齊藤 博英

Last Update: 2015/06/26 09:11:43

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Name(Kanji/Kana/Abecedarium Latinum)
齊藤 博英/サイトウ ヒロヒデ/Saitou, Hirohide
Primary Affiliation(Org1/Job title)
iPS細胞研究所/Professor
Faculty
Org1 Job title
理学部
Contact Address
Type Address(Japanese) Address(English)
Office 京都市左京区聖護院川原町53 iPS細胞研究所
Academic Degree
Field(Japanese) Field(English) University(Japanese) University(English) Method
修士(工学) 東京大学
博士(工学) 東京大学
Personal Website(s) (URL(s))
URL
http://www.cira.kyoto-u.ac.jp/saito/
researchmap URL
https://researchmap.jp/7000008581
Research Topics
(Japanese)
RNAシンセティックバイオロジーを活用した細胞機能制御技術の開発
(English)
Synthetic biology-based approaches to regulate cellular functions
Overview of the research
(Japanese)
研究概要 生体分子や生命システムを「人工的に創り出す」作業を通じて生命を理解し、新しいテクノロジーを誘発しようとするSynthetic Biology (シンセティック・バイオロジー) 分野の研究が世界的に定着しつつあります 。細胞の機能を自在に制御する人工生体分子を創成すること、及びそれらを検査や医療に応用することは、この新分野の研究目標の一つです。当研究室では、生体内で多彩な機能を担うRNA やRNA-タンパク質複合体(RNP)を人工的に分子設計(molecular design)・実験進化 (experimental evolution)させる独自のSynthetic Biology技術を活用し、標的細胞の機能や運命を自在に制御できる新技術を開発します。また、そのような新技術の開発とともに、「生命とは何か?」「細胞の構築原理とは?」という生命システムの進化・創出を理解するための根源的な問いに、実験的アプローチで迫ることを目指します。
(English)
Research in the synthetic biology field, which attempts to bring about new technologies by understanding life through the process of “artificially creating” biomolecules and biological systems, is becoming established worldwide. Creating artificial biomolecules that freely control the functions of cells and applying them to examinations and medical treatments is one of the research goals of this new field. Our laboratory will use the unique technology of synthetic biology that molecularly designs RNA and/or RNA-protein complexes (RNP) artificially, assuming various functions in vivo, and experimentally evolve them* in order to develop a new technology that will allow the functions and fate of target cells to be freely controlled. Moreover, along with developing such new technologies, in order to understand the evolution/creation of biological systems, we aim to experimentally approach the fundamental questions of “What is life?” and “What are the structural principals of cells?”
Fields of research (key words)
Key words(Japanese) Key words(English)
シンセティックバイオロジー、分子生物学、進化分子工学、バイオエンジニアリング Synthetic Biology, Molecular Biology, Bioengineering,Directed Evolution
Published Papers
Author Author(Japanese) Author(English) Title Title(Japanese) Title(English) Bibliography Bibliography(Japanese) Bibliography(English) Publication date Refereed paper Language Publishing type Disclose
Ohno H, Akamine S, Saito H Ohno H, Akamine S, Saito H Ohno H, Akamine S, Saito H RNA nanostructures and scaffolds for biotechnology applications. RNA nanostructures and scaffolds for biotechnology applications. RNA nanostructures and scaffolds for biotechnology applications. Current opinion in biotechnology, 58, 53-61 Current opinion in biotechnology, 58, 53-61 Current opinion in biotechnology, 58, 53-61 2018/11 Refereed Disclose to all
Matsuura S, Ono H, Kawasaki S, Kuang Y, Fujita Y, Saito H Matsuura S, Ono H, Kawasaki S, Kuang Y, Fujita Y, Saito H Matsuura S, Ono H, Kawasaki S, Kuang Y, Fujita Y, Saito H Synthetic RNA-based logic computation in mammalian cells. Synthetic RNA-based logic computation in mammalian cells. Synthetic RNA-based logic computation in mammalian cells. Nature communications, 9, 1, 4847 Nature communications, 9, 1, 4847 Nature communications, 9, 1, 4847 2018/11 Refereed Disclose to all
Zhitnyuk Y, Gee P, Lung MSY, Sasakawa N, Xu H, Saito H, Hotta A Zhitnyuk Y, Gee P, Lung MSY, Sasakawa N, Xu H, Saito H, Hotta A Zhitnyuk Y, Gee P, Lung MSY, Sasakawa N, Xu H, Saito H, Hotta A Efficient mRNA delivery system utilizing chimeric VSVG-L7Ae virus-like particles. Efficient mRNA delivery system utilizing chimeric VSVG-L7Ae virus-like particles. Efficient mRNA delivery system utilizing chimeric VSVG-L7Ae virus-like particles. Biochemical and biophysical research communications, 505, 4, 1097-1102 Biochemical and biophysical research communications, 505, 4, 1097-1102 Biochemical and biophysical research communications, 505, 4, 1097-1102 2018/11 Refereed Disclose to all
Tang Leiming, Morris Jacob, Wan Ji, Moore Chelsea, Fujita Yoshihiko, Gillaspie Sarah, Aube Eric, Nanda Jagpreet, Marques Maud, Jangal Maika, Anderson Abbey, Cox Christian, Hiraishi Hiroyuki, Dong Leiming, Saito Hirohide, Singh Chingakham Ranjit, Witcher Michael, Topisirovic Ivan, Qian Shu-Bing, Asano Katsura Tang Leiming, Morris Jacob, Wan Ji, Moore Chelsea, Fujita Yoshihiko, Gillaspie Sarah, Aube Eric, Nanda Jagpreet, Marques Maud, Jangal Maika, Anderson Abbey, Cox Christian, Hiraishi Hiroyuki, Dong Leiming, Saito Hirohide, Singh Chingakham Ranjit, Witcher Michael, Topisirovic Ivan, Qian Shu-Bing, Asano Katsura Tang Leiming, Morris Jacob, Wan Ji, Moore Chelsea, Fujita Yoshihiko, Gillaspie Sarah, Aube Eric, Nanda Jagpreet, Marques Maud, Jangal Maika, Anderson Abbey, Cox Christian, Hiraishi Hiroyuki, Dong Leiming, Saito Hirohide, Singh Chingakham Ranjit, Witcher Michael, Topisirovic Ivan, Qian Shu-Bing, Asano Katsura Competition between translation initiation factor elF5 and its mimic protein 5MP determines non-AUG initiation rate genome-wide Competition between translation initiation factor elF5 and its mimic protein 5MP determines non-AUG initiation rate genome-wide Competition between translation initiation factor elF5 and its mimic protein 5MP determines non-AUG initiation rate genome-wide NUCLEIC ACIDS RESEARCH, 45, 20, 11941-11953 NUCLEIC ACIDS RESEARCH, 45, 20, 11941-11953 NUCLEIC ACIDS RESEARCH, 45, 20, 11941-11953 2017/11/16 Refereed Disclose to all
Shibata Tomonori, Fujita Yoshihiko, Ohno Hirohisa, Suzuki Yuki, Hayashi Karin, Komatsu Kaoru R., Kawasaki Shunsuke, Hidaka Kumi, Yonehara Shin, Sugiyama Hiroshi, Endo Masayuki, Saito Hirohide Shibata Tomonori, Fujita Yoshihiko, Ohno Hirohisa, Suzuki Yuki, Hayashi Karin, Komatsu Kaoru R., Kawasaki Shunsuke, Hidaka Kumi, Yonehara Shin, Sugiyama Hiroshi, Endo Masayuki, Saito Hirohide Shibata Tomonori, Fujita Yoshihiko, Ohno Hirohisa, Suzuki Yuki, Hayashi Karin, Komatsu Kaoru R., Kawasaki Shunsuke, Hidaka Kumi, Yonehara Shin, Sugiyama Hiroshi, Endo Masayuki, Saito Hirohide Protein-driven RNA nanostructured devices that function in vitro and control mammalian cell fate Protein-driven RNA nanostructured devices that function in vitro and control mammalian cell fate Protein-driven RNA nanostructured devices that function in vitro and control mammalian cell fate NATURE COMMUNICATIONS, 8 NATURE COMMUNICATIONS, 8 NATURE COMMUNICATIONS, 8 2017/09/14 Refereed Disclose to all
