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Moe Hirosawa

Showing results (1-10 of 9) with videos related to

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Methods in Molecular Biology (Clifton, N.J.)|March 5, 2024
RNA Switches Using Cas ProteinsMoe Hirosawa, Hirohide Saito
ACS Synthetic Biology|July 4, 2019
Cell-Type-Specific CRISPR Activation with MicroRNA-Responsive AcrllA4 SwitchMoe Hirosawa, Yoshihiko Fujita, Hirohide Saito
Current Opinion in Biotechnology|January 15, 2020
RNA and protein-based nanodevices for mammalian post-transcriptional circuitsShunsuke Kawasaki, Hiroki Ono, Moe Hirosawa, et al.
Nihon Yakurigaku Zasshi. Folia Pharmacologica Japonica|May 6, 2026
[Cholesterol in the ciliary membrane as a therapeutic target of polycystic kidney]Tomoka Morita, Moe Hirosawa, Takeshi Itabashi, et al.
Science Advances|January 5, 2022
A versatile and robust cell purification system with an RNA-only circuit composed of microRNA-responsive ON and OFF switchesYoshihiko Fujita, Moe Hirosawa, Karin Hayashi, et al.
Nature Communications|April 19, 2023
Programmable mammalian translational modulators by CRISPR-associated proteinsShunsuke Kawasaki, Hiroki Ono, Moe Hirosawa, et al.
Fujita Medical Journal|May 4, 2026
Pathophysiological significance of cholesterol in ciliopathiesTakeshi Itabashi, Tomoka Morita, Moe Hirosawa, et al.
Nucleic Acids Research|May 20, 2017
Cell-type-specific genome editing with a microRNA-responsive CRISPR-Cas9 switchMoe Hirosawa, Yoshihiko Fujita, Callum J C Parr, et al.
Life Science Alliance|February 3, 2025
Cholesterol ensures ciliary polycystin-2 localization to prevent polycystic kidney diseaseTakeshi Itabashi, Kosuke Hosoba, Tomoka Morita, et al.
Pageof 1

Showing results (1-10 of 9) with videos related to

Sort By:
Pageof 1
Methods in Molecular Biology (Clifton, N.J.)|March 5, 2024
RNA Switches Using Cas ProteinsMoe Hirosawa, Hirohide Saito
ACS Synthetic Biology|July 4, 2019
Cell-Type-Specific CRISPR Activation with MicroRNA-Responsive AcrllA4 SwitchMoe Hirosawa, Yoshihiko Fujita, Hirohide Saito
Current Opinion in Biotechnology|January 15, 2020
RNA and protein-based nanodevices for mammalian post-transcriptional circuitsShunsuke Kawasaki, Hiroki Ono, Moe Hirosawa, et al.
Nihon Yakurigaku Zasshi. Folia Pharmacologica Japonica|May 6, 2026
[Cholesterol in the ciliary membrane as a therapeutic target of polycystic kidney]Tomoka Morita, Moe Hirosawa, Takeshi Itabashi, et al.
Science Advances|January 5, 2022
A versatile and robust cell purification system with an RNA-only circuit composed of microRNA-responsive ON and OFF switchesYoshihiko Fujita, Moe Hirosawa, Karin Hayashi, et al.
Nature Communications|April 19, 2023
Programmable mammalian translational modulators by CRISPR-associated proteinsShunsuke Kawasaki, Hiroki Ono, Moe Hirosawa, et al.
Fujita Medical Journal|May 4, 2026
Pathophysiological significance of cholesterol in ciliopathiesTakeshi Itabashi, Tomoka Morita, Moe Hirosawa, et al.
Nucleic Acids Research|May 20, 2017
Cell-type-specific genome editing with a microRNA-responsive CRISPR-Cas9 switchMoe Hirosawa, Yoshihiko Fujita, Callum J C Parr, et al.
Life Science Alliance|February 3, 2025
Cholesterol ensures ciliary polycystin-2 localization to prevent polycystic kidney diseaseTakeshi Itabashi, Kosuke Hosoba, Tomoka Morita, et al.
Pageof 1