[2PS-17] 【J】Frontiers in molecular mechanisms of brain homeostasis and its disruption | The 47th Annual Meeting of the Molecular Biology Society of Japan

The 47th Annual Meeting of the Molecular Biology Society of Japan

Session Details

Open-call Symposium : [2PS-17] Frontiers in molecular mechanisms of brain homeostasis and its disruption

[2PS-17]【J】Frontiers in molecular mechanisms of brain homeostasis and its disruption

Thu. Nov 28, 2024 4:45 PM - 7:00 PM JST
Thu. Nov 28, 2024 7:45 AM - 10:00 AM UTC

Room 17(Marine Messe Fukuoka Hall B, 2F Meeting Room 2-2)

Organizer: Shusaku Uchida (Nagoya City University), Sayaka Takemoto (Nagoya University)

The brain maintains homeostasis by dynamically altering intracellular molecular events in response to environmental changes. Recent advances in molecular tools and omics analysis allow us to understand the integrative molecular basis for the regulation of brain functions. In this symposium, we will present the latest findings on the molecular mechanisms of homeostasis in biological systems.

4:45 PM - 5:02 PM JST(7:45 AM - 8:02 AM UTC)

[2PS-17-01]Molecular and neural mechanisms underlying individual diferences in behavioral response to stress

○Shusaku Uchida¹ (1. Nagoya City University)

Comment()

5:02 PM - 5:19 PM JST(8:02 AM - 8:19 AM UTC)

[2PS-17-02]Brain-wide mapping of neuronal architecture controlling torpor.

○Hiroshi Yamaguchi¹ (1. National Institute for Physiological Sciences)

Comment()

5:19 PM - 5:33 PM JST(8:19 AM - 8:33 AM UTC)

[2PS-17-03(2P-689)]Thermo-receptor candidate GPCR and thermal responsive neural circuit in temperature response of C. elegans

○Hiromu Ueka¹, Chinatsu Morimoto^1,2,3, Chie Miyazaki¹, Kohei Ohnishi^1,2,3, Tohru Miura^1,2,3, Akane Ohta^1,2,3, Atsushi Kuhara^1,2,3,4 (1. Dept. Biol. Facul. Sci & Engineer. Konan Univ. , 2. Dept.Biol. Grad. Sch. Sci. Konan Univ., 3. Inst. of Integral NeuroBiol. Konan Univ. , 4. PRIME AMED)

Comment()

5:33 PM - 5:50 PM JST(8:33 AM - 8:50 AM UTC)

[2PS-17-04]Different SIK3 isoforms regulate sleep

○Hiromasa Funato^1,2 (1. Toho Univ, Sch Med, 2. U Tsukuba, IIIS)

Comment()

5:50 PM - 6:04 PM JST(8:50 AM - 9:04 AM UTC)

[2PS-17-05(2P-672)]Cryo-EM Structures of QRFP-GPR103-G_q complex reveal the activation mechanism of GPR103, which is involved in homeostasis.

○Aika Iwama¹, Ryoji Kise², Hiroaki Akasaka¹, Fumiya K Sano¹, Hidetaka S Oshima¹, Asuka Inoue^2,3, Wataru Shihoya¹, Osamu Nureki¹ (1. The University of Tokyo, 2. Tohoku University, 3. Kyoto University)

Comment()

6:04 PM - 6:18 PM JST(9:04 AM - 9:18 AM UTC)

[2PS-17-06(2P-679)]Developing multiplex imaging platforms for deciphering Ca²⁺-dependent biochemical signaling in the brain health and disease

○Hajime Fujii¹, Keisuke Ota¹, Yayoi Kondo¹, George Cai², Richard Song³, Haobo Song¹, Hayato Kondo¹, Masatoshi Inoue⁴, Shin-ichiro Horigane⁵, Sayaka Takemoto-Kimura^5,6, Haruhiko Bito¹ (1. Dept of Neurochemistry, Graduate School of Medicine, The University of Tokyo, 2. Dept of Physics, Harvard University, 3. Dept of Neuroscience, Vanderbilt University, 4. Dept Radiology, Wash U St. Louis, 5. Res. Inst. of Envrm. Med. (RIEM), Nagoya Univ., 6. Dept. of Molecular/Cellular Neurosci., Nagoya University Graduate School of Medicine)

Comment()

6:18 PM - 6:35 PM JST(9:18 AM - 9:35 AM UTC)

[2PS-17-07]Diverse functions of calcium signaling during neural circuit formation and its influence on brain pathogenesis

○Sayaka Takemoto-Kimura¹ (1. Nagoya University)

Comment()

6:35 PM - 7:00 PM JST(9:35 AM - 10:00 AM UTC)

General Discussion

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