既出文献等一覧

1990年以前

                            197379  198085 198689

 

 

19731979

      

1.       Kamisaka, S., N. Sakurai and Y. Masuda. (1973) Auxin-induced growth of tuber tissue of Jerusalem artichoke VIII. Role of cyclic AMP in the action of auxin, cytokinin and gibberellic acid.  Plant Cell Physiol. 14: 183-193. (2.259)

2.       Sakurai, N., K. Shibata and S. Kamisaka. (1974) Stimulation of cucumber hypocotyl elongation by dihydroconiferyl alcohol.  Interaction between dihydroconiferyl alcohol and auxin or gibberellin. Plant Cell Physiol. 15: 709-716. (2.259)

3.       Sakurai, N., K. Shibata and S. Kamisaka. (1975) Stimulation of auxin-induced elongation of cucumber hypocotyl sections by dihydroconiferyl alcohol. Dihydroconiferyl alcohol inhibits indole-3-acetic acid degradation in vivo and in vitro.  Plant Cell Physiol. 16: 845-855. (2.259)

4.       Sakurai, N., D. J. Nevins and Y. Masuda. (1977) Auxin- and hydrogen ion-induced cell wall loosening and cell extension in Avena coleoptile segments. Plant Cell Physiol. 18: 371-380. (Index 30)

5.       Sakurai, N. and Y. Masuda. (1977) Effect of indole-3-acetic acid on cell wall loosening: Changes in mechanical properties and noncellulosic glucose content of Avena coleoptile cell wall. Plant Cell Physiol. 18: 587-594. (Index 60)

6.       Masuda, Y., N. Sakurai, M. Tazawa and T. Shimmen. (1978) Effect of osmotic shock on auxin-induced cell extension, cell wall changes and acidification in Avena coleoptile segments. Plant Cell Physiol. 19: 857-867. (2.259)

7.       Sakurai, N. and Y. Masuda. (1978) Auxin-induced changes in barley coleoptile cell wall composition. Plant Cell Physiol. 19: 1217-1223. (Index 38)

8.       Sakurai, N. and Y. Masuda. (1978) Auxin-induced extension, cell wall loosening and changes in the wall polysaccharide content of barley coleoptile segments. Plant Cell Physiol. 19: 1225-1233. (2.259)

9.       Sakurai, N. and Y. Masuda. (1979) Effect of cycloheximide and cordycepin on auxin-induced elongation and b-glucan degradation of noncellulosic polysaccharides of Avena coleoptile cell wall. Plant Cell Physiol. 20: 593-603.

10.    Sakurai, N., K. Nishitani and Y. Masuda. (1979) Auxin-induced changes in molecular weight of hemicellulosic polysaccharides of Avena coleoptile cell wall. Plant Cell Physiol. 20: 1349-1357. (Index 42)

 

 19801985

 

11.   Yamamoto, R., N. Sakurai, K. Shibata and Y. Masuda. (1980) Effect of auxin on the structure of hemicelluloses of Avena coleoptiles. Plant Cell Physiol. 21: 373-381.

12.   Yamamoto, R., N. Sakurai and Y. Masuda. (1981) Inhibition of auxin-induced cell elongation by galactose. Physiol. Plant. 53: 543-547. (2.460)

13.   Sakurai, N., S. Fujihara, R. Yamamoto and Y. Masuda. (1982) A stress-relaxation parameter b of the oat coleoptile cell wall and its implication in cell wall loosening. J. Plant Growth Regul. 1: 75-83. (0.694)

14.   Inouhe, M., N. Sakurai and S. Kuraishi. (1982) Growth regulation of dark-grown dwarf barley coleoptile by the endogenous IAA content. Plant Cell Physiol. 23: 689-698.

15.   Sakurai, N., M. Inouhe, Y. Masuda and S. Kuraishi. (1983) Growth regulation in dwarf barley coleoptiles by the minor cell wall components, galactose and mannose. Plant Cell Physiol. 24: 317-325. (2.259)

16.   Kamisaka, S., N. Sakurai and K. Shibata. (1983) Stimulation by dihydroconiferyl alcohol of auxin-induced cell expansion in Helianthus tuberosus L. tuber slices. Plant Cell Physiol. 24: 369-377.

