Rchr
J-GLOBAL ID:200901087345945411
Update date: Oct. 22, 2024
Takeda Hiroyuki
タケダ ヒロユキ | Takeda Hiroyuki
Affiliation and department:
Homepage URL (2):
https://sites.google.com/view/hassei-takeda-lab-kyoto-su-jp
,
https://sites.google.com/view/hassei-takeda-lab-kyoto-su-en
Research field (2):
Developmental biology
, Genomics
Research keywords (12):
体節
, 中胚葉
, 誘導
, メダカ
, ゼブラフィッシュ
, 発生生物学
, mesoderm
, Induction
, Medaka
, zebrafish
, Central nervous tissue
, Developmental Biology
Research theme for competitive and other funds (36):
- 2018 - 2024 Study on life-long and cross- generation effects of epigenetic memories
- 2015 - 2021 Virtual laboratory to accelerate international collaboration on 3D morphological logic
- 2015 - 2020 3D morphologic
- 2015 - 2020 細胞集団の回転運動による3D形態形成のロジック
- 2013 - 2018 DNA3次元クロマチン動態の理解と予測
- 2013 - 2017 Epigenetic regulation of key developmental genes in the medaka genome
- 2010 - 2016 Management of the research group on logic for biological pattern formation
- 2010 - 2016 Logic for the establishment and maintenance of macro-level robust gene expression in organs
- 2010 - 2015 ミクロからマクロへ階層を超える秩序形成のロジック
- 2011 - 2014 Genome evolution induced by chromatin structure and DNA methylation
- 2012 - 2014 The mechanism of nuclear formation for calcium carbonate biomineralizatiion: the analysis using a medaka mutant
- 2008 - 2011 Genetic analysis of axis formation in vertebrates using medaka
- 2005 - 2010 Analysis of the vertebrate development and regeneration system using medaka genome EST and mutant resources
- 2006 - 2008 メダカ突然変異体を用いた左右軸決定機構の解析
- 2001 - 2005 脊椎動物モデルとしての小型魚類の発生の遺伝子システムの解明
- 2002 - 2004 メダカ突然変異体を用いた脊椎動物器官形成の発生遺伝学的解析
- 1998 - 2004 脊椎動物中枢神経系における前後軸・背腹軸の成立機構
- 2001 - 2004 頭部形成の分子機構
- 2000 - 2004 体節形成プログラムの進化-魚類を用いた発生遺伝学的解析-
- 1998 - 2004 脳・神経系形成における誘導のメカニズムの解明
- 2000 - 2002 Development of comprehensive toxicity testing method for polluted water using transgenic zebrafish
- 1998 - 2000 ゼブラフィッシュ突然変異体を用いた中枢神経の背腹軸形成機構の解析
- 2000 - 2000 ゼブラフィッシュ遺伝学によるミッドラインシグナル伝達機構の解析
- 1998 - 1999 ゼブラフィッシュ初期胚における中枢神経系の前後軸成立機構の解析
- 1997 - 1998 ゼブラフィッシュ初期胚における頭部領域の決定機構
- 1996 - 1998 ゼブラフィッシュ初期胚を用いた神経特異的遺伝子の発現制御機構の解析
- 1997 - 1998 Construction of gene tagging system by means of the medaka fish transposable element Tol-2
- 1996 - 1998 Neurogenesis and organogenesis of zebrafish and medaka
- 1996 - 1998 Comparative embryological study on the molecular function of organizing centers in animal development
- 1993 - 1996 ゼブラフィッシュ初期胚特異的転写因子 ZFPOU2の機能解析
- 1993 - 1996 ES細胞を用いた未知遺伝子の検索
- 1988 - 1989 分子生物学的手法を用いた前立腺誘導物質及びその遺伝子の検索
- 1987 - 1988 モザイク前立腺形成におけるアンドロゲンレセプター欠損細胞の動態
- 脊椎動物初期発生における細胞運命決定機構
- Development of Vertebrate certral Nervous System
- Cell Fate Determination in Vertebrate Embryogenesis
Show all
Papers (89):
-
Hiroto S Fukushima, Takafumi Ikeda, Shinra Ikeda, Hiroyuki Takeda. Cell cycle length governs heterochromatin reprogramming during early development in non-mammalian vertebrates. EMBO Reports. 2024
-
Hiroto S Fukushima, Hiroyuki Takeda, Ryohei Nakamura. Incomplete erasure of histone marks during epigenetic reprogramming in medaka early development. Genome research. 2023. 33. 572-586
-
Yui Uchida, Hiroyuki Takeda, Chikara Furusawa, Naoki Irie. Stability in gene expression and body-plan development leads to evolutionary conservation. EvoDevo. 2023. 14. 1. 4-4
-
Yusuke Inoue, Hiroyuki Takeda. Teratorn and Its Related Elements - a Novel Group of Herpesviruses Widespread in Teleost Genomes. 2023. 40. 2. 83-90
-
Hiroto S. Fukushima, Hiroyuki Takeda, Ryohei Nakamura. Targeted Manipulation of Histone Modification in Medaka Embryos. Epigenomics.Methods in Molecular Biology. 2023. 2577. 279-293
more...
