Session Details
[S06]Mathematics, Physics, and Data Science in Biology[E]
Thu. Jul 17, 2025 1:10 PM - 3:10 PM JST
Thu. Jul 17, 2025 4:10 AM - 6:10 AM UTC
Thu. Jul 17, 2025 4:10 AM - 6:10 AM UTC
Room E(9F Conference Room902)
Chairpersons:Yasuhiro Inoue(Kyoto Univ.), Naoki Honda(Nagoya Univ.)
Bridging disciplines that seek to understand life's complexity quantitatively, this symposium demonstrates how mathematics, physics, and data science converge to decode morphogenesis: Data science approaches reveal individuality beyond genotype, Simulations link mechanism interplay to spatial patterning, physics reveals mechanosensation as a key mechanism of morphogenesis, and large-scale simulations connect cell-shape plasticity with tissue rheology-together laying the groundwork for a predictive framework that elevates developmental biology from description to principle-based understanding.
[S06-01]Nine-banded armadillo transcriptome and chromatin accessibility at single-cell reveal persistent identity signatures in concordance with cell population variations
*Risa Karakida Kawaguchi1,2 (1. UTokyo. Grad School of Pharma Sci, 2. Kyoto University. CiRA)
[S06-02]Modeling approach to deciphering cell shape dynamics
*Nen Saito1 (1. Graduate School of Integrated Sciences for Life, Hiroshima University)
[S06-03]Intercoupling between bistability and Turing instability prolongs the interval of periodic morphogenesis in plants
Toshiaki Tameshige1,2, Takeshi Tsuchida1, Yuuki Matsushita3,4, Koichi Fujimoto3, *Momoko Ikeuchi1 (1. Nara Institute of Science and Technology, 2. Kyoto Prefectural University, 3. Hiroshima University, 4. National Centre for Biological Sciences)
[S06-04]Toward understanding shared mechanisms of epithelial morphogenesis across different organs
*Yoshihiro Morishita1 (1. RIKEN Center for Biosystems Dynamics Research)