17.   Akiyama, M., N. Sakurai and S. Kuraishi. (1983) A simplified method for the quantitative determination of indoleacetic acid by high performance liquid chromatography with a fluorometric detector. Plant Cell Physiol. 24: 1431-1439.

18.   Sakurai, N., S. Kuraishi, M. Inouhe and Y. Masuda. (1984) Growth and stress-relaxation parameters for the cell wall of normal and 10 dwarf barley strains. Plant Cell Physiol. 25: 721-729.

19.   Sakurai, N. and S. Kuraishi. (1984) Sugar compositions, intrinsic viscosities and molecular weights of hemicellulosic polysaccharides of the coleoptile cell walls in a semi-brachytic and a normal type barley. Plant Cell Physiol. 25: 955-963.

20.   Sakurai, N., M. Akiyama and S. Kuraishi. (1985) Roles of abscisic acid and indoleacetic acid in the stunted growth of water-stressed etiolated squash hypocotyls. Plant Cell Physiol. 26: 15-24.

21.   Kuraishi, S., D. Kojima, H. Miyauchi, N. Sakurai, H. Tsubota, M. Ninaki, I. Goto and J. Sugi. (1985) Brackish water and soil components of mangrove forests in Iriomote Island, Japan. Biotropica 17: 277-286.

 

 19861989

 

22.   Sakurai, N., M. Akiyama and S. Kuraishi. (1986) Irreversible effects of water stress on growth and stomatal development in cotyledons of etiolated squash seedlings. Plant Cell Physiol. 27: 1177-1185.

23.   Kuraishi, S., T. Ohara and N. Sakurai. (1987) Gas chromatography-flame thermionic detector analysis of cytokinins in etiolated squash seedlings using 14C-BA as an internal standard. Plant Cell Physiol. 28: 1033-1041.

24.   Sakurai, N., S. Tanaka and S. Kuraishi. (1987) Changes in wall polysaccharides of squash (Cucurbita maxima Duch.) hypocotyls under water stress condition I. Wall sugar composition and growth as affected by water stress. Plant Cell Physiol. 28: 1051-1058.

25.   Sakurai, N., S. Tanaka and S. Kuraishi. (1987) Changes in wall polysaccharides of squash (Cucurbita maxima Duch.) hypocotyls under water stress condition II. Composition of pectic and hemicellulosic polysaccharides. Plant Cell Physiol.  28: 1059-1070.

26.   Sakurai, N. and S. Kuraishi. (1988)  Water potential and mechanical properties of the cell wall of hypocotyls of dark-grown squash (Cucurbita maxima Duch.) under water stress-conditions. Plant Cell Physiol. 29: 1337-1343.

27.   Kuraishi, S., D. Yamashita, N. Sakurai and S. Hasegawa. (1989) Changes of abscisic acid and auxin as related to dormancy breaking of Allium wakegi bulblets by vacuum infiltration and BA treatment. J. Plant Growth Regul. 8: 3-9.

28.   Wakabayashi, K., N. Sakurai and S. Kuraishi. (1989) Role of the outer tissue in abscisic acid-mediated growth suppression of etiolated squash hypocotyl segments. Physiol. Plant. 75: 151-156.   

29.   Wakabayashi, K., N. Sakurai and S. Kuraishi. (1989) Effects of ABA on synthesis of cell-wall polysaccharides in segments of etiolated squash hypocotyl I. Changes in incorporation of glucose and myo-inositol into cell-wall components. Plant Cell Physiol. 30: 99-105.

30.   Eun, J.-S., S. Kuraishi and N. Sakurai. (1989) Changes in levels of auxin and abscisic acid and the evolution of ethylene in squash hypocotyls after treatment with brassinolide. Plant Cell Physiol. 30: 807-810.

31.   Kokubo, A., N. Sakurai and S. Kuraishi. (1989) Culm strength of barley. Correlation among maximum bending stress, cell wall dimensions, and cellulose content. Plant Physiol.  91: 876-882.