No. |
Author |
Title |
Journal |
1 |
橋本 佳樹, 川内 敬子, 三好 大輔 |
細胞内環境で安定化する核酸構造を標的にした低分子薬の開発 |
MEDCHEM NEWS (日本薬学会), 34 (1), 36-42 https://doi.org/10.14894/medchem.34.1_36(2024) |
2 |
Takeru Torii, Wataru Sugimoto, Katsuhiko Itoh, Natsuki Kinoshita, Masaya Gessho, Toshiyuki Goto, Ikuno Uehara, Wataru Nakajima, Yemima Budirahardja, Daisuke Miyoshi, Takahito Nishikata, Nobuyuki Tanaka, Hiroaki Hirata, Keiko Kawauchi |
Loss of p53 function promotes DNA damage-induced formation of nuclear actin filaments |
Cell Death & Disease, 14, Article number: 766766 (2023) |
3 |
取井猛流・木下菜月・橋本佳樹・杉本渉・川内敬子・三 好大輔 |
RNA 高次構造を標的とした光線力学療法の展望 |
BIO Clinica, 38 (13), 1154-1156(2023) |
4 |
Natsuki Kinoshita, Masaya Gessho, Takeru Torii, Yukako Ashida, Minori Akamatsu, Alvin Kunyao Guo, Sunmin Lee, Tatsuya Katsuno 3, Wataru Nakajima Yemima Budirahardja, Daisuke Miyoshi, Takehiko Todokoro, Hiroki Ishida, Takahito Nishikata, Keiko Kawauchi |
The iron chelator deferriferrichrysin induces paraptosis via extracellular signal-related kinase activation in cancer cells |
Genes Cells, /10.1111/gtc.13053(2023) |
5 |
Yoshiki Hashimoto, Yoshiki Imagawa, Kaho Nagano, Ryuichi Maeda, Naho Nagahama, Takeru Torii, Natsuki Kinoshita, Nagisa Takamiya, Keiko Kawauchi, Hisae Tatesishi-Karimata, Naoki Sugimoto and Daisuke Miyoshi |
Simple and fast screening for structure-selective G-quadruplex ligands |
Chem. Commun. (back front cover), 59, 4891-4894(2023) |
6 |
Sumit Shil, Mitsuki Tsuruta, Keiko Kawauchi and Daisuke Miyoshi |
Biomolecular Liquid–Liquid Phase Separation for Biotechnology |
BioTech, 12(2), 26(2023) |
7 |
川内敬子、取井猛流、月生雅也、木下菜月、三好大輔 |
rDNAおよびrRNAが形成する四重らせん構造による核小体機能の制御 |
月刊細胞(ニューサイエンス社), 54 (12), 36-39(2022) |
8 |
木下菜月、取井猛流、川内敬子、三好大輔 |
核酸の四重らせん構造を狙った治療薬の展望 |
BIO Clinina(北隆館), 37(4), 52-55(2022) |
9 |
Mitsuki Tsuruta, Takeru Torii, Kazuki Kohata, Keiko Kawauchi, Hisae Tateishi-Karimata, Naoki Sugimoto and Daisuke Miyoshi |
Controlling liquid–liquid phase separation of G-quadruplex-forming RNAs in a sequence-specific manner |
Chem. Commun. (front cover), 58, 12931-12934(2022) |
10 |
川内敬子・橋本佳樹・杉本 渉・三好大輔 |
細胞内環境で安定化される核酸非構造を狙った分子標的薬の開発 |
バイオマテリアル-生体材料- (ISSN 1347-7080), 40(3), 6 pages(2022) |
11 |
Wataru Sugimoto, Natsuki Kinoshita, Minori Nakata, Tatsuya Ohyama, Hisae Tateishi-Karimata, Takahito Nishikata, Naoki Sugimoto, Daisuke Miyoshi, Keiko Kawauchi |
Intramolecular G-quadruplex-hairpin loop structure competition of a GC-rich exon region in the TMPRSS2 gene |
Chem. Commun. , 58, 48-51(2022) |
12 |
鶴田 充生・取井 猛流・杉本 渉・川内 敬子・三好 大輔 |
核酸の化学修飾と構造や相分離能の相関 |
月刊「細胞」(ニューサイエンス社), 53 (14), 910-913(2021) |
13 |
Wataru Sugimoto, Daisuke Miyoshi, Keiko Kawauchi |
Detection of Intracellular Reactive Oxidative Species Using the Fluorescent Probe Hydroxyphenyl Fluorescein (doi: 10.1007/978-1-0716-1258-3_18) |
Methods Mol Biol (Live Cell Imaging), 2274, 207-215(2021) |
14 |
杉本 渉・橋本 佳樹・川内 敬子・三好 大輔 |
がん関連RNAを破壊する分子標的型光線力学療法 |
BIO Clinica(北隆館), 36 (5), 65-67(2021) |
15 |
Keiko Kawauchi, Ryoto Urano, Natsuki Kinoshita, Shin Kuwamoto, Takeru Torii, Yoshiki Hashimoto, Shinya Taniguchi, Mitsuki Tsuruta, Daisuke Miyoshi |
Photosensitizers Based on G-Quadruplex Ligand for Cancer Photodynamic Therapy |
Genes, 11 (11), 1340; doi.org/10.3390/genes11111340(2020) |
16 |
三好大輔、川内敬子 |
DNA,RNAと相分離 |
相分離生物学の全貌 白木 賢太郎 (編集)(2020) |
17 |
Takeru Torii, Wataru Sugimoto, Keiko Kawauchi, Daisuke Miyoshi |
Novel Strategy of Photodynamic Therapy Targeting RAS mRNA with G-Quadruplex Ligands for Cancer Treatment |
J Data Mining Genomics Proteomics, 11(2), No:1000226 (2020) |
18 |
杉本渉、川内敬子、三好大輔 |
RAS mRNAを狙った分子標的型光線力学療法 |
Medical Science Digest, 46 (9), 26-27(2020) |
19 |
Keiko Kawauchi, Wataru Sugimoto, Daisuke Miyoshi |
The RAS mRNA G-quadruplex: making undruggable cancer targets druggable |
The Atlas of Science(2019) |
20 |
Keiko Kawauchi, Wataru Sugimoto, Takatoshi Yasui, Kohei Murata, Katsuhiko Itoh, Kazuki Takagi, Takaaki Tsuruoka, Kensuke Akamatsu, Hisae Tateishi-Karimata, Naoki Sugimoto, and Daisuke Miyoshi |
An anionic phthalocyanine decreases NRAS expression by breaking down its RNA G-quadruplex |
Nature Communications, 9, 2271(2018) |