, the relationship between DRD3 function and circadian machinery is unclear. Here, we demonstrate the influence of DRD3 on the circadian machinery. Although the expression of DRD3 in mouse suprachiasmatic nucleus (SCN) did not show a circadian rhythm, the expression of Per1 mRNA was altered in the SCN of Drd3 knockout (Drd3−/−) mice compared to that in wild-type (WT) mice. These differences were caused by the upregulation of the DRD3–extracellular signal–regulated kinase–cAMP response element binding protein (DRD3–ERK–CREB) signaling pathway in cultured cells and SCN. In addition, Drd3−/− mice demonstrated increased period length of locomotor activity than WT mice only under constant dark conditions. Expression of clock genes in the liver, which does not express DRD3, was affected by the loss of DRD3 only under constant dark conditions, similar to that in the SCN. These results suggest that DRD3 expressed in the SCN regulates the central clock via endogenous ligands and affects peripheral organs. This may provide new evidence to unravel the relationship between dopamine neurotransmission and the circadian clock, which has not yet been fully elucidated.

    DOI: 10.1016/j.bbrc.2025.151470

    Web of Science

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  • Seasonal Adaptation of Mammalian Development: Effect of Early-Life Photoperiod on Reproduction, Somatic Growth, and Neurobehavioral Systems

    Yasuo, S

    ZOOLOGICAL SCIENCE   42 ( 1 )   2025.2   ISSN:0289-0003

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    Language:English   Publisher:Zoological science  

    For the survival and efficient breeding of wild-living animals, it is crucial to predict seasonal changes and prepare appropriate physiological functions and neurobehavioral mechanisms. In mammals, photoperiod serves as a reliable cue for seasonal changes in the environment, primarily transmitted by melatonin. This review focuses on the seasonal adaptation of mammalian development, specifically the effect of early-life photoperiod on reproductive, somatic, and neurobehavioral development in small- and large-sized mammals. Prediction of seasons through early-life photoperiod is particularly important for small mammals, which have relatively short longevity, to adjust their maximum growth and breeding ability in appropriate seasons during the birth year or the following round. Brain plasticity, as well as cognitive and emotional behaviors, are also highly modulated by early-life photoperiods for successful mating and spatial memory for foraging. This review first summarizes the basic knowledge and recent progress in the programming and epigenetic regulatory mechanisms of reproductive and neurobehavioral development in small mammals, including C57BL/6J mice, which cannot produce detectable amounts of melatonin. The review then focuses on the influence of perinatal environmental conditions or birth season on adult phenotypes in large livestock and humans. Studies have advanced on the concept of the developmental origins of health and disease (DOHaD). Evidence from large mammals suggests that the prediction of seasons is crucial for high-fitness functions over several years. Finally, this review discusses the association of the season of birth with life course physiology and diseases in humans, and the possible mechanisms.

    DOI: 10.2108/zs240059

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  • Sex-dependent effects of chronic jet lag on circadian rhythm and metabolism in mice

    Ma, TT; Matsuo, R; Kurogi, K; Miyamoto, S; Morita, T; Shinozuka, M; Taniguchi, F; Ikegami, K; Yasuo, S

    BIOLOGY OF SEX DIFFERENCES   15 ( 1 )   102   2024.12   eISSN:2042-6410

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    Language:English   Publisher:Biology of Sex Differences  

    頻繁に明暗周期をずらして長期的にマウスの時差ぼけ状態を誘導する「慢性的時差ぼけ条件」において、メスの体内時計がオスよりも乱れやすいことを発見した。また、オスでは当該条件で過剰な体重増加や耐糖能異常が生じる一方で、メスでは体重減少が見られるなど、性別により代謝異常の現れ方が大きく異なることを見出した。さらに、精巣を摘出したオスでは、メスのように体内時計が時差ぼけに対して乱れやすくなり、テストステロンを投与すると強靭性が回復したことから、テストステロンがオス特有の慢性的時差ぼけ反応の鍵であることを解明した。

    DOI: 10.1186/s13293-024-00679-z

    Web of Science

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  • Diurnal-Rhythmic Relationships between Physiological Parameters and Photosynthesis- and Antioxidant-Enzyme Genes Expression in the Raphidophyte <i>Chattonella marina</i> Complex

    Mukai, K; Qiu, XC; Takai, Y; Yasuo, S; Oshima, Y; Shimasaki, Y

    ANTIOXIDANTS   13 ( 7 )   2024.7   ISSN:2076-3921 eISSN:2076-3921

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    Language:English   Publisher:Antioxidants  

