Research field (3):
Science education
, Environmental effects of radiation
, Molecular biology
Research keywords (9):
Radiation Safety Management
, Radiation Learning Program Development
, Radiation Biological Effects
, Mathematical modeling of radiation effects
, dose rate effect
, Photosynthesis
, Transcription Control Mechanism
, Plastid genome
, molecular biology
Research theme for competitive and other funds (15):
2021 - 2024 放射線教育のSTEAM化によるEBPM支援プログラムの開発
2018 - 2023 Evaluation of the internal exposure effect in by the single cell - alpha particle Irradiation live imaging system.
2019 - 2022 Development and application of alpha-ray micro-irradiation control detection system using Po-210 radiation source
2016 - 2019 Comparative analysis of physics, epidemiology and biology recognition cultures on radiation and biological effects
2016 - 2019 Creation of Radiation Science Culture with High Robustness - A New Horizon of Radiation Learning
2013 - 2016 Development of instruction packages for new radiation education associated with the community
2013 - 2015 Development and application of infrared light-emitting scintillator for alpha-particle detector to control irradiation and position
2010 - 2012 Development of the desktop type-single ion radiation system and analytical studies of radiation biological effects by the use of this system
2005 - 2007 マイハギにおける微弱な接触刺激「音」に対する応答機構の解明
2005 - 2006 葉緑体遺伝子発現を制御する核因子群の同定と機能解析
2002 - 2004 Functional analysis of plastid transcription factors by chloroplast transformation.
- 2001 葉緑体遺伝子の転写制御
- 2001 Analysis of the transcriptional control of plastid gene expression
2000 - 2000 転写制御における核と葉緑体間のシグナル伝達機構
1999 - 1999 転写制御における核と葉緑体間のシグナル伝達機構
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Papers (47):
M. Bando, Y. Tsunoyama, K. Suzuki, H. Toki. Proposal of See-saw model - overcoming LQM difficulty. Annals of the ICRP. 2023. 52. (1-2) Annex. 276-282
M. Bando, Y. Onoue, Y. Tsunoyama, K. Suzuki, Y. Takanishi, J. Sato, T. Wada, H. Toki. Example of the misleading results caused by LQ model in calculating the fractionation effect in radiation therapy. Annals of the ICRP. 2023. 52. (1-2) Annex. 17-21
Yuichiro Manabe, Issei Nakamura, Hiroo Nakajima, Yuichi Tsunoyama, Masako Bando. The Reconsider Linear Non-Threshold (LNT) Hypothesis of Radiation Effect on Living Object. Insights Concerning the Fukushima Daiichi Nuclear Accident Vol. 1. 2021. 278-284
Masako Bando, Yuichi Tsunoyama, Kazuyo Suzuki, Hiroshi Toki. WAM to SeeSaw model for cancer therapy - overcoming LQM difficulties. International journal of radiation biology. 2021. 97. 2. 228-239
Yuichiro Manabe, Takahiro Wada, Yuichi Tsunoyama, Hiroo Nakajima, Masako Bando. Mathematical model which can estimate the mutation frequency induced by radiation, considering dose rate explicitly. GENES & GENETIC SYSTEMS. 2015. 90. 6. 399-399
Manabe Yuichiro, Nakamura Issei, Tsunoyama Yuichi, Nakajima Hiroo, Bando Masako. 7aAM-2 A scaling hypothesis for radiation induced mutation frequencies. Meeting abstracts of the Physical Society of Japan. 2014. 69. 2. 188-188
Mathematical modeling of long-term radiation exposure effects for space flight
(2022)
Chromosome aberrations in astronauts and the WAM model
(2021)
A Proposal for the Application of Mathematical Models That Accurately Approximate Measured Data to Radiation Protection
(the Future of Radiological Protection Digital Workshop - ICRP 2021)