MISC (70):
-
Kota Abe, Sayaka Tayama, Sachiko Tsuda, Atsuko Shimada, Hiroyuki Takeda. Cellular and molecular mechanisms for the establishment of the lifelong dorsoventral compartment boundary in the teleost trunk. MECHANISMS OF DEVELOPMENT. 2017. 145. S74-S74
-
Hiroto Fukushima, Hiroyuki Takeda, Ryohei Nakamura. Targeted in vivo epigenome editing in medaka fish. MECHANISMS OF DEVELOPMENT. 2017. 145. S136-S136
-
松尾 萌, 相賀 裕美子, 武田 洋幸, 越田 澄人. 運動性絨毛形成時の軸糸ダイニン形成における細胞質蛋白質Ktuの機能の解析(Analyses of the cytoplasmic protein Ktu function in axonemal dynein formation during motile ciliogenesis). 日本生化学会大会・日本分子生物学会年会合同大会講演要旨集. 2010. 83回・33回. 3P-0541
-
Atsuko Shimada, Toru Kawanishi, Keiji Inohaya, Hiroyuki Takeda. Embryonic origin of osteoblasts in scales and fins of medaka fish. DEVELOPMENTAL BIOLOGY. 2010. 344. 1. 534-534
-
Toru Kawanishi, Yuuta Moriyama, Ryohei Nakamura, Atsuko Shimada, Hiroyuki Takeda. zic1 and zic4 expression in the somite regulates dorsalization of the fish trunk structures. DEVELOPMENTAL BIOLOGY. 2010. 344. 1. 448-448
more...
Books (1):
-
Zic Genes in Teleosts: Their Roles in Dorsoventral Patterning in the Somite.
Springer Nature 2018 ISBN:9789811073113
Lectures and oral presentations (52):
-
Role of chromatin loops in transcriptional regulation during early development of medaka
(2023)
-
The effects of maternal high-fat diet on oogenesis and offspring development in medaka
(2023)
-
幼少期の栄養刺激がメダカ成体の脂肪組織に与える影響の解析
(第45回日本分子生物学会年会 2022)
-
The effects of maternal high-fat diet on oogenesis and offspring development in medaka
(The 95th Annual Meeting of the Japanese Biochemical Society 2022)
-
A role of collective cell migration in tissue elongation during coordinate growth of zebrafish midline tissues
(19th International Congress of International Society of Developmental Biologists)
more...
Works (1):
-
Zebrafish Mesp family genes, mesp-a and mesp-b are segmentally expressed in the presomitic mesoderm, and Mesp-b confers the anterior identity to the developing somites.(共著) 1691-1702
2000 -
Education (3):
- - 1984 The University of Tokyo Graduate School, Division of Science
- - 1982 The University of Tokyo Faculty of Science Department of Biological Sciences
- - 1982 The University of Tokyo Faculty of Science
Professional career (1):
- Doctor of Science (The University of Tokyo)
Awards (2):
- 2015 - 第18回比較腫瘍学常陸宮賞
- 2008/08 - 日本動物学会 日本動物学会賞
Association Membership(s) (4):
JAPAN SOCIETY FOR CELL BIOLOGY
, 日本動物学会
, 日本分子生物学会
, 日本発生生物学会
