2017 - 2020 Understanding heterogeneity within cell population in the process of acquiring anti-cancer drug resistance
2010 - 2012 ケミカルシステムバイオロジーによる細胞遊走制御機構解析
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Papers (16):
Fujihara C, Murakami K, Magi S†, Motooka D, Nantakeeratipat T, Canela A, Tanaka RJ, Okada M, Murakami S. Omics-Based Mathematical Modeling Unveils Pathogenesis of Periodontitis in an Experimental Murine Model. Journal of Dental Research. 2023. 0. 0
Ando M, Magi S, Seki M, Suzuki Y, Kasukawa T, Lefaudeux D, Hoffmann A, Okada M. IκBα is required for full transcriptional induction of some NFκB-regulated genes in response to TNF in MCF-7 cells. npj systems biology and applications. 2021. 7. 42. 1-15
Shigeyuki Magi, Sewon Ki, Masao Ukai, Elisa Domínguez-Hüttinger, Atsuhiko T Naito, Yutaka Suzuki, Mariko Okada. A combination approach of pseudotime analysis and mathematical modeling for understanding drug-resistant mechanisms. Scientific reports. 2021. 11. 18511. 18511-18511
Development of a screening system for cardiac dysfunction using a deep learning model with motion vectors of cardiomyocytes
(2023)
A combination approach of pseudotime analysis and mathematical modeling for understanding drug-resistant mechanisms
(The 81st Annual Meeting of the Japanese Cancer Association 2022)
Understanding the process of acquiring anti-cancer drug resistance through single-cell analysis and mathematical modeling
(2022)