Researchers Database

OGAWA TADAYUKI

Position： Senior Assistant Professor

Last Updated :2025/04/28

Profiles

Profiles

氏名
OGAWA TADAYUKI

Affiliation

Senior Assistant Professor

Profile and Settings

Alternate Names

T Ogawa

Affiliation

International Christian University

Degree

Mar. 2008

Research Interests

人体解剖学

神経変性疾患

精神疾患

構造生物学

細胞骨格

分子モーター

質量分析

タンパク質科学

解剖学

神経科学

細胞生物学

Research Areas

Life Science, Anatomy

Life Science, Anatomy and histopathology of nervous system

Life Science, Cell biology

Life Science, Biophysics

Committee Memberships

Nov. 2018, 9999, Society

May 2016, 9999, Society

Sep. 2018, May 2019, Society

Jul. 2015, Jul. 2016, Society

Association Memberships

アメリカ細胞生物学会

THE JAPAN NEUROSCIENCE SOCIETY

THE MOLECULAR BIOLOGY SOCIETY OF JAPAN

日本プロテオーム学会

THE MASS SPECTROMETRY SOCIETY OF JAPAN

THE BIOPHYSICAL SOCIETY OF JAPAN

JAPAN SOCIETY FOR CELL BIOLOGY

THE JAPANESE ASSOCIATION OF ANATOMISTS

Research achievements

Published Papers

Unclear

Betaine ameliorates schizophrenic traits by functionally compensating for KIF3-based CRMP2 transport, Shogo Yoshihara; Xuguang Jiang; Momo Morikawa; Tadayuki Ogawa; Sotaro Ichinose; Hirooki Yabe; Akiyoshi Kakita; Manabu Toyoshima; Yasuto Kunii; Takeo Yoshikawa; Yosuke Tanaka; Nobutaka Hirokawa, Cell Reports, 35(2), 108971-108971, Apr. 2021
DOI

'Quality' of Schizophrenia-relevant Molecules: from Genetic and Environmental Factors to Proteins, Manabu TOYOSHIMA; Xuguang JIANG; Tadayuki OGAWA; Nobutaka HIROKAWA; Takeo YOSHIKAWA, BUNSEKI KAGAKU, 69(10.11), 531-537, 05 Oct. 2020
DOI

Enhanced carbonyl stress induces irreversible multimerization of CRMP2 in schizophrenia pathogenesis., Toyoshima M; Jiang X; Ogawa T; Ohnishi T; Yoshihara S; Balan S; Yoshikawa T; Hirokawa N, Life Science Alliance., 2(5), pii: e201900478., Oct. 2019
DOI

The Spatiotemporal Construction of the Axon Initial Segment via KIF3/KAP3/TRIM46 Transport under MARK2 Signaling., Ichinose S; Ogawa T; Jiang X; Hirokawa N, Cell reports, 28(9), 2413-2426, Aug. 2019
DOI

Multiple analyses of protein dynamics in solution, Tadayuki Ogawa; Nobutaka Hirokawa, Biophysical Reviews, 10(2), 299-306, 01 Apr. 2018
DOI

Mechanism of Catalytic Microtubule Depolymerization via KIF2-Tubulin Transitional Conformation, Tadayuki Ogawa; Shinya Saijo; Nobutaka Shimizu; Xuguang Jiang; Nobutaka Hirokawa, CELL REPORTS, 20(11), 2626-2638, Sep. 2017
DOI

Mechanism of Activity-Dependent Cargo Loading via the Phosphorylation of KIF3A by PKA and CaMKIIa, Sotaro Ichinose; Tadayuki Ogawa; Nobutaka Hirokawa, NEURON, 87(5), 1022-1035, Sep. 2015
DOI

Microtubule Destabilizer KIF2A Undergoes Distinct Site-Specific Phosphorylation Cascades that Differentially Affect Neuronal Morphogenesis, Tadayuki Ogawa; Nobutaka Hirokawa, CELL REPORTS, 12(11), 1774-1788, Sep. 2015
DOI

