Plant Regeneration by in vitro Tissue Culture in Korean Soybean (Glycine max L.)
![]() |
Kim, Dong-Gun
(Graduate School, Sunchon National University)
Kantayos, Vipada (Graduate School, Sunchon National University) Kim, Dong-Kwan (Institute of Agricultural Science and Technology, Jellaname-do Agricultural Research and Extension Services) Park, Heung-Gyu (Institute of Agricultural Science and Technology, Jellaname-do Agricultural Research and Extension Services) Kim, Haeng-Hoon (Department of Well-being Bioresources, Sunchon National University) Rha, Eui-Shik (Department of Well-being Bioresources, Sunchon National University) Lee, Sheong Chun (Department of Well-being Bioresources, Sunchon National University) Bae, Chang-Hyu (Department of Well-being Bioresources, Sunchon National University) |
1 | Verma, K., A. Rani and R. Saini. 2011. An efficient plant regeneration system from half seed explants of soybean [Glycine max (L.) Merrill] using thidiazuron. Soybean Res. 8:12-23. |
2 | 하건수, 한태정. 2002. 대두 품종에 따른 자엽절에서의 다신초 형성. Plant Biotechnology. 29:51-57. DOI |
3 | Sellars, R.M., G.M. Southward and G.C. Phillips. 1990. Adventitious somatic embryogenesis from cultured immature zygotic embryos of peanut and soybean. Crop Sci. 30:408-414. DOI |
4 | Shan, Z, K. Raemakers, E.N. Tzitzikas, Z. Ma and R.G.H. Visser. 2005. Development of a highly efficient, repetitive system of organogenesis in soybean (Glycine max (L.) Merr). Plant Cell Rep. 24:507-512. DOI |
5 | Yoshida, T. 2002. Adventitious shoot formation from hypocotyl sections of mature soybean seeds. Breed. Sci. 52:1-8. DOI |
6 | White, D.W.R. and C. Voisey. 1994. Prolific direct plant regeneration from cotyledons of white clover. Plant Cell Rep. 13:303-308. |
7 | Wright, M.S., M.H. Williams, P.E. Pierson and M.G. Carns. 1987. Initiation and propagation of Glycine max L. Merr. plants from tissue-cultured epicotyls. Plant Cell Tiss. Organ Cult. 8:83-90. DOI |
8 | Yang, C., T. Zhao, D. Yu and J. Gai. 2009. Somatic embryogenesis and plant regeneration in Chinese soybean (Glycine max (L.) Merr.) - impacts of mannitol, abscisic acid, and explant age. In Vitro Cell Dev. Biol. Plant. 45:180-188. DOI |
9 | Zia, M., Z.F. Rizvi, R-U. Rehman and M.F. Chaudhary. 2010. Short communication micropropagation of two Pakistani soybean (Glycine max L.) cultivars from cotyledonary nodes. Spanish Journal of Agricultural Res. 8:448-453. DOI |
10 | 김종홍, 배창휴. 1992. 대두자엽조직의 분화에 미치는 2,4-D와 BA의 영향. 순천대학 기초과학연구. 3:47-57. |
11 | 송순영. 2010. 희귀 및 멸종위기 식물 만년콩 (Euchresta japonica Benth.)의 종자 발아 및 기내증식에 관한 연구. 제주대학교 석사학위논문. |
12 | Ma, X.-H. and T.-L. Wu. 2008. Rapid and efficient regeneration in soybean〔Glycine max (L.) Merrill〕from whole cotyledonary node explants. Acta Physiol. Plant 30:209-216. DOI |
13 | Malik, K.A. and P.K. Saxena. 1992. Regeneration in Phaseolus vulgaris L. High frequency induction of direct shoot fromation in intact seeding by benzylaminopurine and thidiazuron. Planta 186:384-389. |
14 | Mante, S., R. Scorza and J. Cordts. 1989. A simple, rapid protocol for adventitious shoot development from mature cotyledons of Glycine max cv. Bragg. In Vitro Cell. Dev. Biol. 25:385-388. DOI |