Hirosawa Moe, Fujita Yoshihiko, Parr Callum J. C., Hayashi Karin, Kashida Shunnichi, Hotta Akitsu, Woltjen Knut, Saito Hirohide Hirosawa Moe, Fujita Yoshihiko, Parr Callum J. C., Hayashi Karin, Kashida Shunnichi, Hotta Akitsu, Woltjen Knut, Saito Hirohide Hirosawa Moe, Fujita Yoshihiko, Parr Callum J. C., Hayashi Karin, Kashida Shunnichi, Hotta Akitsu, Woltjen Knut, Saito Hirohide Cell-type-specific genome editing with a microRNA-responsive CRISPR-Cas9 switch Cell-type-specific genome editing with a microRNA-responsive CRISPR-Cas9 switch Cell-type-specific genome editing with a microRNA-responsive CRISPR-Cas9 switch NUCLEIC ACIDS RESEARCH, 45, 13 NUCLEIC ACIDS RESEARCH, 45, 13 NUCLEIC ACIDS RESEARCH, 45, 13 2017/07/27 Refereed Disclose to all
Kawasaki Shunsuke, Fujita Yoshihiko, Nagaike Takashi, Tomita Kozo, Saito Hirohide Kawasaki Shunsuke, Fujita Yoshihiko, Nagaike Takashi, Tomita Kozo, Saito Hirohide Kawasaki Shunsuke, Fujita Yoshihiko, Nagaike Takashi, Tomita Kozo, Saito Hirohide Synthetic mRNA devices that detect endogenous proteins and distinguish mammalian cells Synthetic mRNA devices that detect endogenous proteins and distinguish mammalian cells Synthetic mRNA devices that detect endogenous proteins and distinguish mammalian cells NUCLEIC ACIDS RESEARCH, 45, 12 NUCLEIC ACIDS RESEARCH, 45, 12 NUCLEIC ACIDS RESEARCH, 45, 12 2017/07/07 Refereed Disclose to all
Kuang Y, Miki K, Parr CJC, Hayashi K, Takei I, Li J, Iwasaki M, Nakagawa M, Yoshida Y, Saito H Kuang Y, Miki K, Parr CJC, Hayashi K, Takei I, Li J, Iwasaki M, Nakagawa M, Yoshida Y, Saito H Kuang Y, Miki K, Parr CJC, Hayashi K, Takei I, Li J, Iwasaki M, Nakagawa M, Yoshida Y, Saito H Efficient, Selective Removal of Human Pluripotent Stem Cells via Ecto-Alkaline Phosphatase-Mediated Aggregation of Synthetic Peptides. Efficient, Selective Removal of Human Pluripotent Stem Cells via Ecto-Alkaline Phosphatase-Mediated Aggregation of Synthetic Peptides. Efficient, Selective Removal of Human Pluripotent Stem Cells via Ecto-Alkaline Phosphatase-Mediated Aggregation of Synthetic Peptides. Cell chemical biology, 24, 6, 685-694.e4 Cell chemical biology, 24, 6, 685-694.e4 Cell chemical biology, 24, 6, 685-694.e4 2017/06 Refereed Disclose to all
Nakanishi H, Miki K, Komatsu KR, Umeda M, Mochizuki M, Inagaki A, Yoshida Y, Saito H Nakanishi H, Miki K, Komatsu KR, Umeda M, Mochizuki M, Inagaki A, Yoshida Y, Saito H Nakanishi H, Miki K, Komatsu KR, Umeda M, Mochizuki M, Inagaki A, Yoshida Y, Saito H Monitoring and visualizing microRNA dynamics during live cell differentiation using microRNA-responsive non-viral reporter vectors. Monitoring and visualizing microRNA dynamics during live cell differentiation using microRNA-responsive non-viral reporter vectors. Monitoring and visualizing microRNA dynamics during live cell differentiation using microRNA-responsive non-viral reporter vectors. Biomaterials, 128, 121-135 Biomaterials, 128, 121-135 Biomaterials, 128, 121-135 2017/06 Refereed Disclose to all
Parr CJ, Katayama S, Miki K, Kuang Y, Yoshida Y, Morizane A, Takahashi J, Yamanaka S, Saito H Parr CJ, Katayama S, Miki K, Kuang Y, Yoshida Y, Morizane A, Takahashi J, Yamanaka S, Saito H Parr CJ, Katayama S, Miki K, Kuang Y, Yoshida Y, Morizane A, Takahashi J, Yamanaka S, Saito H MicroRNA-302 switch to identify and eliminate undifferentiated human pluripotent stem cells. MicroRNA-302 switch to identify and eliminate undifferentiated human pluripotent stem cells. MicroRNA-302 switch to identify and eliminate undifferentiated human pluripotent stem cells. Scientific reports, 6, 32532 Scientific reports, 6, 32532 Scientific reports, 6, 32532 2016/09 Refereed Disclose to all
Endo K, Hayashi K, Saito H Endo K, Hayashi K, Saito H Endo K, Hayashi K, Saito H High-resolution Identification and Separation of Living Cell Types by Multiple microRNA-responsive Synthetic mRNAs. High-resolution Identification and Separation of Living Cell Types by Multiple microRNA-responsive Synthetic mRNAs. High-resolution Identification and Separation of Living Cell Types by Multiple microRNA-responsive Synthetic mRNAs. Scientific reports, 6, 21991 Scientific reports, 6, 21991 Scientific reports, 6, 21991 2016/02 Refereed Disclose to all
Karagiannis P, Fujita Y, Saito H Karagiannis P, Fujita Y, Saito H Karagiannis P, Fujita Y, Saito H RNA-based gene circuits for cell regulation. RNA-based gene circuits for cell regulation. RNA-based gene circuits for cell regulation. Proceedings of the Japan Academy. Series B, Physical and biological sciences, 92, 9, 412-422 Proceedings of the Japan Academy. Series B, Physical and biological sciences, 92, 9, 412-422 Proceedings of the Japan Academy. Series B, Physical and biological sciences, 92, 9, 412-422 2016 Refereed Disclose to all
Ohno H, Saito H Ohno H, Saito H Ohno H, Saito H RNA and RNP as Building Blocks for Nanotechnology and Synthetic Biology. RNA and RNP as Building Blocks for Nanotechnology and Synthetic Biology. RNA and RNP as Building Blocks for Nanotechnology and Synthetic Biology. Progress in molecular biology and translational science, 139, 165-185 Progress in molecular biology and translational science, 139, 165-185 Progress in molecular biology and translational science, 139, 165-185 2016 Refereed Disclose to all
Morita M, Onoe H, Yanagisawa M, Ito H, Ichikawa M, Fujiwara K, Saito H, Takinoue M Morita M, Onoe H, Yanagisawa M, Ito H, Ichikawa M, Fujiwara K, Saito H, Takinoue M Morita M, Onoe H, Yanagisawa M, Ito H, Ichikawa M, Fujiwara K, Saito H, Takinoue M Droplet-Shooting and Size-Filtration (DSSF) Method for Synthesis of Cell-Sized Liposomes with Controlled Lipid Compositions. Droplet-Shooting and Size-Filtration (DSSF) Method for Synthesis of Cell-Sized Liposomes with Controlled Lipid Compositions. Droplet-Shooting and Size-Filtration (DSSF) Method for Synthesis of Cell-Sized Liposomes with Controlled Lipid Compositions. Chembiochem : a European journal of chemical biology, 16, 14, 2029-2035 Chembiochem : a European journal of chemical biology, 16, 14, 2029-2035 Chembiochem : a European journal of chemical biology, 16, 14, 2029-2035 2015/09 Refereed Disclose to all
