Program |
Welcome Address (Chairperson: Yoshiaki Suzuki) |
T. S. Okada, the Director General of the NIBB |
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1. |
Physical and chemical differences between X- and Y-bearing sperm. |
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Hideo Mohri1, Shigeru Oshio2, Satoru Kaneko, and Rihachi iizuka (Univ. of Tokyo1 and Keio Univ.2) |
2. |
Meiosis-inducing substance in the Amago salmon; identification and synthetic control by gonadotropin. |
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Yoshitaka Nagahama (NIBB) |
3. |
A cytoplasmic factor inducing pole cells in Drosophila embryos. |
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Masukichi Okada and Satoru Kobayashi (Univ. of Tsukuba) |
4. |
Subcellular mechanisms of cell specialization in mosaic eggs. |
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Noriyuki Sato, T. Deno, H. Nishida, I. Miyazawa, T. Nishitaka, and K. Makabe (Kyoto Univ.) |
5. |
Cell diviissiions in relation to blastocyst formation in mammals. |
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Yoshihiro Kato (Mitsubishi-Kasei Inst. of Life Sciences) |
6 |
The effects of disaggregation and dispersion on the activity of genes expressed in Xenopus laevis. |
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Tom Sargent, M. Jamrich, E. Jonas, J. Winkles, S. Miyatani, and Igor B. Dawid (NIH) |
7. |
Ammonium ion and regulation of rDNA expression in Xenopus embryogenesis. |
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K. Shiokawa et al. (Kyushu Univ.) |
8. |
Monoclonal antibodies which have high affinity to embryonic tissues of Xenopus laevis. |
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Harumasa Okamoto and Shohei Mitani (Univ. of Tokyo) |
9. |
Cloning and in situ analysis of the transcripts of the genes in Antennapedia complex of Drosophila melanogaster. |
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Atsushi Kuroiwa1, W. McGinnis2, E. Hafen3, and Walter J. Gehring3 (Metropolitan Inst. for Neuroscieuces1, Yale Univ.2, and Basel Univ.3) |
10. |
Hemoglobin switching in rats. |
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J.W.O. Tam and Chi-chung Hui (Univ. of Hong Kong) |
11. |
Molecular cloning and characterization of cDNA for neuronspecific enolase and non-neuronal enolase mRNA. |
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Kenji Sakimura, Etsuko Kushiya, Masuo Obinata1, and Yasuo Takahashi (Niigata Univ. and Univ. of Tokyo1) |
12. |
In vitro transcription of immunoglobulin gene. |
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Yoshiro Yaoita and Tasuku Honjo (Kyoto Univ.) |
13. |
Analysis of the cellular factors· involved in immunoglobulin gene expression. |
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Takeshi Watanabe (Saga Medical College) |
14. |
Gene regulation for interferons and interleukins. |
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Tadatsugu Taniguchi (Osaka Univ.) |
15. |
Dual regulation of δ-crystallin expression as revealed by xenogenic gene transfer. |
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Hisato Kondoh (Kyoto Univ.) |
16. |
Structure and regulation of vitellogenin genes. |
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Walter Wahli (Univ. of Lausanne) |
17. |
A new way to think about tRNA gene control. |
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E.T. Wilson, Lisa S. Young, and Karen U. Sprague (Univ. of Oregon) |
18. |
Enhanced transcription of fibroin gene in vitro on covalently closed circular templates. |
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Susumu Hirose, Masaaki Tsuda, and Yoshiaki Suzuki (NIBB) |
19. |
Transcriptional regulatory signals of adenovirus early region IV gene. |
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Hiroshi Handa (Univ. of Tokyo) |
20. |
Possible role of the upstream region of the fibroin gene in the formation of transcription complexes in vitro. |
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Masaaki Tsuda, S. Hirose, and Yoshiaki Suzuki (NIBB) |
21. |
Molecular mechanisms of transcription initiation by RNA polymerase I. |
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Masami Muramatsu et al. (Univ. of Tokyo) |
22. |
On the mechanism of expression of vitellogenin gene. |
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Tatsuo Nakayama (Miyazaki Medical College) |
23. |
Differential transcription of fibroin gene and chorion gene in cell-free systems. |
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Yoshiaki Suzuki, Chi-chung Hui, Shigeharu Takiya, Masaaki Tsuda, and Satoko Adachi (NIBB) |
24. |
Mechanisms of the recognition of the splice junctions in mRNA precursors: Possible recongnition factors. |
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Yasumi Ohshima (Univ. of Tsukuba) |
25. |
DNA polymorphisms of the HLA class II antigen genes and differential splicing. |
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H. Inoko, A. Ando, M. Kimura, M. Ito, and K. Tsuji (Tokai Univ.) |
26. |
Tissue-Specific expression of three mRNA species transcribed from a single aldolase A gene. |
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Tsunehiro Mukai, Keiichiro Joh, Yuji Arai, and Katsuji Hori (Saga Medical College) |
27. |
Unusual transcripts of 26K casein gene present in nonlactating mouse mammary glands. |
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Hiroyasu Satow, Senkiti Sakai, and Masuo Obinata (Univ. of Tokyo) |
28. |
Induction of hepatocytes in the pancreas of adult rats: a transdifferentiation model. |
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Janardan K. Reddy (Northwestern Univ.) |
29. |
A unique in vitro system of pigmented epitherial cells for studying molecular mechanisms of transdifferentiation. |
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Goro Eguchi, Y. Itho and K. Agata (NIBB and Aichi Medical College) |
30. |
The expression of chicken cryrtallin genes introduced into mouse teratocarcinoma cells is defferentiation-dependent but not lens-specific. |
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Tokindo S. Okada (NIBB and Kyoto Univ.) |
31. |
Cell-type specific and regulated expression of a human γl immunoglobulin gene in transgenic mouse. |
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Ken-ichi Yamamura (Osaka Univ.) |
32. |
Cloned yolk polypeptide genes integrated into Drosophila chromosomes by P-element mediated gene transfer are regulated normally during development. |
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Toshiki Tamura, C. Kunert, and J. Postlethwait (Univ. of Oregon) |
33. |
Drosophila actin mutants which cause constitutive syntheses of heat shock proteins. |
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Yoshiki Hotta, Yasushi Hiromi, Hitoshi Okamoto, and Etsuko Ishikawa (Univ. of Tokyo) |
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Closing Remarks |
Yoshiaki Suzuki (NIBB) |