基礎生物学研究所
Organizers | Noburo Kamiya Harunori Ishikawa |
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Venue | National Institute for Basic Biology, Okazaki , 444-8585, Japan |
Date | Mar. 9-11, 1981 |
Program | |
M. Kuwabara (Director-General of NIBB) : Welcome address | |
N. Kamiya(NIBB): Opening Remarks | |
1. | Y. Hiramoto* and S. Ishijirna (Tokyo Inst. of Tech.) : Dynamics of flagellar movement in sea urchin spermatozoa: Analysis of flagellar movement in a stationary stream. |
2. | K. Takahashi (Univ. of Tokyo) : The force of microtubule sliding in flagella. |
3. | T. Maruyama (Tokyo Metropol. Univ.) : Retractile motion of the longitudinal flagellum in Ceratium tripos, a marine dinoflagellate. |
4. | Y. Shigenaka*, T. Suzaki, A. Toyohara and K. Yano (Hiroshima Univ.) : Saltatory move ment mechanism of intra-axopodial particles in a heliozoan genus Echinosphaerium. |
5. | T. Suzaki*, A. Toyohara, K. Yano and Y. Shigenaka (Hiroshima Univ.) : Axopodial contraction in a heliozoan genus Echinosphaerium. |
6. | L. I. Rebhun (Univ. of Virginia) : Assembly of sea urchin and clam spindle tubulins and their interaction with calcium. |
7. | E. Nishida* and H. Sakai (Univ. of Tokyo): A 94K protein that modulates assembly of both tubulin and actin. |
8. | H. Kumagai*, E. Nishida and H. Sakai (Univ. of Tokyo) : Calcium and calmodulin dependent regulation of microtub le assembly. |
9. | H. Sato* and T. Kato (Nagoya Univ.) : Isotope effect of D2O for the polymerization and depolymerization of microtubules. |
10. | R. Kuriyama (NIBB) : In vitro nucleation of microtubules from MTOC prepared from cellular slime mold: Characterization and comparison with centrosomes of cultured mammalian cells. |
11. | H.-U. Koop (Univ. of Colorado) : Intracellular movements in Acetabularia. |
12. | R. Nagai* and S. Fukui (Osaka Univ.) : Differential treatment of Acetabularia: with reference to cytoplasmic streaming. |
13. | M. Tazawa* (Univ. of Tokyo) and Y. Tominaga (Heian Women's Coll.) : Regulation mechanism of the cytoplasmic streaming in Characeae cells. |
14. | E. Kamitsubo (Hitotsubashi Univ.) : Heat-labile endoplasmic factor indispensable for the cytoplasmic streaming in characean cells. |
15. | M. Ishigami* (Shiga Univ.), R. Nagai and K. Kuroda (Osaka Univ.) : Birefringent fibrils in Physarum plasmodium. |
16. | Y. Kobatake (Hokkaido Univ.) : Limit cycle of contraction rhythm in Physarum polycephalum. |
17. | R. Kuroda* and H. Kuroda (Aichi Gakuin Univ.) : Cytoplasmic calcium and contractility of Physarum polycephalum. |
18. | T. Sakai (Kinki univ.) : Spatial difference of the ATP content in Physarum plasmodium. |
19. | Y. Yoshimoto, S. Nakamura and N. Kamiya* (NIBB) : Changes in intracellular Ca2+ and ATP concentrations and in extracellular pH of Physarum plasmodium in relation to its contraction-relaxation cycle. |
20. | K. Kuroda* and S. Sonobe (Osaka Univ.) : Reactivation of glycerinated amoeba. |
21. | J. Condeelis (Albert Einstein Coll. of Med.) : Microfilament function during changes in cell shape and surface architecture. |
22. | H. Ishikawa*, S. Tukita and Sh. Tukita (Univ. of Tokyo) : Actin filaments: Intracellular arrangement and association with cell membranes. |
23. | L. I. Rebhun (Univ. of Virginia) : Conditions for the assembly of actin in sea urchin egg microvilli. |
24. | I. Mabuchi (Univ. of Tokyo) : Assembly and disassembly of actin in echinoderm eggs. |
25. | K. Owaribe* and H. Masuda(Nagoya Univ.) : Cytoskeleton of pigmented epithelial cells. |
26. | A. Asano* and N. Mimura (Osaka Univ.) : Characterization and intracellular localization of actinogelin, a Ca2+-sensitive actin-accessory protein. |
27. | S. Ogihara (Osaka Univ.) : Actinotanglin - a novel actin-binding protein purified from Physarum plasmodia which entangles actin filaments and blocks actin-myosin interaction. |
28. | K. Kohama (Univ. of Tokyo) : A regulatory factor inhibiting actin-myosin interaction of Physarum polycephalum in the presence of Ca ion. |
29. | H. Sugino, T. Hasegawa, S. Hatano* (Nagoya Univ.) and F. Matsumura (NIBB): A possible role of fragmin in the tension development of the actomyosin system in Physarum. |
30. | K. Maruyama (Chiba Univ.): Cell β-actinin, an accelerator of actin polymerization. |
31. | S. Watanabe (Tokyo Inst. of Tech.) : Magnesium requirement for the thick filament formation from chicken gizzard myosin. |
32. | T. Yanagida (Osaka Univ.) : Motions of actin and myosin cross-bridge during muscle contraction. |
33. | H. Shimizu (Univ. of Tokyo) : The molecular process of chemomechanical conversion in acto-myosin and acto-heavy meromyosin systems. |
*Speakers |