Wroblewska L, Kitada T, Endo K, Siciliano V, Stillo B, Saito H, Weiss R Wroblewska L, Kitada T, Endo K, Siciliano V, Stillo B, Saito H, Weiss R Wroblewska L, Kitada T, Endo K, Siciliano V, Stillo B, Saito H, Weiss R Mammalian synthetic circuits with RNA binding proteins for RNA-only delivery. Mammalian synthetic circuits with RNA binding proteins for RNA-only delivery. Mammalian synthetic circuits with RNA binding proteins for RNA-only delivery. Nature biotechnology, 33, 8, 839-841 Nature biotechnology, 33, 8, 839-841 Nature biotechnology, 33, 8, 839-841 2015/08 Refereed Disclose to all
Miki K, Endo K, Takahashi S, Funakoshi S, Takei I, Katayama S, Toyoda T, Kotaka M, Takaki T, Umeda M, Okubo C, Nishikawa M, Oishi A, Narita M, Miyashita I, Asano K, Hayashi K, Osafune K, Yamanaka S, Saito H, Yoshida Y Miki K, Endo K, Takahashi S, Funakoshi S, Takei I, Katayama S, Toyoda T, Kotaka M, Takaki T, Umeda M, Okubo C, Nishikawa M, Oishi A, Narita M, Miyashita I, Asano K, Hayashi K, Osafune K, Yamanaka S, Saito H, Yoshida Y Miki K, Endo K, Takahashi S, Funakoshi S, Takei I, Katayama S, Toyoda T, Kotaka M, Takaki T, Umeda M, Okubo C, Nishikawa M, Oishi A, Narita M, Miyashita I, Asano K, Hayashi K, Osafune K, Yamanaka S, Saito H, Yoshida Y Efficient Detection and Purification of Cell Populations Using Synthetic MicroRNA Switches. Efficient Detection and Purification of Cell Populations Using Synthetic MicroRNA Switches. Efficient Detection and Purification of Cell Populations Using Synthetic MicroRNA Switches. Cell stem cell, 16, 6, 699-711 Cell stem cell, 16, 6, 699-711 Cell stem cell, 16, 6, 699-711 2015/06 Refereed Disclose to all
Saito H Saito H Saito H [Synthetic RNA technologies to control functions of mammalian cells]. [Synthetic RNA technologies to control functions of mammalian cells]. [Synthetic RNA technologies to control functions of mammalian cells]. Yakugaku zasshi : Journal of the Pharmaceutical Society of Japan, 135, 3, 399-404 Yakugaku zasshi : Journal of the Pharmaceutical Society of Japan, 135, 3, 399-404 Yakugaku zasshi : Journal of the Pharmaceutical Society of Japan, 135, 3, 399-404 2015 Refereed Disclose to all
Ohno H, Osada E, Saito H Ohno H, Osada E, Saito H Ohno H, Osada E, Saito H Design, assembly, and evaluation of RNA-protein nanostructures. Design, assembly, and evaluation of RNA-protein nanostructures. Design, assembly, and evaluation of RNA-protein nanostructures. Methods in molecular biology (Clifton, N.J.), 1297, 197-211 Methods in molecular biology (Clifton, N.J.), 1297, 197-211 Methods in molecular biology (Clifton, N.J.), 1297, 197-211 2015 Refereed Disclose to all
Shibata T, Suzuki Y, Sugiyama H, Endo M, Saito H Shibata T, Suzuki Y, Sugiyama H, Endo M, Saito H Shibata T, Suzuki Y, Sugiyama H, Endo M, Saito H Folding RNA-Protein Complex into Designed Nanostructures. Folding RNA-Protein Complex into Designed Nanostructures. Folding RNA-Protein Complex into Designed Nanostructures. Methods in molecular biology (Clifton, N.J.), 1316, 169-179 Methods in molecular biology (Clifton, N.J.), 1316, 169-179 Methods in molecular biology (Clifton, N.J.), 1316, 169-179 2015 Refereed Disclose to all
Endo K, Parr C, Saito H Endo K, Parr C, Saito H Endo K, Parr C, Saito H Expanding the synthetic ribonucleoprotein world in cells. Expanding the synthetic ribonucleoprotein world in cells. Expanding the synthetic ribonucleoprotein world in cells. Nature methods, 11, 11, 1105-1106 Nature methods, 11, 11, 1105-1106 Nature methods, 11, 11, 1105-1106 2014/11 Refereed Disclose to all
Osada E, Suzuki Y, Hidaka K, Ohno H, Sugiyama H, Endo M, Saito H Osada E, Suzuki Y, Hidaka K, Ohno H, Sugiyama H, Endo M, Saito H Osada E, Suzuki Y, Hidaka K, Ohno H, Sugiyama H, Endo M, Saito H Engineering RNA-protein complexes with different shapes for imaging and therapeutic applications. Engineering RNA-protein complexes with different shapes for imaging and therapeutic applications. Engineering RNA-protein complexes with different shapes for imaging and therapeutic applications. ACS nano, 8, 8, 8130-8140 ACS nano, 8, 8, 8130-8140 ACS nano, 8, 8, 8130-8140 2014/08 Refereed Disclose to all
Hagiya M, Konagaya A, Kobayashi S, Saito H, Murata S Hagiya M, Konagaya A, Kobayashi S, Saito H, Murata S Hagiya M, Konagaya A, Kobayashi S, Saito H, Murata S Molecular robots with sensors and intelligence. Molecular robots with sensors and intelligence. Molecular robots with sensors and intelligence. Accounts of chemical research, 47, 6, 1681-1690 Accounts of chemical research, 47, 6, 1681-1690 Accounts of chemical research, 47, 6, 1681-1690 2014/06 Refereed Disclose to all
Saito H Saito H Saito H [RNA-protein nanotechnology & synthetic biology]. [RNA-protein nanotechnology & synthetic biology]. [RNA-protein nanotechnology & synthetic biology]. Seikagaku. The Journal of Japanese Biochemical Society, 86, 1, 81-85 Seikagaku. The Journal of Japanese Biochemical Society, 86, 1, 81-85 Seikagaku. The Journal of Japanese Biochemical Society, 86, 1, 81-85 2014/02 Refereed Disclose to all
Endo K, Saito H Endo K, Saito H Endo K, Saito H Engineering protein-responsive mRNA switch in mammalian cells. Engineering protein-responsive mRNA switch in mammalian cells. Engineering protein-responsive mRNA switch in mammalian cells. Methods in molecular biology (Clifton, N.J.), 1111, 183-196 Methods in molecular biology (Clifton, N.J.), 1111, 183-196 Methods in molecular biology (Clifton, N.J.), 1111, 183-196 2014 Refereed Disclose to all
Kashida S, Saito H Kashida S, Saito H Kashida S, Saito H A three-dimensional design strategy for a protein-responsive shRNA switch. A three-dimensional design strategy for a protein-responsive shRNA switch. A three-dimensional design strategy for a protein-responsive shRNA switch. Methods in molecular biology (Clifton, N.J.), 1111, 269-286 Methods in molecular biology (Clifton, N.J.), 1111, 269-286 Methods in molecular biology (Clifton, N.J.), 1111, 269-286 2014 Refereed Disclose to all
T. Hara; H. Saito; T. Inoue T. Hara; H. Saito; T. Inoue T. Hara; H. Saito; T. Inoue Directed evolution of a synthetic RNA-protein module to create a new translational switch Directed evolution of a synthetic RNA-protein module to create a new translational switch Directed evolution of a synthetic RNA-protein module to create a new translational switch Chemical Communications, 49, 37, 3833-3835 Chemical Communications, 49, 37, 3833-3835 Chemical Communications, 49, 37, 3833-3835 2013 Refereed English Disclose to all
