[2S15m] Spatial-temporal understanding of multicellular interactions based on quantification of biological signal information | APPW2025

Session Details

Symposium

[2S15m]Spatial-temporal understanding of multicellular interactions based on quantification of biological signal information

Tue. Mar 18, 2025 8:30 AM - 10:20 AM JST
Tue. Mar 18, 2025 11:30 PM - 1:20 AM UTC

Room 15

Oranizers :Motohiro Nishida (Graduate School of Pharmaceutical Sciences, Kyushu University) and Takeshi Imai (Graduate School of Medical Sciences, Kyushu University)

Sponsored by : JST-CREST "Development of Technology Platforms for Quantitative Analysis of Spatiotemporal Multicellular Interaction"

With recent progress in omics and imaging technologies at the single cell level and in computer science, comprehensive and quantitative analysis of cells and biomolecules is becoming possible. This will lead to changes in life sciences methodologies in research that focuses on individual genes and molecules and in more complex analyses, such as targeting changes in many genes and molecules in single cells. However, there are many technological bottlenecks in the spatiotemporal analysis of cells and molecules, and in the three-dimensional analysis of tissues and organisms. In this symposium, we would like to introduce the unique and innovative techniques possessed by professors who are promoting research aimed at understanding spatiotemporal interactions among multicellular organisms, and discuss current issues and future prospects.

8:32 AM - 8:56 AM JST(11:32 PM - 11:56 PM UTC)

[2S15m-1]Trans-omic analysis of hepatic glucose metabolism and its dysfunction associated with obesity

^○Shinya Kuroda (Department of Biological Sciences, University of Tokyo)

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8:56 AM - 9:14 AM JST(11:56 PM - 12:14 AM UTC)

[[OD]2S15m-2]Unraveling the role of sulfur metabolism in cardiac resilience through supersulfide imaging

^○Akiyuki Nishimura^1,2, Xiaokang Tang^1,2, Yuri Kato³, Tomoya Ito³, Motohiro Nishida^1,2,3 (1.Division of Cardiocirculatory Signaling, National Institute for Physiological Sciences, 2.Cardiocirculatory Dynamism Research Group, Exploratory Research Center on Life and Living Systems, 3.Graduate school of Pharmaceutical Sciences, Kyushu University)

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9:14 AM - 9:32 AM JST(12:14 AM - 12:32 AM UTC)

[2S15m-3]Isotonic and minimally invasive optical clearing media for live cell imaging ex vivo and in vivo

^○Shigenori Inagaki¹, Nao Tamagawa², Nathan Huynh², Yuki Kambe², Rei Yagasaki³, Satoshi Manita⁴, Satoshi Fujimoto¹, Takahiro Noda¹, Yuki Naito⁵, Katsuhiko Hayashi⁵, Kazuo Kitamura⁴, Yoshiaki Tagawa², Satoru Okuda³, Tatsuo Sato², Takeshi Imai¹ (1.Kyushu University, 2.Kagoshima Univ., 3.Kanazawa Univ., 4.Yamanashi Univ., 5.Osaka Univ.)

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9:32 AM - 9:56 AM JST(12:32 AM - 12:56 AM UTC)

[2S15m-4]Organogenesis in stem cell culture

^○Mototsugu Eiraku (Kyoto University)

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9:56 AM - 10:20 AM JST(12:56 AM - 1:20 AM UTC)

[2S15m-5]Physiological organ remodeling mechanisms elucidated from spatial transcriptome and force field

^○Fumiko Toyoshima^1,2, Takuya Yamamoto^3,5, Mitsuhiro Iwaki⁴, Koichiro Maki¹, Yoshihiko Kobayashi², Kazunori Sunadome⁵, Hitomi Matsubara⁴ (1.LiMe, Kyoto University, 2.MRL, Institute of Science Tokyo, 3.CiRA, Kyoto University, 4.Advanced ICT Research Institute, 5.ASHBi, Kyoto University)

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