Rchr
J-GLOBAL ID:201401066331986150
Update date: Apr. 09, 2024
Ariyoshi Mariko
アリヨシ マリコ | Ariyoshi Mariko
Affiliation and department:
Homepage URL (1):
http://www.fbs.osaka-u.ac.jp/labs/fukagawa/index_j.html
Research field (4):
Functional biochemistry
, Biophysics
, Molecular biology
, Structural biochemistry
Research keywords (7):
kinetochore
, centromere
, protein complex
, epigenetics
, DNA binidng protein
, chromatin
, protein crystallography
Research theme for competitive and other funds (8):
- 2021 - 2024 Structural basis for dynamic kinetochore assembly essential for chromosome segregation
- 2018 - 2021 Structural basis for molecular architecture linking chromatin and spindle microtubule
- 2016 - 2018 セントロメアにおけるクロマチン構造制御の分子基盤
- 2015 - 2018 Structural basis of phospholipid remodeling acyl-transferase LPCAT1
- 2011 - 2016 Role of heterochromatin in chromosome function
- 2013 - 2015 クロマチン・リモデリング NuRD複合体形成の構造基盤
- 2009 - 2015 Analyses of the activation mechanisms of receptors of fatty acids and membrane receptors by in situ measurement
- 2009 - 2011 Structure basis of maintenance DNA methylation
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Papers (59):
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Yutaka Mahana, Mariko Ariyoshi, Ryu-Suke Nozawa, Sachiko Shibata, Koji Nagao, Chikashi Obuse, Masahiro Shirakawa. Structural evidence for protein-protein interaction between the non-canonical methyl-CpG-binding domain of SETDB proteins and C11orf46. Structure. 2024. 32. 3. 304-315.e5
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Mariko Ariyoshi, Tatsuo Fukagawa. An updated view of the kinetochore architecture. Trends in genetics : TIG. 2023
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Masatoshi Hara, Mariko Ariyoshi, Tomoki Sano, Ryu-Suke Nozawa, Soya Shinkai, Shuichi Onami, Isabelle Jansen, Toru Hirota, Tatsuo Fukagawa. Centromere/kinetochore is assembled through CENP-C oligomerization. Molecular Cell. 2023. 83. 13. 2188-2205.e13
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Honghui Jiang, Mariko Ariyoshi, Reito Watanabe, Fumiaki Makino, Keiichi Namba, Tatsuo Fukagawa. The cryo-EM structure of the CENP-A nucleosome in complex with ggKNL2. 2022
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Ayako Ohno, Nobuo Maita, Takanori Tabata, Hikaru Nagano, Kyohei Arita, Mariko Ariyoshi, Takayuki Uchida, Reiko Nakao, Anayt Ulla, Kosuke Sugiura, et al. Crystal structure of inhibitor-bound human MSPL that can activate high pathogenic avian influenza. Life Science Alliance. 2021. 4. 6. e202000849-e202000849
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MISC (21):
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Mariko Ariyoshi, Kosuke Morikawa. A Dual Base Flipping Mechanism for Archaeal Mismatch Repair. Structure (London, England : 1993). 2016. 24. 11. 1859-1861
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韓龍雲, 崔玉兵, 崔玉兵, 横田浩章, 横田浩章, 有吉眞理子, 津中康央, 有田恭平, 安里慧, 安里慧, et al. メチル化CpG維持に関与するSRAドメインの機能解析. 日本生化学会大会(Web). 2015. 88th. 2P0658 (WEB ONLY)-[2P0658]
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木村豪, 木村豪, 堤尚孝, 有田恭平, 有吉眞理子, 山本崇裕, 近藤直実, 近藤直実, 白川昌宏, 杤尾豪人, et al. 蛋白質立体構造からみたIL-18のシグナル伝達メカニズムの解明. 呼吸. 2015. 34. 11
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木村豪, 堤尚孝, 有田恭平, 有吉眞理子, 大西秀典, 白川昌宏, 近藤直実, 杤尾豪人, 加藤善一郎. アレルギー,自己免疫,自己炎症疾患治療薬開発に向けたIL-18複合体の構造解析. 日本小児科学会雑誌. 2014. 118. 2. 211
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CUI Yubing, HAN Yong-Woon, ARIYOSHI Mariko, ARITA Kyohei, SUETAKE Isao, TAJIMA Shoji, HARADA Yoshie. Characterization of the hemi-methylated CpG methylation process using fluorescent labeled SRA. 生物物理. 2014. 54. Supplement 1-2 (Web)
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Patents (1):
Lectures and oral presentations (1):
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Structural insight into epigenetic marker readout by UHRF1.
(第6回ナノメディシン国際シンポジウム 2012)
Professional career (1):
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