Left–right asymmetric cell intercalation drives directional collective cell movement in epithelial morphogenesis K Sato, T Hiraiwa, E Maekawa, A Isomura, T Shibata, E Kuranaga Nature communications 6 (1), 10074, 2015 | 112 | 2015 |
Role of turnover in active stress generation in a filament network T Hiraiwa, G Salbreux Physical review letters 116 (18), 188101, 2016 | 60 | 2016 |
Dynamics of a deformable self-propelled domain T Hiraiwa, MY Matsuo, T Ohkuma, T Ohta, M Sano Europhysics Letters 91 (2), 20001, 2010 | 57 | 2010 |
Dynamics of a deformable self-propelled particle in three dimensions T Hiraiwa, K Shitara, T Ohta Soft Matter 7 (7), 3083-3086, 2011 | 49 | 2011 |
Cell chirality induces collective cell migration in epithelial sheets K Sato, T Hiraiwa, T Shibata Physical review letters 115 (18), 188102, 2015 | 47 | 2015 |
Tug-of-war between actomyosin-driven antagonistic forces determines the positioning symmetry in cell-sized confinement R Sakamoto, M Tanabe, T Hiraiwa, K Suzuki, S Ishiwata, YT Maeda, ... Nature communications 11 (1), 3063, 2020 | 44 | 2020 |
Gliding filament system giving both global orientational order and clusters in collective motion S Tanida, K Furuta, K Nishikawa, T Hiraiwa, H Kojima, K Oiwa, M Sano Physical Review E 101 (3), 032607, 2020 | 37 | 2020 |
Polar pattern formation induced by contact following locomotion in a multicellular system M Hayakawa, T Hiraiwa, Y Wada, H Kuwayama, T Shibata Elife 9, e53609, 2020 | 27 | 2020 |
Deformable self-propelled domain in an excitable reaction-diffusion system in three dimensions K Shitara, T Hiraiwa, T Ohta Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 83 (6 …, 2011 | 26 | 2011 |
Dynamic self-organization of idealized migrating cells by contact communication T Hiraiwa Physical Review Letters 125 (26), 268104, 2020 | 25 | 2020 |
Inhomogeneous mechanotransduction defines the spatial pattern of apoptosis-induced compensatory proliferation T Kawaue, I Yow, Y Pan, AP Le, Y Lou, M Loberas, M Shagirov, X Teng, ... Developmental cell 58 (4), 267-277. e5, 2023 | 22* | 2023 |
Two types of exclusion interactions for self-propelled objects and collective motion induced by their combination T Hiraiwa Physical Review E 99 (1), 012614, 2019 | 20 | 2019 |
Monopolar flocking of microtubules in collective motion F Afroze, D Inoue, TI Farhana, T Hiraiwa, R Akiyama, AMR Kabir, K Sada, ... Biochemical and biophysical research communications 563, 73-78, 2021 | 15 | 2021 |
Relevance of intracellular polarity to accuracy of eukaryotic chemotaxis T Hiraiwa, A Nagamatsu, N Akuzawa, M Nishikawa, T Shibata Physical biology 11 (5), 056002, 2014 | 15 | 2014 |
Viscoelastic behavior of a single semiflexible polymer chain T Hiraiwa, T Ohta Journal of the Physical Society of Japan 77 (2), 023001, 2008 | 15 | 2008 |
Theoretical model for cell migration with gradient sensing and shape deformation T Hiraiwa, A Baba, T Shibata The European Physical Journal E 36, 1-9, 2013 | 14 | 2013 |
Viscoelasticity of a single semiflexible polymer chain T Hiraiwa, T Ohta Macromolecules 42 (19), 7553-7562, 2009 | 14 | 2009 |
Directional sensing of deformed cells under faint gradients A Baba, T Hiraiwa, T Shibata Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 86 (6 …, 2012 | 13 | 2012 |
How enzymatic activity is involved in chromatin organization R Das, T Sakaue, GV Shivashankar, J Prost, T Hiraiwa Elife 11, e79901, 2022 | 11 | 2022 |
Wave propagation of junctional remodeling in collective cell movement of epithelial tissue: Numerical simulation study T Hiraiwa, E Kuranaga, T Shibata Frontiers in Cell and Developmental Biology 5, 66, 2017 | 11 | 2017 |