    Diurnal rhythms in physiological functions contribute to homeostasis in many organisms. Although relationships between molecular biology and diurnal rhythms have been well studied in model organisms like higher plants, those in harmful algal bloom species are poorly understood. Here we measured several physiological parameters and the expression patterns of photosynthesis-related and antioxidant-enzyme genes in the Chattonella marina complex to understand the biological meaning of diurnal rhythm. Under a light–dark cycle, Fv/Fm and expression of psbA, psbD, and 2-Cys prx showed significant increases in the light and decreases during the dark. These rhythms remained even under continuous dark conditions. DCMU suppressed the induction of psbA, psbD, and 2-Cys prx expression under both light regimes. Oxidative stress levels and H2O2 scavenging activities were relatively stable, and there was no significant correlation between H2O2 scavenging activities and antioxidant-enzyme gene expression. These results indicate that the Chattonella marina complex has developed mechanisms for efficient photosynthetic energy production in the light. Our results showed that this species has a diurnal rhythm and a biological clock. These phenomena are thought to contribute to the efficiency of physiological activities centered on photosynthesis and cell growth related to the diurnal vertical movement of this species.

    DOI: 10.3390/antiox13070781

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Books

  • JATAFFジャーナル 特集「時間栄養学の発展と最新知見」

    安尾しのぶ(「食事リズムと認知機能および気分の関連」)

    公益社団法人農林水産・食品産業技術振興協会  2024.10 

  • Internal desynchrony in mice under social jetlag-like conditions. Circadian Clocks, edited by K. Honma and S. Honma

    Shinobu Yasuo, Saki Fukushima, Dan Yang, Daisuke Maji(Role:Joint author)

    Hokkaido University Press,2023, Proceeding Volume for SSBR 2022  2023.9 

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    Language:English   Book type:Scholarly book

  • 「アグリバイオ」臨時増刊号 肥満・メタボリックシンドロームと時間栄養学

    安尾しのぶ(Role:Joint author)

    北隆館  2020.7 

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    Responsible for pages:Vol.4(8), 13-17   Language:Japanese   Book type:Scholarly book

  • 「時間栄養学」 第25章 季節性リズムと食・栄養

    安尾しのぶ(Role:Joint author)

    化学同人  2020.6 

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    Language:Japanese   Book type:Scholarly book

  • Chrononutritional modulation of sleep and the circadian clock by amino acids. In: Neurological Modulation of Sleep: Mechanisms and Functions in Sleep Health, Second Edition

    Shinobu Yasuo(Role:Joint author)

    Elsevier  2020.1 

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    Responsible for pages:375-383   Language:Japanese   Book type:Scholarly book

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Presentations

  • 乱れやすい体内時計を整えるための時間栄養学・時間生薬学の取り組み Invited

    安尾しのぶ

    第44回日本看護科学学会学術集会  2024.12 

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    Event date: 2024.12

    Language:Japanese   Presentation type:Public lecture, seminar, tutorial, course, or other speech  

    Venue:熊本城ホール   Country:Japan  

  • 周期的な環境エンリッチメントによるマウスの情動・認知行動変化メカニズムの解析

    黒木海斗、馬天天、篠塚まりな、森田竜未、宮本舜佑、洲崎礼紀、谷口楓果、岩佐菜月美、石村公花、松尾涼平、池上啓介、安尾しのぶ

    第31回日本時間生物学会学術大会  2024.11 

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    Event date: 2024.11

    Language:Japanese   Presentation type:Poster presentation  

    Venue:富山国際会議場   Country:Japan  

  • 胎児期や生後初期の光環境によるエピジェネティック制御機構〜げっ歯類・家畜モデルを用いたアプローチ〜 Invited

    安尾しのぶ

    第12回新胎児学研究会(  2024.11 

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    Event date: 2024.11

    Language:Japanese   Presentation type:Symposium, workshop panel (nominated)  

