Abstract
Factors which affect the overall in vitro production efficiency of rice plantlets were studied. Highly efficient plant regeneration systems utilizing liquid medium ( >5000 plantlets / g callus / 6 weeks) have been developed. Field performance trials of the regenerated plants were carried out, and changes in agronomic features (i.e. culm length, heading date, fertility) were observed.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Chu, C.C., Wang, C.C., Sun, C.S., Hsu, C., Yin, K.C., Chu, C.Y., and Bi, F.Y. (1975) ‘Establishment of an efficient medium for anther culture of rice through comparative experiments on the nitrogen sources’, Sci. Sin., 659–668.
Henke, R.R., Mansas, M.A., Constantin, M.J. (1978) ‘Organogenesis and plantlet formation from organ and seedling derived calli of rice (Oryza sativa)’, Physiol. Plant. 44, 11–13.
Heyser, J.W., Dykes, T.A., DeMott, K.J., and Nabors, N.W. (1983) ‘High frequency, long term regeneration of rice from callus culture’, Plant Sci. Lett. 29, 175–182.
Inoue, M. and Maeda, E. (1980) ‘Effects of auxins and cytokinins on the occurrence of green regions in rice callus cultures’, Jpn. J. Crop Sci. 49, 167–174.
Kavi Kishor, P.B. (1987) ‘Energy and osmotic requirement for high frequency regeneration of rice plants from long-term cultures’, Plant Science 48, 189–194.
Kavi Kishor, P.B. and Reddy, G.M. (1986a) ‘Regeneration of plants from long-term cultures of Oryza sativa L.’. Plant Cell Reports 5, 391–393.
Kavi Kishor, P.B. and Reddy, G.M. (1986b) ‘Retention and revival of regenerating ability by osmotic adjustment in long-term culture of four varieties of rice’, J.Plant Physiol. 126,49–54.
Kawata, S. and Ishihara, A. (1968) ‘The regeneration of rice plant,Oryza sativa L., in the callus derived from the seminal root’ Proc Jpn. Acad. 44, 549–553.
Kishinami, I. (1987) ‘Accumulation of gamma-aminobutyric acid due to ammonium in various cultured plant cell’, Plant Cell Physiol. 28,1459–1464.
Kishinami, I. (1988) ‘Effects of auxins (2,4-dichlorophenoxyacetic acid, indole-3-acetic acid and naphthaleneacetic acid) on the accumulation of gamma-aminobutyric acid in excised rice root tips’, Plant Cell Physiol. 29, 581–585.
Kishinami, I. and Ojima, K. (1980) ‘Accumulation of gamma-aminobutyric acid due to adding ammonium or glutamine to cultured rice cells’, Plant Cell Physiol. 21, 581–589.
Kobayashi, H. and Hirosawa, T. (1991a) ‘Improved plantlet regeneration in the rice (Oryza sativa L.) suspension culture’, Jpn. J. Breed. 41 suppl. 1, 22–23.
Kobayashi, H. and Hirosawa, T. (1991b) ‘Effect of osmotica on the plantlet regeneration in rice suspension culture’, Jpn. J. Breed. suppl. 2, 254–255.
Lai, K.L. and Liu, L.F. (1988) ‘Increased plant regeneration frequency in water-stressed rice tissue culture’, Jpn. J. Crop Sci. 57,553–557.
Maeda, E. (1968) ‘Subculture and organ formation in the callus derived from rice embryos in vitro’, Proc. Crop Sci. Soc Jpn. 37, 51–58.
Matsuno, T., Ishizaki, K., and Horn M.E. (1990a) ‘Establishment of mass production systems by somatic embryogenesis in rice I’ Jpn. J. Breed. 40 suppl. 1, 266–267.
Matsuno, T., Maruyama, K. and Hirosawa, T. (1990b) ‘Applicability of rice scutellar embryonic callus methods among different types of rice’, Proc. 2nd Plant Tissue Culture Colloquium, 100–101.
Matsuno, T. and Murayama, H. (1990c) ‘Effects of osmotic potentials and gel strength on SE conversion in rice’, Jpn. J. Breed. 40 suppl. 2, 50–51.
Matsuno, T., Tsukahara, M., Shimizu, A., Osanai, E.,and Kobayashi, O. (1991) ‘Variations observed among R-0 regenerants from rice tissue culture’, Jpn. J. Breed. 41 suppl. 2, 312–313.
Nabors, M.W., Heyser, J.W., Dykes, T.A. and DeMott, K.J. (1983) ‘Long-duration,high-frequency plant regeneration from cereal tissue cultures’, Planta 157, 385–391.
Niizeki, H. and Oono, K. ‘Induction of haploid rice plant from anther culture’, Proc Jpn. Acad. 44, 544–557.
Nishi, T., Yamada, Y., and Takahashi, E. (1968) ‘Organ redifferen tiation and plant restoration in rice callus’, Nature 219, 508–509.
Okamoto, A. Sakurazawa, H. and Hirosawa, T.(1991) ‘Optimization of rice cell culture by nitrogen feeding’, Nippon Nogeikagaku Kaishi 65, 607.
Oono, K. (1975) ‘Production of haploid plants of rice(Oryza sativa) by anther culture and their use for breeding’, Bul. Natl. Inst. Sci. Jpn. 26, 139–222.
Ozawa, K. and Komamine, A. (1989) ‘Establishment of a system of high-frequency embryogenesis from long-term cell suspension culture of rice (Oryza sativa L.)’, Theor. Appl. Genet. 77, 205–211.
Tanaka, R. (1983) ‘Cloning of useful plants’ in Seedling industries and new breeding techniques, CMC Press, Tokyo.
Tamura, S. (1968) ‘Shoot formation in calli originated from rice embryo’, Proc. Jpn. Acad. 44, 544–548.
Tsukahara, M. and Hirosawa, T. (1992) ‘Characterization of factors affecting plantlet regeneration from rice (Oryza sativa L.) callus’ Bot. Mag. Tokyo 1078, in press.
Tsukahara, M. and Hirosawa, T. (1991) ‘Characterization of factors affecting the regeneration of plantlets in the rice suspension culture’, Proc Ann. Met. Jpn. Soc Plant. Physiol.,90.
Yoshida T., Otsuki Y., Oda F. and Ko J. (1989) ’In vitro propagation of rice Fl. 1. Application of liquid culture and efficient plant regeneration, Jpn. J. Breed. 38, suppl 2, 140–141.
Wurtele, E.S, Keller G.L., Nikolau, B.J., Ulrich, T.H.(1988) ‘Quantitation of starch and ADP-glucose pyrophosphorylase in non-embryogenic cells and embryogenic cell clusters from carrot suspension cultures’, J. Plant Physiol. 132,683–689.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1992 Kluwer Academic Publishers
About this chapter
Cite this chapter
Hirosawa, T. (1992). In Vitro Mass Propagation of Rice. In: Kurata, K., Kozai, T. (eds) Transplant Production Systems. Springer, Dordrecht. https://doi.org/10.1007/978-94-011-2785-1_11
Download citation
DOI: https://doi.org/10.1007/978-94-011-2785-1_11
Publisher Name: Springer, Dordrecht
Print ISBN: 978-0-7923-1797-5
Online ISBN: 978-94-011-2785-1
eBook Packages: Springer Book Archive