S. Murata; A. Konagaya; S. Kobayashi; H. Saito; M. Hagiya S. Murata; A. Konagaya; S. Kobayashi; H. Saito; M. Hagiya S. Murata; A. Konagaya; S. Kobayashi; H. Saito; M. Hagiya Molecular robotics: A new paradigm for artifacts Molecular robotics: A new paradigm for artifacts Molecular robotics: A new paradigm for artifacts New Generation Computing, 31, 1, 27-45 New Generation Computing, 31, 1, 27-45 New Generation Computing, 31, 1, 27-45 2013 Refereed English Disclose to all
K. Endo; J.A. Stapleton; K. Hayashi; H. Saito; T. Inoue K. Endo; J.A. Stapleton; K. Hayashi; H. Saito; T. Inoue K. Endo; J.A. Stapleton; K. Hayashi; H. Saito; T. Inoue Quantitative and simultaneous translational control of distinct mammalian mRNAs Quantitative and simultaneous translational control of distinct mammalian mRNAs Quantitative and simultaneous translational control of distinct mammalian mRNAs Nucleic Acids Research, 41, 13, e135 Nucleic Acids Research, 41, 13, e135 Nucleic Acids Research, 41, 13, e135 2013 Refereed English Disclose to all
K. Endo; K. Hayashi; T. Inoue; H. Saito K. Endo; K. Hayashi; T. Inoue; H. Saito K. Endo; K. Hayashi; T. Inoue; H. Saito A versatile cis-acting inverter module for synthetic translational switches A versatile cis-acting inverter module for synthetic translational switches A versatile cis-acting inverter module for synthetic translational switches Nature Communications, 4 Nature Communications, 4 Nature Communications, 4 2013 Refereed English Disclose to all
S. Kashida; T. Inoue; H. Saito S. Kashida; T. Inoue; H. Saito S. Kashida; T. Inoue; H. Saito Three-dimensionally designed protein-responsive RNA devices for cell signaling regulation Three-dimensionally designed protein-responsive RNA devices for cell signaling regulation Three-dimensionally designed protein-responsive RNA devices for cell signaling regulation Nucleic Acids Research, 40, 18, 9369-9378 Nucleic Acids Research, 40, 18, 9369-9378 Nucleic Acids Research, 40, 18, 9369-9378 2012/10 Refereed English Disclose to all
J.A. Stapleton; K. Endo; Y. Fujita; K. Hayashi; M. Takinoue; H. Saito; T. Inoue J.A. Stapleton; K. Endo; Y. Fujita; K. Hayashi; M. Takinoue; H. Saito; T. Inoue J.A. Stapleton; K. Endo; Y. Fujita; K. Hayashi; M. Takinoue; H. Saito; T. Inoue Feedback control of protein expression in mammalian cells by tunable synthetic translational inhibition Feedback control of protein expression in mammalian cells by tunable synthetic translational inhibition Feedback control of protein expression in mammalian cells by tunable synthetic translational inhibition ACS Synthetic Biology, 1, 3, 83-88 ACS Synthetic Biology, 1, 3, 83-88 ACS Synthetic Biology, 1, 3, 83-88 2012/03 Refereed English Disclose to all
H. Saito; Y. Fujita; S. Kashida; K. Hayashi; T. Inoue H. Saito; Y. Fujita; S. Kashida; K. Hayashi; T. Inoue H. Saito; Y. Fujita; S. Kashida; K. Hayashi; T. Inoue Erratum: Synthetic human cell fate regulation by protein-driven RNA switches (Nature Communications (2011) 2 (160) DOI: 10.1038/ncomms1157) Erratum: Synthetic human cell fate regulation by protein-driven RNA switches (Nature Communications (2011) 2 (160) DOI: 10.1038/ncomms1157) Erratum: Synthetic human cell fate regulation by protein-driven RNA switches (Nature Communications (2011) 2 (160) DOI: 10.1038/ncomms1157) Nature Communications, 3 Nature Communications, 3 Nature Communications, 3 2012 Refereed English Disclose to all
S. Rudiuk; H. Saito; T. Hara; T. Inoue; K. Yoshikawa; D. Baigl S. Rudiuk; H. Saito; T. Hara; T. Inoue; K. Yoshikawa; D. Baigl S. Rudiuk; H. Saito; T. Hara; T. Inoue; K. Yoshikawa; D. Baigl Light-regulated mRNA condensation by a photosensitive surfactant works as a series photoswitch of translation activity in the presence of small RNAs Light-regulated mRNA condensation by a photosensitive surfactant works as a series photoswitch of translation activity in the presence of small RNAs Light-regulated mRNA condensation by a photosensitive surfactant works as a series photoswitch of translation activity in the presence of small RNAs Biomacromolecules, 12, 11, 3945-3951 Biomacromolecules, 12, 11, 3945-3951 Biomacromolecules, 12, 11, 3945-3951 2011/11 Refereed English Disclose to all
R. Ohmori; H. Saito; Y. Ikawa; Y. Fujita; T. Inoue R. Ohmori; H. Saito; Y. Ikawa; Y. Fujita; T. Inoue R. Ohmori; H. Saito; Y. Ikawa; Y. Fujita; T. Inoue Self-replication reactions dependent on tertiary interaction motifs in an RNA ligase ribozyme Self-replication reactions dependent on tertiary interaction motifs in an RNA ligase ribozyme Self-replication reactions dependent on tertiary interaction motifs in an RNA ligase ribozyme Journal of Molecular Evolution, 73, 3-4, 221-229 Journal of Molecular Evolution, 73, 3-4, 221-229 Journal of Molecular Evolution, 73, 3-4, 221-229 2011/10 Refereed English Disclose to all
H. Saito; Y. Fujita; S. Kashida; K. Hayashi; T. Inoue H. Saito; Y. Fujita; S. Kashida; K. Hayashi; T. Inoue H. Saito; Y. Fujita; S. Kashida; K. Hayashi; T. Inoue Synthetic human cell fate regulation by protein-driven RNA switches Synthetic human cell fate regulation by protein-driven RNA switches Synthetic human cell fate regulation by protein-driven RNA switches Nature Communications, 2, 1 Nature Communications, 2, 1 Nature Communications, 2, 1 2011 Refereed English Disclose to all
H. Ohno; T. Kobayashi; R. Kabata; K. Endo; T. Iwasa; S.H. Yoshimura; K. Takeyasu; T. Inoue; H. Saito H. Ohno; T. Kobayashi; R. Kabata; K. Endo; T. Iwasa; S.H. Yoshimura; K. Takeyasu; T. Inoue; H. Saito H. Ohno; T. Kobayashi; R. Kabata; K. Endo; T. Iwasa; S.H. Yoshimura; K. Takeyasu; T. Inoue; H. Saito Synthetic RNA-protein complex shaped like an equilateral triangle Synthetic RNA-protein complex shaped like an equilateral triangle Synthetic RNA-protein complex shaped like an equilateral triangle Nature Nanotechnology, 6, 2, 116-120 Nature Nanotechnology, 6, 2, 116-120 Nature Nanotechnology, 6, 2, 116-120 2011 Refereed English Disclose to all
H. Saito; T. Kobayashi; T. Hara; Y. Fujita; K. Hayashi; R. Furushima; T. Inoue H. Saito; T. Kobayashi; T. Hara; Y. Fujita; K. Hayashi; R. Furushima; T. Inoue H. Saito; T. Kobayashi; T. Hara; Y. Fujita; K. Hayashi; R. Furushima; T. Inoue Synthetic translational regulation by an L7Ae-kink-turn RNP switch Synthetic translational regulation by an L7Ae-kink-turn RNP switch Synthetic translational regulation by an L7Ae-kink-turn RNP switch Nature Chemical Biology, 6, 1, 71-78 Nature Chemical Biology, 6, 1, 71-78 Nature Chemical Biology, 6, 1, 71-78 2010 Refereed English Disclose to all
