No, | Research Theme | Researcher | Institute |
1 | Development of anti-cancer drug screening systems targeting an error-prone DNA repair pathway activated in cancer cells after ionizing radiation | Masaoki Kohzaki | University of Occupational and Environmental Health |
2 | Elimination of undifferentiated cells from Embryoid Body using gamma-ray. | Masanobu Horie | Kyoto Univ. |
3 | Analysis of effect of knocking out genes involved in the unfolded protein response on growth in nude mice | Kazutoshi Mori | Kyoto Univ. |
4 | Analysis of an individual sensitivity to low dose-rate radiation using human normal cell lines | Masanori Tomita | Central Research Institute of Electric Power Industry |
5 | Studies on DNA damage response and maintenance of genome stability in plants | Masaaki Umeda | NARA Institute of Science and Technology |
6 | Identification of DSB facors in meiotic recombination of zebrafish male | Yukiko Imai | Reseach Organization of Information and Systems |
7 | Analysis of DNA damage response using the human TK6 cell line. | Shintaro Yamada | Kyoto Univ. |
8 | FRET imaging reveals the effect of neutrophil extracellular traps on intracellular signaling activity in colorectal cancer invasion and metastasis. | Kawada Kenji | Kyoto Univ. |
9 | Elucidation of cancer metastasis mechanism using organoids | Yuki Kita | Kyoto Univ. |
10 | Role of DNA double-strand break repair machinery in low dose/low dose rate radiation effects | Yoshihisa Matsumoto | Tokyo Institute of Technology |
11 | Development of Fluorescent Dye for Detection of Cancer Stem Cells | Koji Miki | Kyoto Univ. |
12 | Radiation-induced vocal fold fibrosis | Yo Kishimoto | Kyoto Univ. |
13 | Identification of suppressing factors for NER defect induced by telomerase depletion | Hiroyuki Niida | Hamamatsu University School of Medicine |
14 | Analysis of nucleolytic processing in DNA double strand breaks | Isao Kuraoka | Fukuoka Univ. |
15 | Development of novel therapeutic strategy, and search for mechanism of drug resistance, for acute myeloid leukemia | Takashi Sakamoto | Kyoto Univ. |
16 | Role of oxidative stress in human cellular responses under low dose rate irradiation | Junya Kobayashi | International University of Health and Welfare |
17 | Roles of ubiquitination systems in DNA damage tolerance | Chikahide Masutani | Nagoya Univ. |
18 | Physiological roles of phosphate/polyphosphate regulations in cell proliferation and DNA damage repair | Kojiro Takeda | Konan Univ. |
19 | PET imaging of OX40+ immune cells in metastatic cancer models | Tomomi Nobashi | Kyoto Univ. |
20 | Inhibition of tumor growth by CCR1 and CXCR2 receptor inhibition on bone marrow cells in the tumor microenvironment of colorectal cancer. | Kawada Kenji | Kyoto Univ. |
21 | Suppression of alloreactive proliferation of human lymphocytes with molecular-target reagents | Takero Shindo | Kyoto Univ. |
22 | The effect of hypoxia on fatty acid metabolim of breast cancer | Masahiro Kawashima | Kyoto Univ. |
23 | Study of rev1 functions in testis-ova induction by low-dose-rate irradiated in medaka | Syouji Oda | Tokyo Univ. |
24 | Assessment of age-dependent cellular responses after low-dose rate radiation exposure. | Asako Nakamura | Ibaraki Univ. |
25 | Mechanisms underlying metabolic regulation in macrophages | Osamu Takeuchi | Kyoto Univ. |
26 | Mechanisms of cellular response to radiation and oxidative stress. | Qiumei Akiyama | Kyoto Univ. |
27 | Analysis of human dendritic cell functions. | Hiroyuki Kitao | Kyushu Univ. |
28 | Analysis of host-pathogen interactions and their applications. | Kim Minsoo | Kyoto Univ. |
29 | Analysis of human dendritic cell functions | Toshio Kitawaki | Kyoto Univ. |
30 | Evaluation of the effects of radiation and hypoxic condition on iPSC-derived neural cells and brain organoids/assembloids. | Tomohisa Kato | Kanazawa Medical Univ. |
31 | The molecular mechanisms of ploidy alteration in Drosophila melanogaster | Yoichiro Tamori | Kyoto Univ. |
32 | Search for the possibility of pancreatic and colorectal cancer stem cell-targeted treatment | Takahisa Maruno | Kyoto Univ. |
33 | Influence of the host immunity on cancer progression and therapeutic response | Minoru Inoue | Kyoto Univ. |
34 | Immunofluorescence analysis of TDP-43 in mammalian cells exposed to radiation | Asakawa Kazuhide | National Institute of Genetics |
35 | Cloning of antigen-specific T cells | Hideki Ueno | Kyoto Univ. |
36 | Analyses of the effect of glycosylation on cancer immunity | Chie Naruse | Kyoto Univ. |
37 | Basic Study on Cognitive Impairment Induced by Cancer Therapy | Natsuko Kondo | Kyoto Univ. |
38 | Analysis of innate immune response derived from micro nuclei | Makoto Hayashi | Kyoto Univ. |
39 | Evaluation of the impact of irradiation on tumor budding | Nobuaki Takahashi | Kyoto Univ. |
40 | SLFN11-dependent immediate apoptosis in response to g-irradiation. | Junko Murai | Ehime Univ. |
41 | Regulation of cell death by S-adenosylmethionine metabolism. | Kazuhiko Igarashi | Tohoku Univ. |
42 | The role of matricellular protein on stromal activation during cancer progression. | Yuki Nakanishi | Kyoto Univ. |
43 | The establishment of humanized cell models in mirine lung by cell transplantation. | Atsuyasu Sato | Kyoto Univ. |
44 | The study of breast regeneration treatment with artificial fat using radiation model. | Naoki Morimoto | Kyoto Univ. |
45 | Radiation sensitization effect of high Z element loaded nanoparticles. | Fuyuhiko Tamanoi | Kyoto Univ. |
46 | Observation of the immune environment and evaluation of novel therapeutic targets with mouse liver/Brain metastasis model. | Hiroaki Ozasa | Kyoto Univ. |
47 | Mechanisms of lipid dynamics by DNA repair proteins | Jun Suzuki | Kyoto Univ. |
48 | Establishment of lung-humanized mouse using hiPSCs. | Shimpei Gotoh | Kyoto Univ. |
49 | Comprehensive analysis of factors involved in radioresistance. | Ryouta Nakazima | Kyoto Univ. |
50 | Exploratory study of drug responsiveness to gastrointestinal cancers and rare cancers using a developing chicken egg model. | Shinya Ohashi | Kyoto Univ. |
51 | Elucidation of the pathogenic mechanism of central nervous system diseases by immune cells infiltrating into the brain and spinal cord parenchyma. | Hisashi Shirakawa | Kyoto Univ. |