    Venue:九州大学   Country:Japan  

  • 哺乳期の日長に対するマウスの脳部位・末梢組織特異的な応答性

    松尾涼平、石村公花、岩佐菜月美、黒木海斗、池上啓介、安尾しのぶ

    第31回日本時間生物学会学術大会  2024.11 

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    Event date: 2024.11

    Language:Japanese   Presentation type:Poster presentation  

    Venue:富山国際会議場   Country:Japan  

  • 哺乳期の日長によるウシ骨格筋のエピジェネティック制御

    松尾涼平、塚谷春香、黒木海斗、後藤貴文、池上啓介、安尾しのぶ

    日本畜産学会第132回大会   2024.9 

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    Event date: 2024.9

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:京都大学   Country:Japan  

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MISC

  • 概日時計の乱れの性差と時間栄養学 Invited

    安尾しのぶ

    日本農学アカデミー会報 第42号   2024.12

  • 共創的な生体リズム研究拠点を目指して

    安尾しのぶ

    日本時間生物学会誌   2024.11

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    Language:Japanese   Publishing type:Article, review, commentary, editorial, etc. (scientific journal)  

  • 時間栄養学はストレス社会にどのように貢献できるか

    谷口楓果、洲崎礼紀、安尾しのぶ

    時間栄養学研究の最前線   2024.3

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    Language:Japanese   Publishing type:Article, review, commentary, editorial, etc. (scientific journal)  

  • 時間栄養学における動物実験代替法の可能性

    Yang Dan, 福島早記, 洲崎礼記, 安尾しのぶ

    時間栄養学研究の最前線   2021.6

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    Language:Japanese   Publishing type:Article, review, commentary, editorial, etc. (scientific journal)  

  • 光周性の分子神経内分泌と季節栄養学

    安尾しのぶ、都合勇希、大塚剛司、後藤真梨子、古瀬充宏

    家畜栄養生理研究会   2011.10

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    Language:Japanese   Publishing type:Article, review, commentary, editorial, etc. (scientific journal)  

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Professional Memberships

  • Japanese Society for Anti-aging Medicine

  • Japan Chrono-Nutrition Society

  • 日本時間栄養学会

  • Warm Regional Society of Animal Science, Japan

  • Japanese Society of Animal Science

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Committee Memberships

  • 日本学術会議 畜産学分科会   Organizer   Domestic

    2023.10 - 2029.9   

  • 日本学術会議 IUNS分科会   連携会員   Domestic

    2023.10 - 2029.9   

  • 日本学術会議   連携会員   Domestic

    2023.10 - 2029.9   

  • 日本学術会議 畜産学分科会   連携会員、幹事   Domestic

    2023.10 - 2029.9   

  • 日本学術会議 生物リズム分科会   連携会員   Domestic

    2023.10 - 2029.9   

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Academic Activities

  • 第11回日本時間栄養学会学術大会 シンポジウム座長

    Role(s): Panel moderator, session chair, etc.

    2024.8

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    Type:Competition, symposium, etc. 

  • 第14回家畜感染症学会シンポジウム・総会 大会長

    第14回家畜感染症学会シンポジウム・総会  ( Japan ) 2024.6

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    Type:Competition, symposium, etc. 

  • 第78 回日本栄養・食糧学会大会シンポジウムオーガナイザー

    Role(s): Planning, management, etc.

    2024.5

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    Type:Competition, symposium, etc. 

  • 第78 回日本栄養・食糧学会大会プログラム委員

    Role(s): Planning, management, etc.

    2024.5

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    Type:Competition, symposium, etc. 

  • 日本睡眠学会第45回定期学術集会・第30回日本時間生物学会学術大会 合同大会 副大会長、プログラム委員会委員

    日本睡眠学会第45回定期学術集会・第30回日本時間生物学会学術大会 合同大会  ( Japan ) 2023.9

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    Type:Competition, symposium, etc. 

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Research Projects

  • 代謝刷り込み型牛放牧肥育技術の高度化事業

    2025.4 - 2028.3

    日本中央競馬会畜産振興事業

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    Authorship:Coinvestigator(s)  Grant type:Contract research

  • マルチスケールリズムの相互作用に伴う性依存的な生体変調機序の統合理解と予測技術への応用

    2024.10 - 2030.3

    日本医療研究開発機構   革新的先端研究開発支援事業   AMED-CREST

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    Authorship:Principal investigator  Grant type:Contract research

  • 次世代和牛生産システム構築拠点

    2024.10 - 2026.3

    JST共創の場形成支援プログラム 

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    Authorship:Coinvestigator(s)  Grant type:Contract research

  • 負の情動改善を伴う我が国に適した採卵鶏飼育法の構築

    2022 - 2023

    Japan Society for the Promotion of Science  Grants-in-Aid for Scientific Research  Grant-in-Aid for Scientific Research (B)

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    Authorship:Coinvestigator(s)  Grant type:Scientific research funding

  • 周期的環境を利用した新しいストレスバイオロジーの開拓

    2021.4 - 2028.3

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    Authorship:Principal investigator 

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Educational Activities

  • I am in charge of cell biology, animal physiology, or animal husbandry management for undergraduates, and regulatory biology and related seminars for graduates.