15 | Sairam, R.V., G. Franklin, R. Hassel, B. Smith, K. Meeker, N. Kashikar, M. Parani, D. Al. Abed, S. Ismail, K. Berry and S.L. Goldman. 2003. A study on the effect of genotypes, plant growth regulators and sugars in promoting plant regeneration via organogenesis from soybean cotyledonary nodal callus. Plant Cell Tiss. Organ Cult. 75:79-85. DOI |
16 | Marele, D. 2013. Influence of kinetin on organogenesis of soybean in vitro. Zootehnie si Technologii de Industrie Alimentara 9:163-166. |
17 | Murashige, T. and F. Skoog. 1962. A revised medium for rapid growth and bioassay with tobacco tissue cultures. Physiol. Plant. 15:473-497. DOI |
18 | Rajasekaran, K. and J.W. Pellow. 1997. Somatic embryogenesis from cultured epicotyls and primary leaves of soybean [Glycine max (L.) Merrill]. In Vitro Cell Dev. Bio. Plant. 33:88-91. |
19 | Saka, H., T.H. Voqui-Dinh and T-Y Cheng. 1980. Stimulation of multiple shoot formation on soybean stem nodes in culture. Plant Sci. Lett. 19:193-201. DOI |
20 | Santarém, E.R., B. Pelissier and J.J. Finer. 1997. Effect of explant orientation, pH, solidifying agent and wounding on initiation of soybean somatic embryo. In Vitro Cell Dev. Bio. Plant. 33:13-19. DOI |
21 | Ko, T.S. and S.S. Korban. 2004. Enhancing the frequency of somatic embryogenesis following Agrobacterium-mediated transformation of immature cotyledons of soybean [Glycine max (L.) Merrill.]. In Vitro Cell Dev. Biol. Plant. 40:552-558. DOI |
22 | Kita, Y., K. Nishizawa, M. Takahashi, M. Kitayama and M. Ishimoto. 2007. Genetic improvement of the somatic embryogenesis and regeneration in soybean and transformation of the improved breeding lines. Plant Cell Rep. 26:439-447. DOI |
23 | Klink, V.P., M.H. MacDonald, V.E. Martins, S.C. Park, K.H. Kim, S.H. Baek and B.F. Matthews. 2008. A new diminutive Glycine max genotype with a rapid life cycle, embryogenic potential and transformation capabilities. Plant Cell Tiss. Organ Cult. 92:183-195. DOI |
24 | Lazzeri, P.A., D.F. Hildebrand and G.B. Collins. 1987. Soybean somatic embryogenesis effect of nutritional, physical and chemical factors. Plant Mol. Biol. Rep. 10:209-220. |
25 | Komatsuda, T. and K. Ohyama. 1988. Genotypes of high competence for somatic embryogenesis and plant regeneration in soybean Glycine max. Theor. Appl. Genet. 75:695-700. |
26 | Kwon, S.J., K.Y. Cho and H.H. Kim. 2014. Medium composition and growth regulator on organogenesis Platycodon grandiflorum (Jacq.) A. D.C with yellow green petals. Korean J. Plant Res. 27(1):43-50 (in Korean). DOI |
27 | Lim, H.S., T.S. Ko, K.N. Lambert, H.G. Kim, S.S. Korban, G.L. Hartman and L.L. Domier. 2005. Soybean mosaic virus helper component-protease enhances somatic embryo production and stabilizes transgene expression in soybean. Plant Physiol. Biochem. 43:1014-1021. DOI |
28 | Liu, Q.Q., G. Chen, J.Y. Gai, Y.L. Zhu, L.F. Yang, G.P. Wei and C. Wang. 2010. Highly efficient shoot regeneration from cotyledonary nodes of vegetable soybean. Kor. J. Hort. Sci. Technol. 28:307-313. |