H. Saito; T. Inoue H. Saito; T. Inoue H. Saito; T. Inoue Synthetic biology with RNA motifs Synthetic biology with RNA motifs Synthetic biology with RNA motifs International Journal of Biochemistry and Cell Biology, 41, 2, 398-404 International Journal of Biochemistry and Cell Biology, 41, 2, 398-404 International Journal of Biochemistry and Cell Biology, 41, 2, 398-404 2009 Refereed English Disclose to all
T. Shiohara; H. Saito; T. Inoue T. Shiohara; H. Saito; T. Inoue T. Shiohara; H. Saito; T. Inoue A designed RNA selection: Establishment of a stable complex between a target and selectant RNA via two coordinated interactions A designed RNA selection: Establishment of a stable complex between a target and selectant RNA via two coordinated interactions A designed RNA selection: Establishment of a stable complex between a target and selectant RNA via two coordinated interactions Nucleic Acids Research, 37, 3 Nucleic Acids Research, 37, 3 Nucleic Acids Research, 37, 3 2009 Refereed English Disclose to all
S. Matsumura; R. Ohmori; H. Saito; Y. Ikawa; T. Inoue S. Matsumura; R. Ohmori; H. Saito; Y. Ikawa; T. Inoue S. Matsumura; R. Ohmori; H. Saito; Y. Ikawa; T. Inoue Coordinated control of a designed trans-acting ligase ribozyme by a loop-receptor interaction Coordinated control of a designed trans-acting ligase ribozyme by a loop-receptor interaction Coordinated control of a designed trans-acting ligase ribozyme by a loop-receptor interaction FEBS Letters, 583, 17, 2819-2826 FEBS Letters, 583, 17, 2819-2826 FEBS Letters, 583, 17, 2819-2826 2009 Refereed English Disclose to all
H. Saito; Y. Kato; M. Le Berre; A. Yamada; T. Inoue; K. Yosikawa; D. Baigl H. Saito; Y. Kato; M. Le Berre; A. Yamada; T. Inoue; K. Yosikawa; D. Baigl H. Saito; Y. Kato; M. Le Berre; A. Yamada; T. Inoue; K. Yosikawa; D. Baigl Time-resolved tracking of a minimum gene expression system reconstituted in giant liposomes Time-resolved tracking of a minimum gene expression system reconstituted in giant liposomes Time-resolved tracking of a minimum gene expression system reconstituted in giant liposomes ChemBioChem, 10, 10, 1640-1643 ChemBioChem, 10, 10, 1640-1643 ChemBioChem, 10, 10, 1640-1643 2009 Refereed English Disclose to all
H. Saito; T. Minamisawa; T. Yamori; K. Shiba H. Saito; T. Minamisawa; T. Yamori; K. Shiba H. Saito; T. Minamisawa; T. Yamori; K. Shiba Motif-programmed artificial protein induces apoptosis in several cancer cells by disrupting mitochondria Motif-programmed artificial protein induces apoptosis in several cancer cells by disrupting mitochondria Motif-programmed artificial protein induces apoptosis in several cancer cells by disrupting mitochondria Cancer Science, 99, 2, 398-406 Cancer Science, 99, 2, 398-406 Cancer Science, 99, 2, 398-406 2008 Refereed English Disclose to all
H. Saito; T. Minamisawa; K. Shiba H. Saito; T. Minamisawa; K. Shiba H. Saito; T. Minamisawa; K. Shiba Motif programming: A microgene-based method for creating synthetic proteins containing multiple functional motifs Motif programming: A microgene-based method for creating synthetic proteins containing multiple functional motifs Motif programming: A microgene-based method for creating synthetic proteins containing multiple functional motifs Nucleic Acids Research, 35, 6 Nucleic Acids Research, 35, 6 Nucleic Acids Research, 35, 6 2007 Refereed English Disclose to all
H. Saito; T. Inoue H. Saito; T. Inoue H. Saito; T. Inoue RNA and RNP as new molecular parts in synthetic biology RNA and RNP as new molecular parts in synthetic biology RNA and RNP as new molecular parts in synthetic biology Journal of Biotechnology, 132, 1, 1-7 Journal of Biotechnology, 132, 1, 1-7 Journal of Biotechnology, 132, 1, 1-7 2007 Refereed English Disclose to all
H. Saito; S. Kashida; T. Inoue; K. Shiba H. Saito; S. Kashida; T. Inoue; K. Shiba H. Saito; S. Kashida; T. Inoue; K. Shiba The role of peptide motifs in the evolution of a protein network The role of peptide motifs in the evolution of a protein network The role of peptide motifs in the evolution of a protein network Nucleic Acids Research, 35, 19, 6357-6366 Nucleic Acids Research, 35, 19, 6357-6366 Nucleic Acids Research, 35, 19, 6357-6366 2007 Refereed English Disclose to all
H. Saito; T. Honma; T. Minamisawa; K. Yamazaki; T. Noda; T. Yamori; K. Shiba H. Saito; T. Honma; T. Minamisawa; K. Yamazaki; T. Noda; T. Yamori; K. Shiba H. Saito; T. Honma; T. Minamisawa; K. Yamazaki; T. Noda; T. Yamori; K. Shiba Synthesis of functional proteins by mixing peptide motifs Synthesis of functional proteins by mixing peptide motifs Synthesis of functional proteins by mixing peptide motifs Chemistry and Biology, 11, 6, 765-773 Chemistry and Biology, 11, 6, 765-773 Chemistry and Biology, 11, 6, 765-773 2004 Refereed English Disclose to all
K. Ramaswamy; H. Saito; H. Murakami; K. Shiba; H. Suga K. Ramaswamy; H. Saito; H. Murakami; K. Shiba; H. Suga K. Ramaswamy; H. Saito; H. Murakami; K. Shiba; H. Suga Designer ribozymes: Programming the tRNA specificity into flexizyme Designer ribozymes: Programming the tRNA specificity into flexizyme Designer ribozymes: Programming the tRNA specificity into flexizyme Journal of the American Chemical Society, 126, 37, 11454-11455 Journal of the American Chemical Society, 126, 37, 11454-11455 Journal of the American Chemical Society, 126, 37, 11454-11455 2004 Refereed English Disclose to all
H. Murakami; H. Saito; H. Suga H. Murakami; H. Saito; H. Suga H. Murakami; H. Saito; H. Suga A versatile tRNA aminoacylation catalyst based on RNA A versatile tRNA aminoacylation catalyst based on RNA A versatile tRNA aminoacylation catalyst based on RNA Chemistry and Biology, 10, 7, 655-662 Chemistry and Biology, 10, 7, 655-662 Chemistry and Biology, 10, 7, 655-662 2003 Refereed English Disclose to all
H. Saito; H. Suga H. Saito; H. Suga H. Saito; H. Suga Outersphere and innersphere coordinated metal ions in an aminoacyl-tRNA synthetase ribozyme Outersphere and innersphere coordinated metal ions in an aminoacyl-tRNA synthetase ribozyme Outersphere and innersphere coordinated metal ions in an aminoacyl-tRNA synthetase ribozyme Nucleic Acids Research, 30, 23, 5151-5159 Nucleic Acids Research, 30, 23, 5151-5159 Nucleic Acids Research, 30, 23, 5151-5159 2002 Refereed English Disclose to all
