Tottori University Division of Genome and Cellular Functions, Department of Molecular and Cellular Biology, School of Life Science, Faculty of Medicine, Tottori University
About Tottori University Division of Genome and Cellular Functions, Department of Molecular and Cellular Biology, School of Life Science, Faculty of Medicine, Tottori University
2013 - 2015 Identification of long non-coding RNA associated protein complexes using mouse artificial chromosome
2015 - 2015 細胞から染色体までのミクロの世界を覗いてみよう!
2013 - 2014 人工染色体を用いた長鎖非コードRNA関連分子の同定
2010 - 2013 新規テロメレース活性抑制遺伝子の機能解析による発がん機構の解明
2011 - 2012 新規がん抑制遺伝子を標的分子としたがん早期診断法の開発
2009 - 2012 標的ゲノム領域上の蛋白-RNA機能複合体解析に向けた人工染色体の活用
2010 - 2012 Mechanical analysis for carcinogenesis by functional studies of a novel telomerase repressor gene
2009 - 2011 A novel proteomics approach for identification of protein-RNA complex associated with specific gene loci using a human artificial chromosome (HAC)
2008 - 2010 Identification of regulatory factors for genomic imprinting using siRNA library
2002 - 2004 Genome-wide analysis of genomic impinting in cancer
2002 - インプリント遺伝子LIT1の機能解析
1996 - 1999 老化におけるテロメア配列の不安定化機構の解明
1996 - 1998 老化におけるテロメア配列の不安定化機構の解明
1996 - 1998 1番染色体の移入可能な異なる部位を保持する細胞クローンの作製
1996 - 1997 1番染色体の移入可能な異なる部位を保持する細胞クローンの作製
1996 - 1996 染色体導入による転移抑制遺伝子の同定
1993 - 1993 特定染色体導入によるがん抑制遺伝子の同定
1992 - 1992 特定染色体導入によるがん抑制遺伝子の同定
1991 - 1991 特定染色体導入によるがん抑制遺伝子の同定
微小核細胞融合法を用いた癌抑制遺伝子の研究
Functional analysis noncoding RNA, LIT1
Identification of telomerase repressor genes
Studies on tumor suppressor genes via microcell fusion
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Papers (92):
Hiroyuki Satofuka, Yayan Wang, Kyotaro Yamazaki, Shusei Hamamichi, Takeshi Fukuhara, Abdur Rafique, Nana Osako, Iori Kanazawa, Takeshi Endo, Naomi Miyake, et al. Characterization of human anti-EpCAM antibodies for developing an antibody-drug conjugate. Scientific Reports. 2023. 13. 1
大平 崇人, 久郷 裕之. 口腔扁平上皮がんにおいて、3p21.3領域を搭載した人工染色体はhTERT発現を抑制する(Human Artificial chromosome carrying 3p21.3-p22.2 region suppresses hTERT transcription in oral cancer cells). 日本癌学会総会記事. 2022. 81回. P-3031
Ryutaro Shimizu, Takahito Ohira, Takuki Yagyu, Tetsuya Yumioka, Noriya Yamaguchi, Hideto Iwamoto, Shuichi Morizane, Katsuya Hikita, Masashi Honda, Atsushi Takenaka, et al. Activation of PPARγ in bladder cancer via introduction of the long arm of human chromosome 9. Oncology Letters. 2022. 23. 3
Mizuho Ishikawa, Mitsuhiko Osaki, Narumi Uno, Takahito Ohira, Hiroyuki Kugoh, Futoshi Okada. MTA1, a metastasis-associated protein, in endothelial cells is an essential molecule for angiogenesis. Molecular medicine reports. 2022. 25. 1
清水 龍太郎, 寺岡 祥吾, 弓岡 哲也, 山口 徳也, 川本 文弥, 岩本 秀人, 森實 修一, 引田 克弥, 大平 崇人, 本田 正史, et al. 染色体工学技術による膀胱癌の新たな発癌制御機構の解明(Elucidation of a Novel Carcinogenic Regulatory Mechanism in Bladder Cancer by Chromosomal Engineering Technology). 西日本泌尿器科学会総会抄録集. 2021. 73回. 171-171
Transfer of a normal human chromosome 11 suppresses tumorigenicity of some but not all tumor cell lines.
Genetic Mechanisms in Carcinogenesis and Tumor Progression, Wiley-Liss, Inc. 1991
Multiple chromosomes carrying tumor suppressor activity, via microcell-mediated chromosome transfer, for various tumor cell line.
Genetic Basis for Carcinogenesis: Tumor Suppressor Genes and Oncogenes, Jpn. Sci. Soc. Press., Tokyo/Taylor & Francis, Ltd., London, (eds. Kunudson, A.G.Jr., et al.) 1990
Lectures and oral presentations (92):
Novel therapeutic approach for cancer using chromosome engineering techniques
(2021)