[3AS-10] 【E】ECM as Materials Composing Living Organisms | The 47th Annual Meeting of the Molecular Biology Society of Japan

Session Details

Open-call Symposium : [3AS-10] ECM as Materials Composing Living Organisms

[3AS-10]【E】ECM as Materials Composing Living Organisms

Fri. Nov 29, 2024 9:00 AM - 11:15 AM JST
Fri. Nov 29, 2024 12:00 AM - 2:15 AM UTC

Room 10(Fukuoka International Congress Center, 2F 201)

Organizer: Aya M. Akimoto (Ochanomizu University), Hironobu Fujiwara (RIKEN)

Co-hosted by: KAKENHI Grant-in-Aid for Transformative Research Area (A) Integration of Extracellular Information by Multimodal ECM Activity

The extracellular matrix (ECM) is now understood to be a dynamic and crucial component in complex biological functions, marking a shift from its previously perceived static role. Advancing our understanding of the ECM will require a comprehensive approach that transcends conventional paradigms. This symposium convenes experts in cell biology, developmental biology, and materials science to delve into principle of ECM.

9:00 AM - 9:20 AM JST(12:00 AM - 12:20 AM UTC)

[3AS-10-01]The impact of the multimodal properties of hydrogel materials on the development of artificial ECMs

○Aya M. Akimoto¹ (1. Ochanomizu Univ.)

Comment()

9:20 AM - 9:35 AM JST(12:20 AM - 12:35 AM UTC)

[3AS-10-02(3P-536)]Heterogeneous ECM dynamics regulate cell survival and abdominal epithelium remodeling in Drosophila

○Kevin Yuswan¹, Daiki Umetsu², Erina Kuranaga^1,3 (1. Laboratory of Histogenetic Dynamics, Graduate School of Life Science, Tohoku University, 2. Laboratory of Cell Biology, Department of Biological Sciences, Graduate School of Science, Osaka University, 3. Laboratory for Histogenetic Dynamics, Graduate School and Faculty of Pharmaceutical Sciences, Kyoto University)

Comment()

9:35 AM - 9:55 AM JST(12:35 AM - 12:55 AM UTC)

[3AS-10-03]Star-polymer-DNA gels showing predictable stress relaxation behavior

○Xiang Li¹ (1. Hokkaido University)

Comment()

9:55 AM - 10:10 AM JST(12:55 AM - 1:10 AM UTC)

[3AS-10-04(3P-553)]Molecular chaperone GRP94 is involved in osteoblast differentiation.

○RInna Kanai¹, Naoya Saeki¹, Sayuri Tatsuta¹, Tomoko Sumitomo², Shinsuke Ohba¹, Makoto Abe¹ (1. Osaka Univ., 2. Tokushima Univ.)

Comment()

10:10 AM - 10:30 AM JST(1:10 AM - 1:30 AM UTC)

[3AS-10-05]Spatio-temporal analysis of tissue microenvironment using three-dimensional microvessel-on-a-chip

○Yukiko T Matsunaga¹ (1. The Univ. of Tokyo)

Comment()

10:30 AM - 10:55 AM JST(1:30 AM - 1:55 AM UTC)

[3AS-10-06]Shaping Growing Tissues by Basement Membrane Mechanics

○Stefan Harmansa¹, Thomas Lecuit² (1. Living Systems Institute, University of Exeter (UK), 2. IBDM, Aix-Marseille University (France))

Comment()

10:55 AM - 11:15 AM JST(1:55 AM - 2:15 AM UTC)

[3AS-10-07]Organogenesis in stem cell culture

○Mototsugu Eiraku¹ (1. Kyoto University)

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