H. Saito; K. Watanabe; S. Hiroaki H. Saito; K. Watanabe; S. Hiroaki H. Saito; K. Watanabe; S. Hiroaki Searching the origin of life by in vitro evolution system Searching the origin of life by in vitro evolution system Searching the origin of life by in vitro evolution system Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, 47, 9, 1209-1214 Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, 47, 9, 1209-1214 Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme, 47, 9, 1209-1214 2002 Refereed English Disclose to all
H. Saito; H. Suga H. Saito; H. Suga H. Saito; H. Suga A ribozyme exclusively aminoacylates the 3′-hydroxyl group of the tRNA terminal adenosine [10] A ribozyme exclusively aminoacylates the 3′-hydroxyl group of the tRNA terminal adenosine [10] A ribozyme exclusively aminoacylates the 3′-hydroxyl group of the tRNA terminal adenosine [10] Journal of the American Chemical Society, 123, 29, 7178-7179 Journal of the American Chemical Society, 123, 29, 7178-7179 Journal of the American Chemical Society, 123, 29, 7178-7179 2001 Refereed English Disclose to all
H. Saito; D. Kourouklis; H. Suga H. Saito; D. Kourouklis; H. Suga H. Saito; D. Kourouklis; H. Suga An in vitro evolved precursor tRNA with aminoacylation activity An in vitro evolved precursor tRNA with aminoacylation activity An in vitro evolved precursor tRNA with aminoacylation activity EMBO Journal, 20, 7, 1797-1806 EMBO Journal, 20, 7, 1797-1806 EMBO Journal, 20, 7, 1797-1806 2001 Refereed English Disclose to all
H. Saito; K. Watanabe; H. Suga H. Saito; K. Watanabe; H. Suga H. Saito; K. Watanabe; H. Suga Concurrent molecular recognition of the amino acid and tRNA by a ribozyme Concurrent molecular recognition of the amino acid and tRNA by a ribozyme Concurrent molecular recognition of the amino acid and tRNA by a ribozyme RNA, 7, 12, 1867-1878 RNA, 7, 12, 1867-1878 RNA, 7, 12, 1867-1878 2001 Refereed English Disclose to all

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Title language:
Misc
Author Author(Japanese) Author(English) Title Title(Japanese) Title(English) Bibliography Bibliography(Japanese) Bibliography(English) Publication date Refereed paper Language Publishing type Disclose
A. Estévez-Torres; C. Crozatier; A. Diguet; T. Hara; H. Saito; K. Yoshikawa; D. Baigl A. Estévez-Torres; C. Crozatier; A. Diguet; T. Hara; H. Saito; K. Yoshikawa; D. Baigl A. Estévez-Torres; C. Crozatier; A. Diguet; T. Hara; H. Saito; K. Yoshikawa; D. Baigl Sequence-independent and reversible photocontrol of transcription/ expression systems using a photosensitive nucleic acid binder Sequence-independent and reversible photocontrol of transcription/ expression systems using a photosensitive nucleic acid binder Sequence-independent and reversible photocontrol of transcription/ expression systems using a photosensitive nucleic acid binder Proceedings of the National Academy of Sciences of the United States of America, 106, 30, 12219-12223 Proceedings of the National Academy of Sciences of the United States of America, 106, 30, 12219-12223 Proceedings of the National Academy of Sciences of the United States of America, 106, 30, 12219-12223 2009 Refereed English Disclose to all
H. Saito; A. Yamada; R. Ohmori; Y. Kato; T. Yamanaka; K. Yoshikawa; T. Inoue H. Saito; A. Yamada; R. Ohmori; Y. Kato; T. Yamanaka; K. Yoshikawa; T. Inoue H. Saito; A. Yamada; R. Ohmori; Y. Kato; T. Yamanaka; K. Yoshikawa; T. Inoue Towards constructing synthetic cells: RNA/RNP evolution and cell-free translational systems in giant liposomes Towards constructing synthetic cells: RNA/RNP evolution and cell-free translational systems in giant liposomes Towards constructing synthetic cells: RNA/RNP evolution and cell-free translational systems in giant liposomes 2007 International Symposium on Micro-NanoMechatronics and Human Science, MHS, 286-291 2007 International Symposium on Micro-NanoMechatronics and Human Science, MHS, 286-291 2007 International Symposium on Micro-NanoMechatronics and Human Science, MHS, 286-291 2007 Refereed English Disclose to all
H. Saito; T. Inoue; K. Shiba H. Saito; T. Inoue; K. Shiba H. Saito; T. Inoue; K. Shiba A synthetic approach for protein evolution and cell engineering A synthetic approach for protein evolution and cell engineering A synthetic approach for protein evolution and cell engineering 2006 IEEE International Symposium on Micro-Nano Mechanical and Human Science, MHS 2006 IEEE International Symposium on Micro-Nano Mechanical and Human Science, MHS 2006 IEEE International Symposium on Micro-Nano Mechanical and Human Science, MHS 2006 Refereed English Disclose to all
Title language:
Conference Activities & Talks
Title Title(Japanese) Title(English) Conference Conference(Japanese) Conference(English) Promotor Promotor(Japanese) Promotor(English) Date Language Assortment Disclose
RNP 合成生物学:哺乳類細胞への応用[Invited] RNP 合成生物学:哺乳類細胞への応用 [Invited] RNP 合成生物学:哺乳類細胞への応用 [Invited] 第8回合成生物工学シンポジウム 第8回合成生物工学シンポジウム 第8回合成生物工学シンポジウム 神戸大学バイオプロダクション次世代農工連携拠点 神戸大学バイオプロダクション次世代農工連携拠点 神戸大学バイオプロダクション次世代農工連携拠点 2018/09/26 Japanese Disclose to all
研究者として生きる[Invited] 研究者として生きる [Invited] 研究者として生きる [Invited] 平成30年度 教育講演会 平成30年度 教育講演会 平成30年度 教育講演会 福井大学教育学部附属義務教育学校後期課程 福井大学教育学部附属義務教育学校後期課程 福井大学教育学部附属義務教育学校後期課程 2018/09/21 Disclose to all
RNA synthetic biology and nanotechnology to program cells RNA synthetic biology and nanotechnology to program cells RNA synthetic biology and nanotechnology to program cells 生物物理学会第56回 生物物理学会第56回 生物物理学会第56回 生物物理学会 生物物理学会 生物物理学会 2018/09/15 English Disclose to all
未来医療を加速するRNAスイッチ ・テクノロジー[Invited] 未来医療を加速するRNAスイッチ ・テクノロジー [Invited] 未来医療を加速するRNAスイッチ ・テクノロジー [Invited] 1st Inovation Forum Japan 1st Inovation Forum Japan 1st Inovation Forum Japan ザルトリウス・ステディム・ジャパン株式会社 ザルトリウス・ステディム・ジャパン株式会社 ザルトリウス・ステディム・ジャパン株式会社 2018/09/14 Japanese Disclose to all
Synthetic RNA technologies to program cells Synthetic RNA technologies to program cells Synthetic RNA technologies to program cells Synthetic Biology: Engineering Life 2.0 2018 Synthetic Biology: Engineering Life 2.0 2018 Synthetic Biology: Engineering Life 2.0 2018 神戸大学 神戸大学 神戸大学 2018/09/05 English Disclose to all
研究者として生きる[Invited] 研究者として生きる [Invited] 研究者として生きる [Invited] 岸和田高校 出張講義 岸和田高校 出張講義 岸和田高校 出張講義 岸和田高校 岸和田高校 岸和田高校 2018/08/24 Japanese Disclose to all
RNA-スイッチ技術と今年設立された『株式会社aceRNATechnologies』について研究者の立場から[Invited] RNA-スイッチ技術と今年設立された『株式会社aceRNATechnologies』について研究者の立場から [Invited] RNA-スイッチ技術と今年設立された『株式会社aceRNATechnologies』について研究者の立場から [Invited] 第4回KRICフォーラム 第4回KRICフォーラム 第4回KRICフォーラム 近畿経済産業局 関西再生医療産業コンソーシアム(KRIC) 近畿経済産業局 関西再生医療産業コンソーシアム(KRIC) 近畿経済産業局 関西再生医療産業コンソーシアム(KRIC) 2018/08/03 Japanese Disclose to all
