基礎生物学研究所
| Organizers | Noburo Kamiya Harunori Ishikawa |
|---|---|
| Venue | National Institute for Basic Biology, Okazaki , 444-8585, Japan |
| Date | Mar. 17-19, 1980 |
| Program | |
| M. Kuwahara (NIBB, Director General) : Welcome address | |
| N. Kamiya (NIBB) : Opening Remarks | |
| 1. | Y. Hiramoto* and M. Saiki-Hamaguchi (Tokyo Inst. of Tech.): Movement of pronuclei in fertilized sea urchin eggs. |
| 2. | M. Kurokawa (Univ. of Tokyo): Blockade of slow axoplasmic transport. |
| 3. | S. Tsukita* and H. Ishikawa (Univ. of Tokyo) : Morphological basis of fast axonal trans port. |
| 4. | E. D. Salmon (Univ. of North Carolina) : Micromolar calcium induces microtubule depoly merization and concurrent fiber shortening in isolated mitotic spindles. |
| 5. | H. Sakai (Univ. of Tokyo): Reactivation of isolated mitotic apparatuses. |
| 6. | R. Kuriyama (NIBB) :"Mic rotubule-initiating activity of centrosomes extracted from tissue culture cells. |
| 7. | J. L. Rosenbaum (Yale Univ.) : The role of microtubule-associated-proteins (MAPs) in the assembly and function of microtubules. |
| 8. | T. Suzuki* (NIBB): Flagellar assembly pathway in Salmonella. |
| 9. | R. Kamiya* and S. Asakura (Nagoya Univ.): Polymorphic transition in bacterial flagella. |
| 10. | H. Asai (Waseda Univ.): Contraction and extension cycle of glycerinated stalk of Vorticella by varying ambient Ca2+ concentrations. |
| 11. | K. Ogawa* (NIBB), S. Negishi and M. Obika (Keio Univ.) : Dynein 1 does locate at the outer arms within sperm axonemes of sea urchin and rainbow trout. |
| 12. | Y. Yano and T. Miki-Noumura* (Ochanomizu Univ.): Recovery of sliding ability in the arm-depleted axonemes by recombining the extracted dynein 1. |
| 13. | Y. Naitoh* and K. Sugino (Univ. of Tsukuba): Computor simulation in ciliary movement in Paramecium. |
| 14. | S. Nakamura (Nagoya Univ.): Flagellar motility mutants of Chlamydomonas. |
| 15. | K. Takahashi (Univ. of Tokyo): Control of microtubule sliding in cilia and flagella. |
| 16. | S. Watanabe (Tokyo Inst. of Tech.) : Myosins from clam foot, squid mantle, and scallop adductor. |
| 17. | T. Arata and Y. Tonomura* (Osaka Univ.) : Relationship of crossbridge movement with ATP hydrolysis in muscle fiber. |
| 18. | T. Hasegawa*, H. Sugino and S. Hatano (Nagoya Univ.): Fragmin: A Ca2+-senssiitive regulatory factor on the formation of actin filaments. |
| 19. | A. Asano*, N. Mimura and P. F. Kuno (Osaka Univ.): Actinogelin: A new protein which induces Ca2+-sensitive gelation of F-actin. |
| 20. | O. Numata* and Y. Watanabe (Univ. of Tsukuba): A new fibrous protein from Tetrahymena. - A possible role in cell division. |
| 21. | N. Shibata (Center for Adult Diseases): Location of actin and myosin in leucocytes. |
| 22. | R. D. Allen (Dartmouth College) : Mechanisms of movement in blood platelets. |
| 23. | T. Ueda*, T. Hirose, H. Satoh and Y. Kobatake (Hokkaido Univ.): Transduction mecanism between chemoreception and tactic movement in plasmodia of Physarum. |
| 24. | H. Sato (Nagoya Univ.) : Contractile movement preserved in artificially induced plasmodial fragments, the "caffein drops". |
| 25. | F. Matsumura*, Y. Yoshimoto and N. Kamiya (NIBB): Tension generation by actomyosin thread derived from Physarum. |
| 26. | N. Kamiya*, Y. Yoshimoto, F. Matsumura, S. Nakamura (NIBB) and T. Sakai (Kinki Univ.) : Rhythmicity of cytoplasmic movement in Physarum. |
| 27. | E. Kamitsubo (Hitotsubashi Univ.) : U-tum streaming in internodal cells of Characeae. |
| 28. | R. Nagai* (Osaka Univ.), M. Ishigami (Shiga Univ.) and Y. Yamaguchi (Osaka Univ.): Cytoplasmic streaming in Vallisneria. |
| 29. | J.C.W. Chen (Rutgers Univ.) : The inhibition of Nitella protoplasmic streaming with high ATP concentration. |
| 30. | S. Higashi-Fujime (Nagoya Univ.): Active movement of synthetic actomyosin. |
| 31. | H. Shimizu (Univ. of Tokyo) : The temperature dependence of the streaming velocity in an artificial streaming system and Nitella. |
| (* Speaker of a paper by multi-authors) | |