Class subject

  • 動物生理学Ⅱ

    2025.12 - 2026.2   Winter quarter

  • 動物生産科学概論

    2025.10 - 2026.3   Second semester

  • 動物飼養生体制御学実験

    2025.10 - 2026.3   Second semester

  • 動物・海洋生物科学演習第一

    2025.10 - 2026.3   Second semester

  • 動物・海洋生物科学演習第二

    2025.10 - 2026.3   Second semester

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FD Participation

  • 2025.1   Role:Participation   Title:農学研究院FD:DX化によって広がる研究の可能性

    Organizer:[Undergraduate school/graduate school/graduate faculty]

  • 2024.12   Role:Participation   Title:競争的資金獲得に向けた農学研究院FD

    Organizer:[Undergraduate school/graduate school/graduate faculty]

  • 2023.11   Role:Participation   Title:農学研究院FD:遺伝子組換え実験の安全管理について

    Organizer:[Undergraduate school/graduate school/graduate faculty]

  • 2023.9   Role:Participation   Title:M2Bシステムの使い方 ~Moodleのバージョンアップによる変更点を中心に紹介します~

    Organizer:University-wide

  • 2022.3   Role:Participation   Title:全学FD:メンタルヘルス講演会

    Organizer:University-wide

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Visiting, concurrent, or part-time lecturers at other universities, institutions, etc.

  • 2023  東北大学  Classification:Intensive course  Domestic/International Classification:Japan 

  • 2023  早稲田大学  Classification:Part-time lecturer  Domestic/International Classification:Japan 

  • 2022  早稲田大学  Classification:Part-time lecturer  Domestic/International Classification:Japan 

Social Activities

  • 体内時計のしくみを活用した現代社会の健康増進 ~生活リズム・ライフステージ・性差を考慮したヘルスケアへ向けて~

    Role(s):Lecturer

    九州大学  九大フェスタ in 東京 研究成果発表会  2024.8

  • 体内時計にあわせた食生活から考える未来の健康科学

    佐賀清和高等学校  2022.10

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    Audience:Infants, Schoolchildren, Junior students, High school students

    Type:Seminar, workshop

  • 日本食品保険指導士会九州支部 指導士スキルアップ研修における講師

    日本食品保険指導士会九州支部  2022.2

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    Audience:General, Scientific, Company, Civic organization, Governmental agency

    Type:Seminar, workshop

  • 高校生の進路選択のための夢ナビ講義動画および夢ナビライブ出演

    フロムページ  2021.10

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    Audience:Infants, Schoolchildren, Junior students, High school students

    Type:Seminar, workshop

  • 長崎県の栄養士会により開催された生涯教育研修会にて、時間栄養学に関するセミナーを行なった。

    長崎県栄養士会  2019.9

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    Audience:General, Scientific, Company, Civic organization, Governmental agency

    Type:Seminar, workshop

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Media Coverage

  • Females are more prone to circadian clock disruption than males ̶ Expectations for shift worker health management incorporating gender differences Internet

    Science Japan JST News  2025.4

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    JST News 2025年3月号の英語版

  • 雌性生物雄性更易紊乱,有望推僢基于性Ģ差的班健康管理餡化 Internet

    中国向けポータルサイト「客観日本」  2025.3

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  • Chronic jet lag disrupts metabolism differently in male and female mice Internet

    九州大学 海外向けホームページ  2025.3

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Acceptance of Foreign Researchers, etc.

  • University of Pecs

    Acceptance period: 2012.4 - 2012.10   (Period):1 month or more

    Nationality:Hungary

    Business entity:Private/Foundation

Travel Abroad

  • 2023.12

    Staying countory name 1:China   Staying institution name 1:Northwest A&F University

  • 2014.2

    Staying countory name 1:Germany   Staying institution name 1:Leibniz Institute for Farm Animal Biology

  • 2013.8 - 2013.9

    Staying countory name 1:Germany   Staying institution name 1:Technical University Munich

  • 2013.8

    Staying countory name 1:Germany   Staying institution name 1:Ludwig Maximilian University Munich

  • 2012.3

    Staying countory name 1:Germany   Staying institution name 1:Goethe University Frankfurt am Main

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