人工RNA技術を活用した遺伝子操作と細胞運命の制御[Invited] 人工RNA技術を活用した遺伝子操作と細胞運命の制御 [Invited] 人工RNA技術を活用した遺伝子操作と細胞運命の制御 [Invited] 生物化学セミナー 生物化学セミナー 生物化学セミナー 東京大学 理学部生物化学科・濡木研究室 東京大学 理学部生物化学科・濡木研究室 東京大学 理学部生物化学科・濡木研究室 2018/07/27 Japanese Disclose to all
Synthetic RNA technologies to control mammalian cell fate[Invited] Synthetic RNA technologies to control mammalian cell fate [Invited] Synthetic RNA technologies to control mammalian cell fate [Invited] Preliminary Program BZH Meeting 2018 Preliminary Program BZH Meeting 2018 Preliminary Program BZH Meeting 2018 BZH BZH BZH 2018/07/15 English Disclose to all
Synthetic RNA switch technologies for programming cell fate Synthetic RNA switch technologies for programming cell fate Synthetic RNA switch technologies for programming cell fate Zoher GUEROUI Laboratory, Department of Chemistry,Ecole Normale Sup_rieure, Paris Zoher GUEROUI Laboratory, Department of Chemistry,Ecole Normale Sup_rieure, Paris Zoher GUEROUI Laboratory, Department of Chemistry,Ecole Normale Sup_rieure, Paris Ecole Normale Sup_rieure, Paris Ecole Normale Sup_rieure, Paris Ecole Normale Sup_rieure, Paris 2018/07/11 English Disclose to all
Synthetic RNA switch technologies to purify and program target cell types of Ipsc[Invited] Synthetic RNA switch technologies to purify and program target cell types of Ipsc [Invited] Synthetic RNA switch technologies to purify and program target cell types of Ipsc [Invited] Frontier iPS and Stem Cell Therapeutic Summit 2018 in Taipei Frontier iPS and Stem Cell Therapeutic Summit 2018 in Taipei Frontier iPS and Stem Cell Therapeutic Summit 2018 in Taipei 台北栄民総医院 台北栄民総医院 台北栄民総医院 2018/06/28 English Disclose to all
未来医療を加速するRNAスイッチ・テクノロジー[Invited] 未来医療を加速するRNAスイッチ・テクノロジー [Invited] 未来医療を加速するRNAスイッチ・テクノロジー [Invited] 第55回薬剤学懇談会研究討論会 第55回薬剤学懇談会研究討論会 第55回薬剤学懇談会研究討論会 武田薬品工業株式会社 武田薬品工業株式会社 武田薬品工業株式会社 2018/06/14 Japanese Disclose to all
科学者という生き方[Invited] 科学者という生き方 [Invited] 科学者という生き方 [Invited] 錦林小学校講演 錦林小学校講演 錦林小学校講演 錦林小学校 錦林小学校 錦林小学校 2018/06/12 Japanese Disclose to all
人工RNAシステムによるゲノム編集と細胞運命の制御[Invited] 人工RNAシステムによるゲノム編集と細胞運命の制御 [Invited] 人工RNAシステムによるゲノム編集と細胞運命の制御 [Invited] 東京化学会議 東京化学会議 東京化学会議 日本化学会 日本化学会 日本化学会 2018/06/01 Japanese Disclose to all
"RNA合成生物学を活用した 細胞機能の制御"[Invited] "RNA合成生物学を活用した 細胞機能の制御" [Invited] "RNA合成生物学を活用した 細胞機能の制御" [Invited] 名古屋大学講義 名古屋大学講義 名古屋大学講義 名古屋大学 名古屋大学 名古屋大学 2018/05/25 Japanese Disclose to all
研究者を目指したきっかけ:中学時代を振り返って[Invited] 研究者を目指したきっかけ:中学時代を振り返って [Invited] 研究者を目指したきっかけ:中学時代を振り返って [Invited] 近衛中学 第1回PTA家庭教育講座 近衛中学 第1回PTA家庭教育講座 近衛中学 第1回PTA家庭教育講座 近衛中学PTA 近衛中学PTA 近衛中学PTA 2018/05/22 Japanese Disclose to all
人工RNAシステムによるゲノム編集と細胞運命の制御[Invited] 人工RNAシステムによるゲノム編集と細胞運命の制御 [Invited] 人工RNAシステムによるゲノム編集と細胞運命の制御 [Invited] 第82回 日本生化学会 中部支部 例会・シンポジウム 第82回 日本生化学会 中部支部 例会・シンポジウム 第82回 日本生化学会 中部支部 例会・シンポジウム 岐阜大学 岐阜大学 岐阜大学 2018/05/19 Japanese Disclose to all
RNA分子ロボティクスのiPS細胞への活用[Invited] RNA分子ロボティクスのiPS細胞への活用 [Invited] RNA分子ロボティクスのiPS細胞への活用 [Invited] CBI学会 CBI学会 CBI学会 情報計算化学生物学会(CBI学会)関西部会  情報計算化学生物学会(CBI学会)関西部会  情報計算化学生物学会(CBI学会)関西部会  2018/05/18 Japanese Disclose to all
人工RNAシステムによる細胞の識別と運命の制御[Invited] 人工RNAシステムによる細胞の識別と運命の制御 [Invited] 人工RNAシステムによる細胞の識別と運命の制御 [Invited] 日本薬学会第138年会 日本薬学会第138年会 日本薬学会第138年会 2018/03/26 Japanese Disclose to all
Expanding synthetic RNP world in cells[Invited] Expanding synthetic RNP world in cells [Invited] Expanding synthetic RNP world in cells [Invited] CDBリトリート CDBリトリート CDBリトリート 2018/03/19 Japanese Disclose to all
Synthetic RNA technologies to program cells[Invited] Synthetic RNA technologies to program cells [Invited] Synthetic RNA technologies to program cells [Invited] The SPIRITS INTERNATIONAL SYMPOSIUM 2018 The SPIRITS INTERNATIONAL SYMPOSIUM 2018 The SPIRITS INTERNATIONAL SYMPOSIUM 2018 2018/02/27 Japanese Disclose to all
RNAスイッチ:標的細胞の自在な選別と運命制御[Invited] RNAスイッチ:標的細胞の自在な選別と運命制御 [Invited] RNAスイッチ:標的細胞の自在な選別と運命制御 [Invited] 平成29年度 第6回 再生医療サポートビジネス講話会 平成29年度 第6回 再生医療サポートビジネス講話会 平成29年度 第6回 再生医療サポートビジネス講話会 2018/02/22 Japanese Disclose to all
RNAタンパク質複合体(RNP)研究[Invited] RNAタンパク質複合体(RNP)研究 [Invited] RNAタンパク質複合体(RNP)研究 [Invited] エーザイ筑波サイエンス道場 エーザイ筑波サイエンス道場 エーザイ筑波サイエンス道場 2018/02/20 Japanese Disclose to all
Synthetic RNA switch technologies to purify and program target cell types [Invited] Synthetic RNA switch technologies to purify and program target cell types [Invited] Synthetic RNA switch technologies to purify and program target cell types [Invited] 14th US-Japan Symposium on Drag Delivery Systems 14th US-Japan Symposium on Drag Delivery Systems 14th US-Japan Symposium on Drag Delivery Systems 2017/12/17 English Disclose to all
RNAナノデバイスによる細胞プログラミング[Invited] RNAナノデバイスによる細胞プログラミング [Invited] RNAナノデバイスによる細胞プログラミング [Invited] 第30回バイオエンジニアリング講話会 第30回バイオエンジニアリング講話会 第30回バイオエンジニアリング講話会 2017/12/14 Japanese Disclose to all
Synthetic RNA switch technologies to purify and program target cell types[Invited] Synthetic RNA switch technologies to purify and program target cell types [Invited] Synthetic RNA switch technologies to purify and program target cell types [Invited] CiRA国際シンポジウム CiRA国際シンポジウム CiRA国際シンポジウム 2017/11/06 Japanese Disclose to all
iPS細胞とは何か〜臨床応用への最前線[Invited] iPS細胞とは何か〜臨床応用への最前線 [Invited] iPS細胞とは何か〜臨床応用への最前線 [Invited] 長崎総合化学大学 公開講演会 長崎総合化学大学 公開講演会 長崎総合化学大学 公開講演会 2017/11/05 Japanese Disclose to all
iPS細胞研究と教育の効果[Invited] iPS細胞研究と教育の効果 [Invited] iPS細胞研究と教育の効果 [Invited] 第28回近畿ブロック国際理解教育研究会 第28回近畿ブロック国際理解教育研究会 第28回近畿ブロック国際理解教育研究会 2017/10/28 Japanese Disclose to all
細胞の運命を変える研究:iPS細胞とRNAの不思議にせまる[Invited] 細胞の運命を変える研究:iPS細胞とRNAの不思議にせまる [Invited] 細胞の運命を変える研究:iPS細胞とRNAの不思議にせまる [Invited] 岸和田高校 出張講義 岸和田高校 出張講義 岸和田高校 出張講義 2017/08/23 Japanese Disclose to all
RNAナノテクノロジーを活用した細胞運命の人為的制御法の開発[Invited] RNAナノテクノロジーを活用した細胞運命の人為的制御法の開発 [Invited] RNAナノテクノロジーを活用した細胞運命の人為的制御法の開発 [Invited] 第6回「産業基盤の創生」研究成果発表プログラム 第6回「産業基盤の創生」研究成果発表プログラム 第6回「産業基盤の創生」研究成果発表プログラム 2017/08/08 Japanese Disclose to all
RNAスイッチによる細胞運命制御[Invited] RNAスイッチによる細胞運命制御 [Invited] RNAスイッチによる細胞運命制御 [Invited] 川西市生涯学習短期大学 川西市生涯学習短期大学 川西市生涯学習短期大学 2017/07/28 Japanese Disclose to all
RNAスイッチとiPS細胞研究への応用[Invited] RNAスイッチとiPS細胞研究への応用 [Invited] RNAスイッチとiPS細胞研究への応用 [Invited] 富士フイルム創薬セミナー 富士フイルム創薬セミナー 富士フイルム創薬セミナー 2017/07/25 Japanese Disclose to all
RNAスイッチによるiPS細胞分離選択技術と創薬[Invited] RNAスイッチによるiPS細胞分離選択技術と創薬 [Invited] RNAスイッチによるiPS細胞分離選択技術と創薬 [Invited] 東京大学薬学部 ヒト細胞創薬学寄附講座 東京大学薬学部 ヒト細胞創薬学寄附講座 東京大学薬学部 ヒト細胞創薬学寄附講座 2017/07/24 Japanese Disclose to all
