|
Publication List - Takahiro Nomoto 2017 (29 / 235 entries)
Journal Paper
-
N. Yamada,
Y. Honda,
H. Takemoto,
T. Nomoto,
M. Matsui,
K. Tomoda,
M. Konno,
H. Ishii,
M. Mori,
N. Nishiyama.
Engineering tumour cell-binding synthetic polymers with sensing dense transporters associated with aberrant glutamine metabolism,
Scientific Reports,
Vol. 7,
No. 1,
pp. 6077,
July 2017.
Official location
-
Qixian Chen,
Kensuke Osada,
Zhishen Ge,
Satoshi Uchida,
Theofilus A. Tockary,
Anjaneyulu Dirisala,
Akitsugu Matsui,
Kazuko Toh,
Kaori M. Takeda,
Xueying Liu,
Takahiro Nomoto,
Tekihiko Ishii,
Makoto Oba,
Yu Matsumoto,
Kazunori Kataoka.
Polyplex micelle installing intracellular self-processing functionalities without free catiomers for safe and efficient systemic gene therapy through tumor vasculature targeting,
Biomaterials,
Vol. 113,
pp. 253-265,
Jan. 2017.
-
Chih-Hao Huang,
Hiroyasu Takemoto,
Takahiro Nomoto,
Keishiro Tomoda,
Makoto Matsui,
Nobuhiro Nishiyama.
Utility of 2-Nitrobenzenesulfonamide Group as a Chemical Linker for Enhanced Extracellular Stability and Cytosolic Cleavage in siRNA-conjugated Polymer System,
ChemMedChem,
Vol. 12,
No. 1,
pp. 19-22,
Jan. 2017.
Official location
International Conference (Reviewed)
-
Hiroyasu Takemoto,
Huang Chih-Hao,
Takahiro Nomoto,
Keishiro Tomoda,
Makoto Matsui,
Nobuhiro Nishiyama.
2-Nitrobenzenesulfonamide Group that Responds to Intracellular Redox Potential with Enhanced Photostability for a Construction of Polymer-siRNA Conjugate System,
The 34th International Conference of Photopolymer Science and Technology (ICPST-34),
June 2017.
-
Yuto Honda,
Naoki Yamada,
Hiroyasu Takemoto,
Takahiro Nomoto,
Makoto Matsui,
Keishiro Tomoda,
Nobuhiro Nishiyama.
Novel design of glutamine-derived polymer with a high affinity to cancer cells based on aberrant glutamine metabolism.,
253rd American Chemical Society National Meeting & Exposition,
Apr. 2017.
-
Hiroyasu Takemoto,
Huang Chih-Hao,
Takahiro Nomoto,
Keishiro Tomoda,
Makoto Matsui,
Nobuhiro Nishiyama.
2-Nitrobenzenesulfonamide group as a chemical linker with highly selective cleavability in response to intracellular redox system for a construction of siRNA-polymer conjugate.,
253rd American Chemical Society National Meeting & Exposition,
Apr. 2017.
-
Takanori Inaba,
Hiroyasu Takemoto,
Makoto Matsui,
Takahiro Nomoto,
Keishiro Tomoda,
Nobuhiro Nishiyama.
Enhanced antitumor activity and reduced gastrointestinal toxicity of gemcitabine based on conjugation with biocompatible polymer via acetal linker,
International Symposium on Drug Delivery and Pharmaceutical Sciences: Beyond the History (ISDDPS),
Mar. 2017.
-
Tsukasa Nishimori,
Naoki Yamada,
Hiroyasu Takemoto,
Kentaro Suina,
Juntaro Yamasaki,
Takahiro Nomoto,
Makoto Matsui,
Keishiro Tomoda,
Osamu Nagano,
Hideyuki Saya,
Nobuhiro Nishiyama.
Development of intravenously injectable sulfasalazine derivatives to treat stem-like cancer cells,
International Symposium on Drug Delivery and Pharmaceutical Sciences: Beyond the History (ISDDPS),
Mar. 2017.
-
Chi-Hao Huang,
Hiroyasu Takemoto,
Takahiro Nomoto,
Keishiro Tomoda,
Makoto Matsui,
Nobuhiro Nishiyama.
2-nitrobenzenesulfonamide group as a new chemical linker with redox sensitivity for siRNA-conjugated polymer system,
11th Annual Symposium on Nanobiotechnology 2017,
Feb. 2017.
