Program |
Welcome Address : T. S. Okada (Director General, Nat. Inst. for Basic Biol.) |
Opening : Norio Murata (Nat. Inst. for Basic Biol.), Organizer |
1. |
What next in plant lipid metabolism? |
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Roughan, G. (DSIR) |
2. |
Genetic modification of lipid composition in Arabidopsis. |
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Somerville, C. and Browse, J. (Michigan State Univ.) |
3. |
Molecular structure and expression of fatty acid synthetase in maturing seeds of Brassica napus. |
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Slabas, A. R., Davies C., Hellyer, A. Mackintosh, R. W., Sheider, P. Hardie, G. D., Kekwick, R. G. O. and Safford, R. (Unilever Research) |
4. |
Expression of spinach ACP- I in Escherichia coli and regulation of ACP mRNA levels during seed and leaf development of soybean. |
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Ohlrogge, J.B., Beremand, P. D., Guerra, D. J. and Hannapel, D. J. (Michigan State Univ.) |
5. |
Structure of fatty acid synthetases. |
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Akihiko Kawaguchi (Univ. of Tokyo) |
6. |
Isoforms of non-specific lipid transfer proteins from germinated caster bean seeds and the biosynthesis of these proteins. |
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Yamada, M., Tsuboi, S., Ozeki, Y. and Takishima, K. (Univ. of Tokyo) |
7. |
Cloning and nucleotide sequence of cDNAs for maize lipid-transfer protein. |
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Arondel, V., Tchang, F., Morch, M. D., Delseny, M., Puigdomenech, P. and Kader J. C. (Univ. Pierre et Marie Curie) |
8. |
Comparison of the enzyme properties of the glycerol-3-phosphate acyltransferase sys tern from different subcellular compartments of higher plants. |
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Frentzen, M. (Univ. Hamburg) |
9. |
Glycerol-3-phosphate acyltransferase from squash chloroplasts and its cDNA cloning. |
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Murata, N., Ishizaki, O., Nishida, I., Agata, K. and Frentzen, M. (Nat. Inst. for Basic Biol.) |
10. |
Metabolism of monogalactosyldiacylglycerol in cyanobacteria. |
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Jaworski, J. (Univ. of Miami) |
11. |
Solubilization, assay and partial purification of UDP-galactose: diacylglycerol galactosyltransferase from spinach chloroplast envelope. |
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Coves, J., Joyard, J. and Douce, R. (CEN) |
12. |
Genetic manipulation of phospholipid biogenesis in Escherichia coli. |
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Shibuya, I. (Saitama Univ.) |
13. |
Structure and transcription of the yeast genes for phosphatidylcholine synthesis. |
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Yamashita, S. (Gunma Univ. School of Medicine) |
14. |
Cell and molecular biology of lipid bodies in maize. |
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Huang, A. (Univ. of South Carolina) |
15. |
Genetic engineering of oilseed Brassicas. |
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Perchorowicz, J. T. (Calgene) |
16. |
Acyltransferases in developing safflower seeds. |
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Ichihara, K. (Kyoto Prefectural Univ.) |
17. |
Immunochemical aspects of lipid transfer proteins and acyltransferases in plants. |
|
Douady, D., Dubacq, J. P., Guerbette, G. F. and Kader, J. C. (Univ. Pierre et Marie Curie) |
18. |
Molecular species, biological activity and biogenesis of plant sphingolipids. |
|
Itoh, S. and Ohnishi, M. (Obihiro Univ. of Agriculture and Veterinary Medicine) |
19. |
Characterization of plastid glycerol-3-phosphate acyltransferase. |
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Nishida, I., Dubacq, J. P., Ishizaki, 0. and Murata, N. (Nat. Inst. for Basic Biol.) |
20. |
Biosynthesis of the homoserine lipid. |
|
Sato, N. (Univ. of Tokyo) |
21. |
Phosphatidylglycerol of Citrus leaves. |
|
Sekiya, J. (Okayama Univ.) |