Synthetic RNA switches & nanodevices for cell programming[Invited] Synthetic RNA switches & nanodevices for cell programming [Invited] Synthetic RNA switches & nanodevices for cell programming [Invited] FIBER International summit for nucleic acids2017 FIBER International summit for nucleic acids2017 FIBER International summit for nucleic acids2017 2017/07/19 English Disclose to all
RNAスイッチのデザインと応用[Invited] RNAスイッチのデザインと応用 [Invited] RNAスイッチのデザインと応用 [Invited] 第33回日本DDS学会学術集会 第33回日本DDS学会学術集会 第33回日本DDS学会学術集会 2017/07/06 English Disclose to all
Synthetic RNA switch technologies to Distinguish and program Living cells[Invited] Synthetic RNA switch technologies to Distinguish and program Living cells [Invited] Synthetic RNA switch technologies to Distinguish and program Living cells [Invited] 内藤カンファレンス 内藤カンファレンス 内藤カンファレンス 2017/06/27 English Disclose to all
RNAテクノロジーを活用した細胞運命制御[Invited] RNAテクノロジーを活用した細胞運命制御 [Invited] RNAテクノロジーを活用した細胞運命制御 [Invited] 東京大学 システム生物医学セミナー 東京大学 システム生物医学セミナー 東京大学 システム生物医学セミナー 2017/05/19 Japanese Disclose to all
Synthetic RNA switches and nanodevices for cell programming[Invited] Synthetic RNA switches and nanodevices for cell programming [Invited] Synthetic RNA switches and nanodevices for cell programming [Invited] OISTセミナー OISTセミナー OISTセミナー 2017/04/18 English Disclose to all
Biophysics and Physicobiology[Invited] Biophysics and Physicobiology [Invited] Biophysics and Physicobiology [Invited] 生物物理学会 生物物理学会 生物物理学会 2017 Japanese Disclose to all
Synthetic cell programming[Invited] Synthetic cell programming [Invited] Synthetic cell programming [Invited] Malaysian Society for stem Cell Research and Therapy Malaysian Society for stem Cell Research and Therapy Malaysian Society for stem Cell Research and Therapy 2016/11/17 English Disclose to all
iPS細胞とRNAスイッチー研究の展望と医療への可能[Invited] iPS細胞とRNAスイッチー研究の展望と医療への可能 [Invited] iPS細胞とRNAスイッチー研究の展望と医療への可能 [Invited] 医学部進学フォーラム2016 医学部進学フォーラム2016 医学部進学フォーラム2016 2016/09/19 Japanese Disclose to all
iPS細胞とRNAスイッチ:目的の細胞をつくることは可能か?[Invited] iPS細胞とRNAスイッチ:目的の細胞をつくることは可能か? [Invited] iPS細胞とRNAスイッチ:目的の細胞をつくることは可能か? [Invited] 平成28年 沼津市民大学 平成28年 沼津市民大学 平成28年 沼津市民大学 2016/08/06 Japanese Disclose to all
Protein-driven nanostructures:Controlling mammalian cell fate[Invited] Protein-driven nanostructures:Controlling mammalian cell fate [Invited] Protein-driven nanostructures:Controlling mammalian cell fate [Invited] RNA Naonotechnology Conference RNA Naonotechnology Conference RNA Naonotechnology Conference 2016/08/01 English Disclose to all
Synthetic RNA switches & nanostructures that Indentify and control target mammmalian cells based n intracelluar information[Invited] Synthetic RNA switches & nanostructures that Indentify and control target mammmalian cells based n intracelluar information [Invited] Synthetic RNA switches & nanostructures that Indentify and control target mammmalian cells based n intracelluar information [Invited] FIBER International summit for nucleic acids2016 FIBER International summit for nucleic acids2016 FIBER International summit for nucleic acids2016 2016/07/16 English Disclose to all
Synthetic RNA switches & nanostructures[Invited] Synthetic RNA switches & nanostructures [Invited] Synthetic RNA switches & nanostructures [Invited] RNA2016 satellite-symposium 'Nascent biology and ribosome function RNA2016 satellite-symposium 'Nascent biology and ribosome function RNA2016 satellite-symposium 'Nascent biology and ribosome function 2016/06/27 English Disclose to all
MicroRNA SWITCHES”_THAT IDENTIFY AND ISOLATE TARGET CELLS_IN_HIGH-RESOLUTION[Invited] MicroRNA SWITCHES”_THAT IDENTIFY AND ISOLATE TARGET CELLS_IN_HIGH-RESOLUTION [Invited] MicroRNA SWITCHES”_THAT IDENTIFY AND ISOLATE TARGET CELLS_IN_HIGH-RESOLUTION [Invited] ISSCR ISSCR ISSCR 2016/06/22 English Disclose to all
Synthetic RNA switches & nanostructures: programming mammalian cell fate[Invited] Synthetic RNA switches & nanostructures: programming mammalian cell fate [Invited] Synthetic RNA switches & nanostructures: programming mammalian cell fate [Invited] 2016/06/19 English Disclose to all
Synthetic RNA Switches and Circuits to Program Target Cell Populations[Invited] Synthetic RNA Switches and Circuits to Program Target Cell Populations [Invited] Synthetic RNA Switches and Circuits to Program Target Cell Populations [Invited] mSBW3.0 mSBW3.0 mSBW3.0 2016/05/21 English Disclose to all
Development of Molecular Sensor and Device for Intelligent Molecular Robots[Invited] Development of Molecular Sensor and Device for Intelligent Molecular Robots [Invited] Development of Molecular Sensor and Device for Intelligent Molecular Robots [Invited] IEEE-NEMS2016 IEEE-NEMS2016 IEEE-NEMS2016 2016/04/17 English Disclose to all
Synthetic RNA Switches and Circuits to Detect and Purify Target Live Cells[Invited] Synthetic RNA Switches and Circuits to Detect and Purify Target Live Cells [Invited] Synthetic RNA Switches and Circuits to Detect and Purify Target Live Cells [Invited] UC San Diego Kyoto University joint Sympojium UC San Diego Kyoto University joint Sympojium UC San Diego Kyoto University joint Sympojium 2016/03/13 English Disclose to all

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Title language:
External funds: competitive funds and Grants-in-Aid for Scientific Research (Kakenhi)
Type Position Title(Japanese) Title(English) Period
萌芽研究 Representative RNAネットワークを内包した人工細胞の創成  -
若手研究(A) Representative シンセティックバイオロジーを活用した細胞機能制御技術の開発 2011-2013
新学術領域研究(研究領域提案型) Representative 核酸ナノ構造を活用した多元分子情報変換デバイスの創成 2012-2016
External funds: other than those above
System Main person Title(Japanese) Title(English) Period
新エネルギー・産業技術総合開発機構(NEDO) 産業技術研究助成事業 齊藤 博英 2013-2013
Teaching subject(s)
Name(Japanese) Name(English) Term Department Period
宇宙総合学 Synergetic Studies for Space 前期 全学共通科目 2011/04-2012/03
宇宙総合学 Synergetic Studies for Space 前期 全学共通科目 2012/04-2013/03
宇宙総合学 Synergetic Studies for Space 前期 全学共通科目 2013/04-2014/03
生命を知る、観る、創る:いのちの分子科学 In order to Know, Observe, and Create our Life : The Molecular Science for Life 前期 全学共通科目 2013/04-2014/03
Global Frontier in Life Science A Global Frontier in Life Science A 前期 生命科学研究科 2014/04-2015/03
宇宙総合学 Synergetic Studies for Space 前期 全学共通科目 2014/04-2015/03
生命を知る、観る、創る:いのちの科学 Life Sciences: Knowledge, Observation, and Creation of a Life 前期 全学共通科目 2014/04-2015/03
宇宙総合学 Synergetic Studies for Space 前期 全学共通科目 2015/04-2016/03
生循環学:思想と科学の融合 Biocyclology: interface between philosophy and science 前期集中 全学共通科目 2015/04-2016/03
いのちを知る科学 Understanding life: From molecule to ecosystem. 前期 全学共通科目 2015/04-2016/03