Domestic Conference (Reviewed)
-
Hiroyasu Takemoto,
Takanori Inaba,
Takahiro Nomoto,
Makoto Matsui,
Keishiro Tomoda,
Nobuhiro Nishiyama.
ゲムシタビンのポリアミノ酸への可逆的担持に基づく消化器毒性低減及び制がん効果向上,
Photopolymer Science and Technology (ICPST-34),
July 2017.
-
Gyomon Ryu,
Hiroyasu Takemoto,
Takahiro Nomoto,
Makoto Matsui,
Keishiro Tomoda,
Nobuhiro Nishiyama.
ミトコンドリア呼吸鎖阻害剤を腫瘍組織に送達するための高分子ミセルの開発,
第66回高分子年次大会,
May 2017.
-
Shunya Sakuma,
Ranneh Hackam,
Hiroyasu Takemoto,
Takahiro Nomoto,
Makoto Matsui,
Keishiro Tomoda,
Nobuhiro Nishiyama.
腫瘍内pHに応答する双性イオン型ポリマーの設計とDDS応用-ベタイン内アニオン性基の影響-,
第66回高分子年次大会,
May 2017.
-
Hiroki Shinkai,
Naoki Yamada,
Hiroyasu Takemoto,
Takahiro Nomoto,
Makoto Matsui,
Keishiro Tomoda,
Nobuhiro Nishiyama.
がん特異的代謝に着想した外殻にグルタミンを有する高分子ミセルの開発,
第66回高分子年次大会,
May 2017.
-
Hiroyasu Takemoto,
Chih Hao Huang,
Takahiro Nomoto,
Keishiro Tomoda,
Makoto Matsui,
Nobuhiro Nishiyama.
2-nitrobenzenesulfonamide group as a redox-sensitive linker for a construction of polymer-siRNA conjugate system,
第66回高分子年次大会,
May 2017.
-
Naoki Yamada,
Yuto Honda,
Hiroyasu Takemoto,
Takahiro Nomoto,
Makoto Matsui,
Keishiro Tomoda,
Nobuhiro Nishiyama.
Design of synthetic polymer toward achieving a selective high affinity to tumor cells by interacting with dense glutaminolysis-related transporters,
第66回高分子年次大会,
May 2017.
-
Ranneh Hackam,
Hiroyasu Takemoto,
Takahiro Nomoto,
Makoto Matsui,
Keishiro Tomoda,
Nobuhiro Nishiyama.
Development of stealth shell based on polycarboxybetaine structure tuned to selectively interact with cells in tumor extracellular acidic pH,
日本薬学会第137年会,
Mar. 2017.
International Conference (Not reviewed / Unknown)
-
Naoki Yamada,
Yuto Honda,
Hiroyasu Takemoto,
Takahiro Nomoto,
Makoto Matsui,
Keishiro Tomoda,
Nobuhiro Nishiyama.
Glutamine-Functionalized Polymer for Tumor-Selective High Affinity by Sensing Dense Glutamine Transporters Associated with Aberrant Metabolism,
14th US-JAPAN Symposium on Drug Delivery Systems,
Dec. 2017.
-
Hiroyasu Takemoto,
Takahiro Nomoto,
Keishiro Tomoda,
Makoto Matsui,
Nobuhiro Nishiyama.
2-nitrobenzenesulfonamide group that allows highly selective cleavage in intracellular redox system and the application for a construction of siRNA-polymer conjugate,
14th US-JAPAN Symposium on Drug Delivery Systems,
Dec. 2017.
Domestic Conference (Not reviewed / Unknown)
-
Naoki Yamada,
Yuto Honda,
Hiroyasu Takemoto,
Takahiro Nomoto,
Makoto Matsui,
Keishiro Tomoda,
Nobuhiro Nishiyama.
がん選択的に相互作用するグルタミン担持高分子の創製と機能評価,
第39回日本バイオマテリアル学会大会,
Nov. 2017.
-
Shunya Sakuma,
Abdul-Hackam RANNEH,
Hiroyasu Takemoto,
Takahiro Nomoto,
Makoto Matsui,
Keishiro Tomoda,
Nobuhiro Nishiyama.
腫瘍指向性ステルス高分子の開発とDDSへの応 用-ベタイン構造内アニオン性基の影響-,
第66回高分子討論会,
Sept. 2017.
