論文・総説 - 松元 亮

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  1. Bettinger CJ, Cyr KM, Matsumoto A, Langer R, Borenstein JT, Kaplan DL. Silk Fibroin Microfluidic Devices. Adv Mater. 2007; 19 (5): 2847-2850. ( PubMed, DOI )

  2. Y. Miyahara, C. Kataoka-Hamai, H. Inoue, T. Sakata, A. Matsumoto, N. Sato, I. Makino. Biochemical responses of nano-pillar gate field-effect devices Proceedings of IEEE Sensors. 2007; 682-685. ( DOI )

  3. Toshiya Sakata, Akira Matsumoto, Yuji Miyahara. Bio-transistor for Genetic Analysis. Function & Materials. 2007; 27 25-34.

  4. Matsumoto A, Chen J, Collette AL, Kim UJ, Altman GH, Cebe P, Kaplan DL. Mechanisms of silk fibroin sol-gel transitions. J Phys Chem B. 2006.11; 110 (43): 21630-21638. ( PubMed, DOI )

  5. Xianyan Wang, Andrea Daley, Hyeon Joo Kim, Peng Xu, Akira Matsumoto, David L. Kaplan. Controlled release biomaterial nanoscale coatings by stepwise deposition of silk fibroin 2006.03;

  6. Xianyan Wang; Hyeon Joo Kim; Cheryl Wong; Charu Vepari; Akira Matsumoto; David L. Kaplan. Fibrous Protein and Tissue Engineering. Materials Today. 2006; 9 (12): 44-53.

  7. Wang X, Kim HJ, Xu P, Matsumoto A, Kaplan DL. Biomaterial coatings by stepwise deposition of silk fibroin. Langmuir. 2005.11; 21 (24): 11335-11341. ( PubMed, DOI )

  8. Hyeon Joo Kim; Hyun Suk Kim; Akira Matsumoto; In-Joo Chin; Hyoung-Joon Jin; David L. Kaplan. Processing Windows for Forming Silk Fibroin Biomaterials into 3D Porous Matrices. Aust. J. Chem.. 2005; 58 (10): 716-720.

  9. Matsumoto A, Yoshida R, Kataoka K. Glucose-responsive polymer gel bearing phenylborate derivative as a glucose-sensing moiety operating at the physiological pH. Biomacromolecules. 2004.05; 5 (3): 1038-1045. ( PubMed, DOI )

  10. A Matsumoto, T Kurata, D Shiino, K Kataoka. Swelling and shrinking kinetics of totally synthetic, glucose-responsive polymer gel bearing phenylborate derivative as a glucose-sensing moiety MACROMOLECULES. 2004.02; 37 (4): 1502-1510. ( DOI )

  11. Matsumoto A, Ikeda S, Harada A, Kataoka K. Glucose-responsive polymer bearing a novel phenylborate derivative as a glucose-sensing moiety operating at physiological pH conditions. Biomacromolecules. 2003.09; 4 (5): 1410-1416. ( PubMed, DOI )

  12. 松元 亮. 「ボロノレクチン」を応用した糖鎖シアル酸検出と腫瘍ターゲティング バイオマテリアル-生体材料-. 2024.01; 42 (1): 92-93. ( 医中誌 )

  13. Yang Wenqian, Miyazaki Takuya, Nakagawa Yasuhiro, Boonstra Eger, Masuda Keita, Nakashima Yuki, Chen Pengwen, Mixich Lucas, Barthelmes Kevin, Matsumoto Akira, Mi Peng, Uchida Satoshi, Cabral Horacio. Block catiomers with flanking hydrolyzable tyrosinate groups enhance in vivo mRNA delivery via pi-pi stacking-assisted micellar assembly SCIENCE AND TECHNOLOGY OF ADVANCED MATERIALS. 2023.12; 24 (1): 2170164. ( PubMed, DOI )

  14. 松元 亮. "ボロノレクチン"による生体対話を通じて切り拓くバイオエンジニアリング 薬学雑誌. 2023.05; 143 (5): 435-441. ( 医中誌 )

  15. Matsumoto Akira. "Borono-lectin"-mediated Crosstalk and Its Application to Bioengineering YAKUGAKU ZASSHI-JOURNAL OF THE PHARMACEUTICAL SOCIETY OF JAPAN. 2023; 143 (5): 435-441. ( PubMed, DOI )

  16. Fujisaki Hideki, Matsumoto Akira, Miyahara Yuji, Goda Tatsuro. Sialic acid biosensing by post-printing modification of PEDOT:PSS with pyridylboronic acid SCIENCE AND TECHNOLOGY OF ADVANCED MATERIALS. 2022.12; 23 (1): 525-534. ( PubMed, DOI )

  17. Abe Chizumi, Higuchi Ohki, Matsumoto Akira, Miyazawa Taiki. Determination of intracellular ascorbic acid using tandem mass spectrometry ANALYST. 2022.06; 147 (12): 2640-2643. ( PubMed, DOI )

  18. Fujisaki Hideki, Watcharawittayakul Tongchatra, Matsumoto Akira, Miyahara Yuji, Goda Tatsuro. In-situ chemical modification of printed conducting polymer films for specific glucose biosensing SENSORS AND ACTUATORS B-CHEMICAL. 2021.12; 349 ( DOI )

  19. Yang Wenqian, Miyazaki Takuya, Chen Pengwen, Hong Taehun, Naito Mitsuru, Miyahara Yuji, Matsumoto Akira, Kataoka Kazunori, Miyata Kanjiro, Cabral Horacio. Block catiomer with flexible cationic segment enhances complexation with siRNA and the delivery performance in vitro SCIENCE AND TECHNOLOGY OF ADVANCED MATERIALS. 2021.12; 22 (1): 850-863. ( PubMed, DOI )

  20. 松元 亮, 宮崎 拓也, 伊藤 美智子, 菅波 孝祥, 宮原 裕二. 【すべての人々の健康・福祉の実現に貢献するバイオマテリアル】ボロン酸ゲルを用いた糖尿病治療デバイスの社会実装 バイオマテリアル-生体材料-. 2021.10; 39 (4): 252-257. ( 医中誌 )

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