ゼミ / Seminars 2020

論文紹介 / Article presentation

Date Presenter Article
2020/10/29 Kamino Morioka 森岡一乃. 研究紹介.
2020/10/23 Mana Miyoshi 三好愛. 研究紹介.
2020/10/16 Rena Ikeda 池田玲奈. 研究紹介.
2020/10/09 Shunichi Nakamura 中村駿一. 研究紹介.
2020/10/02 Mina Ishioka 石岡美奈. 研究紹介.
2020/09/18 Tomohide Takaya 高谷智英. 骨格筋芽細胞の増殖・分化を制御する分子群の同定. 第20回日本抗加齢医学会 (予演).
Yuma Nihashi 二橋佑磨, 梅澤公二, 下里剛士, 高谷智英. 新規骨形成型オリゴ DNA 配列の同定. 第20回日本抗加齢医学会 (予演).
Rena Ikeda 池田玲奈, 梅澤公二, 二橋佑磨, 下里剛士, 坂本泰一, 高谷智英. 筋形成型オリゴ DNA の短縮化と構造的特徴. 第20回日本抗加齢医学会 (予演).
Mana Miyoshi 三好愛, 二橋佑磨, 梅澤公二, 下里剛士, 高谷智英. 血管平滑筋の分化における筋形成型オリゴ DNA の作用. 第20回日本抗加齢医学会 (予演).
Kamino Morioka 森岡一乃, 三谷塁一, 梅澤公二, 下里剛士, 高谷智英. 脂肪細胞分化における筋形成型オリゴ DNA の作用. 第20回日本抗加齢医学会 (予演).
2020/09/11 Yuma Nihashi 二橋佑磨. 研究紹介.
2020/09/04 Tomohide Takaya 高谷智英. 研究紹介.
2020/07/31 Mina Ishioka Percharde M, Lin CJ, Yin Y, Guan J, Peixoto GA, Bulut-Karslioglu A, Biechele S, Huang B, Shen X, Ramalho-Santos M. A LINE1-nucleolin partnership regulates early development and ESC identity. Cell. 2018; 174: 391-405.
2020/07/17 Shunichi Nakamura 中村駿一. 就活ゼミ.
2020/07/10
2020/07/03
Mana Miyoshi 三好愛. 血管平滑筋の分化・石灰化における筋形成型オリゴ DNA の作用. 修士院試 (予演).
Kamino Morioka 森岡一乃. 脂肪細胞分化における筋形成型オリゴ DNA の作用. 修士院試 (予演).
2020/06/19 Shunichi Nakamura Henriksen TI, Davidsen PK, Pedersen M, Schultz HS, Hansen NS, Larsen TJ, Vaag A, Pedersen BK, Nielsen S, Scheele C. Dysregulation of a novel miR-23b/27b-p53 axis impairs muscle stem cell differentiation of humans with type 2 diabetes. Mol Metab. 2017; 6: 770-779.
Hirata Y, Nomura K, Senga Y, Okada Y, Kobayashi K, Okamoto S, Minokoshi Y, Imamura M, Takeda S, Hosooka T, Ogawa W. Hyperglycemia induces skeletal muscle atrophy via a WWP1/KLF15 axis. JCI Insight. 2019; 4: e124952.
2020/06/12 Kamino Morioka Thomalla M, Schmid A, Neumann E, Pfefferle PI, Muller-Ladner U, Schaffler A, Karrasch T. Evidence of an anti-inflammatory toll-like receptor 9 (TLR 9) pathway in adipocytes. J Endocrinol. 2019; 240: 325-343.
2020/06/05 Mana Miyoshi Fang L, Zhang PF, Wang KK, Xiao ZL, Yang M, Yu ZX. Nucleolin promotes Ang II-induced phenotypic transformation of vascular smooth muscle cells via interaction with tropoelastin mRNA. Int J Mol Med. 2019; 43: 1597-1610.
Fang L, Wang KK, Zhang PF, Li T, Xiao ZL, Yang M, Yu ZX. Nucleolin promotes Ang II-induced phenotypic transformation of vascular smooth muscle cells by regulating EGF and PDGF-BB. J Cell Mol Med. 2020; 24: 1917-1933.
2020/05/29 Rena Ikeda Miyauchi Y, Ninomiya K, Miyamoto H, Sakamoto A, Iwasaki R, Hoshi H, Miyamoto K, Hao W, Yoshida S, Morioka H, Chiba K, Kato S, Tokuhisa T, Saitou M, Toyama Y, Suda T, Miyamoto T. The Blimp1-Bcl6 axis is critical to regulate osteoclast differentiation and bone homeostasis. J Exp Med. 2010; 207: 751-762.
2020/05/22 Yuma Nihashi Luttrell LM, Dar MS, Gesty-Palmer D, El-Shewy HM, Robinson KM, Haycraft CJ, Barth JL. Transcriptomic characterization of signaling pathways associated with osteoblastic differentiation of MC-3T3E1 cells. PLoS One. 2019; 14: e0204197.
Hou X, Shen Y, Zhang C, Zhang L, Qin Y, Yu Y, Wang L, Sun X. A specific oligodeoxynucleotide promotes the differentiation of osteoblasts via ERK and p38 MAPK pathways. Int J Mol Sci. 2012; 13: 7902-7914.
2020/05/15 Tomohide Takaya いろいろな ODN.
2020/02/26 Kamino Morioka Liu Y, Maekawa T, Yoshida K, Muratani M, Chatton B, Ishii S. The transcription factor ATF7 controls adipocyte differentiation and thermogenic gene programming. iScience. 2019; 13: 98-112.
2020/02/21 Mana Miyoshi Wu W, Zhang W, Choi M, Zhao J, Gao P, Xue M, Singer HA, Jourd'heuil D, Long X. Vascular smooth muscle-MAPK14 is required for neointimal hyperplasia by suppressing VSMC differentiation and inducing proliferation and inflammation. Redox Biol. 2019; 22: 101137.
2020/02/07
2020/01/31
Sayaka Shinji 進士彩華. 筋形成型オリゴ DNA の作用機序の解析. 修士論文発表会 (予演).
Rena Ikeda 池田玲奈. 筋形成型オリゴ DNA の短縮化と構造解析. 専攻研究論文発表会 (予演).
2020/01/24 Shunichi Nakaura Lecomte V, Meugnier E, Euthine V, Durand C, Freyssenet D, Nemoz G, Rome S, Vidal H, Lefai E. A new role for sterol regulatory element binding protein 1 transcription factors in the regulation of muscle mass and muscle cell differentiation. Mol Cell Biol. 2010; 30: 1182-1198.
2020/01/16 Mina Ishioka Suzuki A, Minamide R, Iwata J. WNT/β-catenin signaling plays a crucial role in myoblast fusion through regulation of nephrin expression during development. Development. 2018; 145: dev168351.