-
Hiroyasu Takemoto,
Takanori Inaba,
Takahiro Nomoto,
Makoto Matsui,
Keishiro Tomoda,
Nobuhiro Nishiyama.
糖骨格を有する制がん剤のポリアミノ酸への可逆的担持と薬効向上及び消化器毒性低減,
第66回高分子討論会,
Sept. 2017.
-
Hiroki Shinkai,
Naoki Yamada,
Hiroyasu Takemoto,
Takahiro Nomoto,
Makoto Matsui,
Keishiro Tomoda,
Nobuhiro Nishiyama.
がん代謝に着想した表層にグルタミンを有する高分子ミセル型薬物送達システムの開発,
第66回高分子討論会,
Sept. 2017.
-
Xuebo Dou,
Takahiro Nomoto,
Hiroyasu Takemoto,
Makoto Matsui,
Keishiro Tomoda,
Nobuhiro Nishiyama.
光増感剤結合型高分子における多岐環状RGDペプチドの腫瘍集積性と腫瘍内分布への効果の検討,
第66回高分子討論会,
Sept. 2017.
Patent
-
Nobuhiro Nishiyama,
Hiroyasu Takemoto,
Keishiro Tomoda,
Takahiro Nomoto,
Makoto Matsui.
pH応答性ポリマー及び薬物送達システム.
Patent.
Registered.
国立大学法人東京工業大学.
2017/12/05.
特願2018-556597.
2019/10/24.
再表2018/110366.
特許第6995375号.
2021/12/17
2021.
-
Nobuhiro Nishiyama,
Takahiro Nomoto,
Hiroyasu Takemoto,
Makoto Matsui,
Keishiro Tomoda.
温度応答性ポリマー及びそれを含む組成物.
Patent.
Published.
国立大学法人東京工業大学.
2017/11/01.
特願2017-211893.
2019/06/06.
特開2019-085438.
2019.
-
Nobuhiro Nishiyama,
Hiroyasu Takemoto,
Takahiro Nomoto,
Keishiro Tomoda,
Makoto Matsui,
Naoki Yamada,
Yuto Honda.
グルタミントランスポーターと多価結合することができるリガンド、及び当該リガンドを含む組成物.
Patent.
Registered.
国立大学法人東京工業大学, 国立大学法人大阪大学.
2017/08/17.
特願2018-535630.
2019/06/20.
特開(再表)2018-037996.
特許第7076104号.
2022/05/19
2022.
-
Nobuhiro Nishiyama,
Hiroyuki Nakamura,
Hiroyasu Takemoto,
Takahiro Nomoto.
ホウ素クラスター結合ペプチド化合物.
Patent.
Published.
国立大学法人東京工業大学, 味の素株式会社, 公益財団法人川崎市産業振興財団, 国立大学法人東京大学.
2017/03/23.
特願2018-507416.
2019/02/28.
再表2017/164334.
2019.
-
Nobuhiro Nishiyama,
Hiroyasu Takemoto,
Takanori Inaba,
Takahiro Nomoto,
Makoto Matsui,
Keishiro Tomoda.
薬物送達用担体及び薬物送達システム.
Patent.
Published.
国立大学法人東京工業大学.
2017/02/20.
特願2017-029264.
2020/04/23.
特開2020-063191.
2020.
-
Nobuhiro Nishiyama,
Hiroyasu Takemoto,
Takahiro Nomoto,
Makoto Matsui,
Keishiro Tomoda,
Naoki Yamada,
Tsukasa Nishimori.
抗腫瘍剤.
Patent.
Registered.
国立大学法人東京工業大学, 学校法人慶應義塾.
2017/01/05.
特願2017-560416.
2018/11/01.
再表2017/119462.
特許第6803589号.
2020/12/03
2020.
-
Nobuhiro Nishiyama,
Hiroyasu Takemoto,
Takahiro Nomoto,
Keishiro Tomoda,
Makoto Matsui.
結合体.
Patent.
Published.
国立大学法人東京工業大学.
2016/06/07.
特願2016-113664.
2017/12/14.
特開2017-218408.
2017.
[ Save as BibTeX ]
[ Paper, Presentations, Books, Others, Degrees: Save as CSV
]
[ Patents: Save as CSV
]
|