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Madoka Nakayama

Showing results (1-10 of 5) with videos related to

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Development, Growth & Differentiation|July 5, 2017
Morphologies of Bacillus subtilis communities responding to environmental variationSohei Tasaki, Madoka Nakayama, Wataru Shoji
Plos One|March 3, 2017
Self-organization of bacterial communities against environmental pH variation: Controlled chemotactic motility arranges cell population structures in biofilmsSohei Tasaki, Madoka Nakayama, Wataru Shoji
Journal of Mathematical Biology|December 2, 2025
Necessary and sufficient condition for hysteresis in the mathematical model of the cell type regulation of Bacillus subtilisSohei Tasaki, Madoka Nakayama, Izumi Takagi, et al.
Physical Review. E|February 17, 2024
Numerical study of anisotropic diffusion in Turing patterns based on Finsler geometry modelingGildas Diguet, Madoka Nakayama, Sohei Tasaki, et al.
Soft Matter|February 27, 2025
Turing patterns on polymerized membranes: coarse-grained lattice modelling with an internal degree of freedom for polymer directionFumitake Kato, Hiroshi Koibuchi, Elie Bretin, et al.
Pageof 1

Showing results (1-10 of 5) with videos related to

Sort By:
Pageof 1
Development, Growth & Differentiation|July 5, 2017
Morphologies of Bacillus subtilis communities responding to environmental variationSohei Tasaki, Madoka Nakayama, Wataru Shoji
Plos One|March 3, 2017
Self-organization of bacterial communities against environmental pH variation: Controlled chemotactic motility arranges cell population structures in biofilmsSohei Tasaki, Madoka Nakayama, Wataru Shoji
Journal of Mathematical Biology|December 2, 2025
Necessary and sufficient condition for hysteresis in the mathematical model of the cell type regulation of Bacillus subtilisSohei Tasaki, Madoka Nakayama, Izumi Takagi, et al.
Physical Review. E|February 17, 2024
Numerical study of anisotropic diffusion in Turing patterns based on Finsler geometry modelingGildas Diguet, Madoka Nakayama, Sohei Tasaki, et al.
Soft Matter|February 27, 2025
Turing patterns on polymerized membranes: coarse-grained lattice modelling with an internal degree of freedom for polymer directionFumitake Kato, Hiroshi Koibuchi, Elie Bretin, et al.
Pageof 1