Indigenome and Indigenomics : Targeted Quantitative Analysis of Native Biomolecules on Their Expression and Variety of Indigenous Forms ^|^mdash; Represented by Proteins ^|^mdash;, Toshihide NISHIMURA; Makoto KIHARA; Junichi KAMIIE; Hirotaka KAWAKAMI; Yasuhiko BANDO; Andrew J. ALPERT; Tadayuki OGAWA; Hiromasa TOJO, BUNSEKI KAGAKU, 61(6), 445-457, 2012
DOI

A common mechanism for microtubule destabilizers - M type kinesins stabilize curling of the protofilament using the class-specific neck and loops, T Ogawa; R Nitta; Y Okada; N Hirokawa, CELL, 116(4), 591-602, Feb. 2004
DOI

2SA01 Atomic model of depolymerization mechanism of micro-tubules by a kinesin superfamily protein, KIF2C, Okada Y., Seibutsu Butsuri, 44(0), S13, 2004
DOI

MISC

タンパク質複合体の溶液中解析を活かす測定試料前処理系の改良, 小川覚之; 西條慎也; 清水伸隆; JIANG Xuguang; 廣川信隆, Photon Factory News, 35(4), 9‐12, Feb. 2018

神経形成を支える分子機構―微小管脱重合機構と神経突起伸長制御―, 小川覚之; 西條慎也; 清水伸隆; 蒋緒光; 蒋緒光; 廣川信隆; 廣川信隆, 日本解剖学会総会・全国学術集会講演プログラム・抄録集, 123rd, 94, 2018

The Smart Mechanism of Microtubule Depolymerizing Nano-Machine, Ogawa T; Saijo S; Shimizu N; Jiang X; Hirokawa N, Photon Factory Highlights 2017, 4, 48-49, 2018

SEC-SAXS Analysis Revealed the Transitional Complex of Microtubule Depolymerizing Kinesin and Tubulin in Solution., Tadayuki OGAWA; Shinya SAIJO; Nobutaka SHIMIZU; Nobutaka HIROKAWA, Photon Factory Activity Report 2017, Vol.35, No.66, 2018

The Crystal Structure of Microtubule Depolymerizing Kinesin KIF2 in Transitional States., Tadayuki OGAWA; Xuguang JIANG; Nobutaka HIROKAWA, Photon Factory Activity Report 2017, Vol.35, No.55, 2018

異なる特異的リン酸化カスケードによる微小管脱重合蛋白質KIF2Aの制御機構, 小川覚之; 小川覚之; 廣川信隆; 廣川信隆, 日本細胞生物学会大会(Web), 68th, ROMBUNNO.T1‐6 (WEB ONLY), 2016

異なる特異的リン酸化カスケードによる微小管脱重合蛋白質KIF2Aの制御機構, 小川覚之; 小川覚之; 廣川信隆; 廣川信隆, 日本解剖学会総会・全国学術集会講演プログラム・抄録集, 121st, 132, 2016

異なる特異的リン酸化カスケードによる微小管脱重合蛋白質の制御機構, 小川覚之; 小川覚之; 廣川信隆; 廣川信隆, 日本プロテオーム学会大会プログラム・抄録集, 2016, 86, 2016

神経細胞における微小管脱重合の制御機構の解明:Phos‐tagからリン酸化定量プロテオミクスまで, 小川覚之; 小川覚之; 廣川信隆; 廣川信隆, 電気泳動(Web), 60(Suppl), s16(J‐STAGE), 2016

異なる特異的リン酸化カスケードによる微小管脱重合蛋白質KIF2Aの制御機構, 小川覚之; 廣川信隆, 日本生化学会大会(Web), 88th, 3T23-15(3P0075) (WEB ONLY), 2015

Microtubule Destabilizer KIF2A Undergoes Distinct Site-specific Phosphorylation Cascades for Neuronal Morphogenesis, T. Ogawa; N. Hirokawa, MOLECULAR BIOLOGY OF THE CELL, 26, 2015

