現在地

加香 孝一郎(カコウ コウイチロウ; Kako, Koichiro)

研究者情報全体を表示

論文
  • The localization of the site of arylalkylamine N-acetyltransferase circadian expression in the photoreceptor cells of mammalian retina.
    Niki; T.; Hamada; T.; Ohtomi; M.; Sakamoto; K.; Suzuki; S...
    Biochenical and Biophysical Research Communications/248/p.115-120, 1998-01
  • Multitissue circadian expression of the rat period homologue gene is governed by a mammalian circadian clock pacemaker, the suprachiasmatic nucleus
    Sakamoto; K.; Nagase; T.; Fukui; H.; Horikawa; K.; Okada;...
    Journal Biological Chemistry/273/p.27039-27042, 1998-01
  • The role of transcription factors in circadian gene expression
    Kako; K.; Ishida; N.; +加香 孝一郎
    Neuroscience Research/31/p.257-264, 1998-01
  • 「セミドライトランスファー装置を用いた高分子量タンパク質のウェスタンブロッティング」
    加香孝一郎
    「細胞工学」/18/p.559-561, 1999-01
  • Detection of PERIOD/PAS-binding protein from rate brain nuclear extracts by affinity chromatography.
    Qu; Z.; Kako; K.; Suzuki; S.; Taniguchi; T.; and Ishida; ...
    Neuroscience letter/259/p.59-61, 1999-01
  • Diurnal DNA binding activity isolated from rat brain clock pacemaker recognize period repetitive sequence in vitro.
    Hamada; T.; Kako; K.; Wakamatsu; H.; Suzuki; S.; Takeuchi...
    Brain Research Molecular Brain Research/65/p.211-215, 1999-01
  • The expression of Cox17p in rodent tissues and cells.
    Kako K.; Tsumori K.; Ohmasa Y.; Takahashi Y.; Munekata E....
    European Journal of Biochemistry/267(22)/pp.6699-6707, 2000-01
  • Promoter Analysis for Daily Expression of ┣DBDrosophila timeless(/)-┫DB Gene
    Okada; T.; Sakai; T.; Murata; T.; Kako; K.; Sakamoto; K.;...
    Biochemical and Biophysical Research Communications/283/p.577-582, 2001-01
  • Genomic structure of mouse copper chaperone, COX17.
    Takahashi; Y.; Kako; K.; Ohmura; K.; Tsumori; K.; Ohmasa;...
    DNA Sequences/12/p.305-318, 2001-01
  • Structural and functional analysis of mammalian copper chaperone Cox17p.
    Kako; K.; Takahashi; Y.; Arai; H.; Takehara; A.; Mizunuma...
    Biomedical Research on Trace Elements/12/p.259-260, 2001-01
  • Characterization and identification of promoter elements in mouse COX17 gene.
    Takahashi Yoshinori; +加香 孝一郎; Arai Hidenori; Ohishi ...
    Biochimica Biophysica Acta/1574(3)/pp.359-364, 2002-01
  • Mammalian Cox17p contributes to maintain the cellular and mitochondrial copper homeostasis.
    Kako; K.; Onodera; T.; Arai; H.; Takehara; A.; Hanagata; ...
    Biomedical Research on Trace Elements/13/p.288-289, 2002-01
  • Highly conserved Drosophila ananassae timeless gene functions as a clock component in Drosophila melanogaster.
    Nishinokubi; I.; Shimoda; M.; Kako; K.; Sakai; T.; Fukami...
    Gene/307/p.183-190, 2003-01
  • Mammalian copper chaperone Cox17p is indispensable for cellular respiration and embryonic development.
    Takahashi; Y.; Kako; K.; Inada; Y.; Arai; H.; and Munekat...
    Journal of Peptide Science/8/p.192-193, 2003-01
  • Histochemical analysis of copper chaperone proteins -Cox17p, Sco1p and Sco2p- in different regions of the mouse brain.
    Kako; K.; Takahashi; Y.; Inada; Y.; Hisano; S.; Munekata;...
    Biomed. Res. Trace Elements/14/p.284-286, 2003-01
  • アルギニンメチル化を介した細胞機能の制御
    加香孝一郎; 金俊達; 新谷奈津美; 深水昭吉
    実験医学/25/p.139-146, 2007-01
  • メチル化アルギニンを介したエピジェネティックな血圧制御
    加香孝一郎; 深水昭吉
    細胞工学/28(6)/p.541-547, 2009-01
  • Nη-置換アルギニン残基を含むペプチド性タンパク質アルギニンメチル化酵素阻害剤
    加香孝一郎; 深水昭吉
    Chemical Biology/4(8)/p.10-11, 2011-12
  • Production of free methylarginines via the proteasome and autophagy pathways in cultured cells
    Shirakawa Takuma; Kako Koichiro; Shimada Takashi; Nagashi...
    MOLECULAR MEDICINE REPORTS/4(4)/pp.615-620, 2011-07
  • Estrogen Regulates Tumor Growth Through a Nonclassical Pathway that Includes the Transcription Factors ER beta and KLF5
    Nakajima Yuka; Akaogi Kensuke; Suzuki Takashi; Osakabe As...
    SCIENCE SIGNALING/4(168)/p.ra220, 2011-04
  • Asymmetric Arginine Dimethylation Determines Life Span in C. elegans by Regulating Forkhead Transcription Factor DAF-16
    Takahashi Yuta; Daitoku Hiroaki; Hirota Keiko; Tamiya Hir...
    CELL METABOLISM/13(5)/pp.505-516, 2011-05
  • 初期胚発生におけるミトコンドリア機能の重要性 : 正常な器官分化に必要なエネルギーは電子伝達系に強く依存する?
    加香 孝一郎; 深水 昭吉; 宗像 英輔
    化学と生物/43(11)/pp.700-702, 2005-11
  • Mitogen-activated protein kinases, Erk and p38, phosphorylate and regulate Foxo1
    Asada Sachie; Daitoku Hiroaki; Matsuzaki Hitomi; Saito To...
    CELLULAR SIGNALLING/19(3)/pp.519-527, 2007-03
  • EWS is a substrate of type I protein arginine methyltransferase, PRMT8
    Kim Jun-Dal; Kako Koichiro; Kakiuchi Misako; Park Gwi Gun...
    INTERNATIONAL JOURNAL OF MOLECULAR MEDICINE/22(3)/pp.309-315, 2008-09
  • Arginine Methylation of FOXO Transcription Factors Inhibits Their Phosphorylation by Akt
    Yamagata Kazuyuki; Daitoku Hiroaki; Takahashi Yuta; Namik...
    MOLECULAR CELL/32(2)/pp.221-231, 2008-10