29 | Hiraga, S., H. Minakawa, K. Takahashi, R. Takahashi, M. Hajika, K. Harad and N. Ohtsubo. 2007. Evaluation of somatic embryogenesis from immature cotyledons of Japanese soybean cultivars. Plant Biotechnol. 24:435-440. DOI |
30 | Gamborg, O.L., R.A. Miller and K. Ojima. 1968. Nutrient requirements of suspension cultures of soybean root cells. Exp. Cell. Res. 50:151-158. DOI |
31 | Hofmann, N., L.N. Randall and S.S. Korban. 2004. Influence of media components and pH on somatic embryogensis induction in three genotypes soybean. Plant Cell Tiss. Organ Cult. 77:157-163. DOI |
32 | Joyner, E.Y., L.S. Boykin and M.A. Lodhi. 2010. Callus induction and organogenesis in soybean [Glycine max (L.) Merr.] cv. pyramid from mature cotyledons and embryos. The Open Plant Sci. J. 4:18-21. DOI |
33 | Kaneda, Y., Y. Tabei, S. Nishimura, K. Harada, T. Akihama and K. Kitamura. 1997. Combination of thidiazuron and basal media with low salt concentrations increases the frequency of shoot organogenesis in soybeans [Glycine max(L.) Merr.]. Plant Cell Rep. 17:8-12. DOI |
34 | Kim, D-g. 2016. Regeneration ability of Korean soybean (Glycine max L.) cultivars by in vitro tissue culture. Department of Life Resources, M.S. Thesis, Sunchon National Univ., Korea. pp. 1-40 (in Korean). |
35 | Kim, K.H., H.K. Park, M.S. Park and U.D. Yeo. 2001. Effects of auxins and cytokinins on organogenesis of soybean Glycine max L. J. Plant Biol. 3:95-100. |
36 | Kim, M.-J. and K.-S. Kim. 2005. Functional and chemical composition of Hwanggumkong, Yakong and Huktae. Korean J. Food Coookery Sci. 6:844-850 (in Korean). |
37 | Kim, Y.H., H.M. Park, M.S. Choi, S.I. Sohn, D.B. Shin and J.Y. Lee. 2008. Efficient transformation method of soybean using meristemic tissues of germinating seeds. Korean J. Breed. Sci. 40(3):278-285 (in Korean). |
38 | Bean, S.J., P.S. Gooding, P.M. Mullineaux and D.R. Davies. 1997. A simple system for pea transformation. Plant Cell Rep. 16:513-519. DOI |
39 | Arun, M., K. Subramanyam, J. Theboral, A. Ganapathi and M. Manickavasagam. 2014. Optimized shoot regeneration for Indian soybean: the influence of exogenous polymines. Plant Cell. Tiss. Organ Cult. 117:305-309. DOI |
40 | Bailey, M.A., H.R. Boerma and W.A. Parrott. 1993. Genotype effects on proliferative embryogenesis and plant regeneration of soybean. Cell Dev. Biol. Plant 29:102-108. DOI |
41 | Bhagwat, B., L.G.E. Vieira and L.R. Ericson. 1996. Stimulation of in vitro shoot proliferation from nodal explants of cassava by thidiazuron, benzyladenine and gibberellic acid. Plant Cell Tiss. Organ Cult. 46:1-7. DOI |
42 | Dan, Y. and N.A. Reichert. 1998. Organogenic regeneration of soybean from hypocotyl explants. In Vitro Cell Dev. Biol. Plant. 34:14-21. |
43 | Finer, J.J. and A. Nagasawa. 1988. Development of an embryogenic suspension culture of soybean (Glycine max Merill). Plant Cell Tissue. Organ Cult. 15:125-136. DOI |
44 | Franklin, G., L. Carpenter, E. Davis, C.S. Reddy, D. Al-Abed, W.A. Alaiwi, M. Parani, B. Smith, S.L. Goldman and R.V. Sairam. 2004. Factors influencing regeneration of soybean from mature and immature cotyledons. Plant Growth Regul. 43:73-79. DOI |
![]() |