Mechanism of Activity-dependent Cargo Loading via the Phosphorylation of KIF3A by PKA and CaMKIIa, S. Ichinose; T. Ogawa; N. Hirokawa, MOLECULAR BIOLOGY OF THE CELL, 26, 2015

A common mechanism for microtubule destabilizers-M-Type kinesins stabilize curling of the protofilament using the class-specific neck and loops., T Ogawa; R Nitta; Y Okada; N Hirokawa, MOLECULAR BIOLOGY OF THE CELL, 15, 36A-36A, Nov. 2004

A common mechanism for microtubule destabilizers-M-type kinesins stabilize curling of the protofilament using the class-specific neck and loops, Tadayuki Ogawa; Ryo Nitta; Yasushi Okada; Nobutaka Hirokawa, CELL STRUCTURE AND FUNCTION, 29, 37-37, May 2004

Presentations

疾患脳から迫る疾患特異的金属蛋白質の分子構造病態解析, 小川覚之, 第21回日本蛋白質科学会年会 (オンライン開催), 17 Jun. 2021, Public symposium

量子ビームで迫る微小管関連タンパク質構造動態：疾患から分子構造病態まで, 小川覚之, 2020年度量子ビームサイエンスフェスタ (オンライン開催), 11 Mar. 2021, Invited oral presentation

タンパク質の質的変化を如何に捉えるか？, 小川覚之, 第42回日本分子生物学会年会（福岡）, 05 Dec. 2019, Public symposium

微小管脱重合反応を推進する遷移段階KIF2-チューブリン複合体の溶液解析, 小川覚之; 西條慎也; 清水伸隆; 蒋緒光; 廣川信隆, 分子生物学会, 29 Nov. 2018, Public symposium, False

The Smart Nano-Machine that demolishes the Microtubule Cytoskeleton in Cells, Ogawa Tadayuki, International BMS Symposium, 26 Oct. 2018, Invited oral presentation, True

Mechanism of Protein Dynamics Revealed by the Combination of Multiple Protein Analyses in Solution, Tadayuki Ogawa; Nobutaka Hirokawa, 生物物理学会, 16 Sep. 2018, Public symposium, False

Mechanism of Catalytic Microtubule Depolymerization via KIF2-tubulin Transitional Conformation, Ogawa Tadayuki, American Society for Cell Biology, 05 Dec. 2017, Poster presentation, True

神経細胞における微小管脱重合の制御機構の解明：Phos-tagからリン酸化定量プロテオミクスまで, 小川覚之, 日本電気泳動学会, 26 Aug. 2016, Invited oral presentation, False

Microtubule Destabilizer KIF2A Undergoes Distinct Site-specific Phosphorylation Cascades that Differentially Affect Neuronal Morphogenesis, Ogawa Tadayuki, International Congress of Cell Biology, 21 Jul. 2016, Oral presentation, True

Microtubule Destabilizer KIF2A Undergoes Distinct Site-specific Phosphorylation Cascades for Neuronal Morphogenesis, Ogawa Tadayuki, American Society for Cell Biology, 15 Dec. 2015, Poster presentation, True

蛋白質複合体の遷移状態を解析する, 小川覚之, 生体分子相互作用解析フォーラム(BMIA)ワークショップ, 27 Aug. 2015, Invited oral presentation, False

生命科学研究における質量分析, 小川覚之, JIANミーティング, 22 Aug. 2014, Public discourse, False

生命科学研究におけるリン酸化プロテオミクスー基礎と実際ー, 小川覚之, 微生物化学研究会セミナー, 21 Aug. 2014, Public discourse, False

Educational activity

Teaching Experience

99 Dec. 2019, Health Science (class in English), International Christian University

20 Apr. 2015, Brain Anatomy, The University of Tokyo, Faculty of Medicine

20 Apr. 2006, Histology, The University of Tokyo, Faculty of Medicine

20 Apr. 2006, Human Anatomy, The University of Tokyo, Faculty of Medicine

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