Browse > Article
http://dx.doi.org/10.12791/KSBEC.2013.22.3.241

Factors Affecting In Vitro Minimal Growth Conservation of Sedum sarmentosum  

Lee, Seung Yeob (Institute of Life Science and Natural Resources, Wonkwang University)
Kwon, Tae Oh (Institute of Life Science and Natural Resources, Wonkwang University)
Publication Information
Journal of Bio-Environment Control / v.22, no.3, 2013 , pp. 241-247 More about this Journal
Abstract
For in vitro minimal-growth conservation of S. sarmentosum, the in vitro shoots with 10 mm length were cultured on Murashige and Skoog's media (MS) containing different levels of agar (0.8, 1.2, 1.6, 2%), Gelrite (0.4, 0.6, 0.8, 1%), ABA (0, 5, 10, $20mg{\cdot}L^{-1}$), and sucrose (2, 3, 6, and 9%) without subculture at $4^{\circ}C$ and $25^{\circ}C$. All media were supplemented with $0.2mg{\cdot}L^{-1}$ BA, agar and Gelrite media, with 5% sucrose, sucrose media, with 1.2% agar, and ABA media, with 5% sucrose and 1.2% agar, respectively. In vitro minimal-growth conservation in room-temperature ($25^{\circ}C$) was effective in the media containing with $10mg{\cdot}L^{-1}$ ABA or 1.6% agar, and the healthy plantlets could be preserved for 10 months without subculture. After 12 months at $4^{\circ}C$, survival rate was 100% in all media. The in vitro minimal-growth conservation in low temperature ($4^{\circ}C$) was effective in the media containing with $10mg{\cdot}L^{-1}$ ABA or 6% sucrose, and the healthy plantlets could be preserved over 18 months without subculture. Especially, long-term conservation using minimal growth of S. sarmentosum was much more efficient in the medium containing high level sucrose at $4^{\circ}C$ compared to others.
Keywords
ABA; agar; Gelrite; slow growth; sucrose; vine length;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Akdemir, H., E. Kaya, and Y. Ozden. 2010. In vitro proliferation and minimum growth storage of fraser photinia: Influences of different medium, sugar combinations and culture vessels. Sci. Hort. 126:268-275.   DOI
2 Belokurova V.B. 2010. Methods of biotechnology in system of efforts aimed at plant biodiversity preservation (Review). Cytol. Genet. (Russ.) 44:174-185.   DOI
3 Dussert, S., N. Chabrillange, F. Anthony, F. Engelmann, C. Recalt, and S. Hamon. 1997. Variability in storage response within a coffee (Coffea spp.) core collection under slow growth conditions. Plant Cell Rep. 16:344-348.
4 Bertrand-Desbrunais, A., M. Noirt, and A. Charrier. 1992. Slow growth in vitro conservation of coffee (Coffee spp.). Plant Cell Tiss. Org. Cult. 31: 105-110.   DOI
5 Cho, H.M., J.Y. Lee, and K.W. Park. 1998. In vitro long term conservation of potato germplasms. Kor. J. Hort. Sci. Tech. 16:508-510.
6 Gopal, J. and N.S. Chauhan. 2010. Slow growth in vitro conservation of potato germplasm at low temperature. Potato Res. 53:141-149.   DOI
7 Gopal, J., A. Chamail, and D. Sarkar. 2002. Slow-growth in vitro conservation of potato germplasm at normal propagation temperature. Potato Res. 45:203-213.   DOI
8 Gopal J., A. Chamail, and D. Sarkar. 2004. In vitro production of microtubers for conservation of potato germplasm: Effect of genotype, abscisic acid, and sucrose. In Vitro Cell. Dev. Biol. -Plant 40:485-490.   DOI
9 Gopal, J., K. Iwama, and Y. Jitsuyama. 2008. Effect of water stress mediated through agar on in vitro growth of potato. In Vitro Cell. Dev. Biol. -Plant 44:221-228.   DOI
10 Islam, M.T., D.P. Dembele, and E.R.J. Keller. 2005. Influence of explant, temperature and different culture vessels on in vitro culture for germplasm maintenance of four mint accessions. Plant Cell Tiss. Org. Cult. 81:123-130.   DOI
11 Morata B.R., A. Arrillaga, and J. Segura. 2006. In vitro storage of cedar shoot cultures under minimal growth conditions. Plant Cell Rep. 25:636-642.   DOI
12 Murashige, T. and F. Skoog. 1962. A revised medium for rapid growth and bioassays with tobacco tissue culture. Physiol. Plant 15:473-497.   DOI
13 Kang, T.H., H.O. Pae, J.C. Yoo, N.Y. Kim, Y.C. Kim, G.I. Ko, and H.T. Chung. 2000. Antiproliferative effects of alkaloids effects from Sedum sarmentosum on murine and human hepatoma cell line. J. Ethnopharmacol. 70:177-182.   DOI
14 Kovalchuk, I., Y. Lyudvikova, M. Volgina, and B.M. Reed. 2009. Medium, container and genotype all influence in vitro cold storage of apple germplasm. Plant Cell Tiss. Org. Cult. 96:127-136.   DOI
15 Marino, G., P. Negri, A. Cellini, and A. Masia. 2010. Effect of carbohydrates on in vitro low-temperature storage of shoot cultures of apricot. Sci. Hort. 126:434-440.   DOI
16 Park, Y.J., M.H. Kim, and S.J. Bae. 2002. Enhancement of anticarcinogenic effect by combination of Sedum sarmentosum Bunge with Platycodon grandiflorum A. extracts. Kor. Soc. Food Sci. Nutr. 31:136-142.   DOI
17 Reed, B.M. 1992. Cold storage of strawberries in vitro: a comparison of three storage systems. Fruit Var. J. 46:98-102.
18 Reed, B.M. 2002. Photoperiod improves long-term survival of in vitro-stored strawberry plantlets. HortScience 37:811-814.
19 Sarkar, D. and P.S. Naik. 1998. Factors affecting minimal growth conservation of potato microplants in vitro. Euphytica 102:275-280.   DOI
20 Westcott, R.J., 1981. Tissue culture storage of potato germplasm. 1. Minimal growth storage. Potato Res. 24:331-342.   DOI
21 Shibli, R.A., M.A.L. Smith, and L.A. Spomer. 1992. Osmotic adjustment and growth responses of three (Chrysanthemum morifolium Ramat) cultivars to osmotic stress induced in vitro. J. Plant Nutr. 15:1373-1381.   DOI
22 Souza, F.V.D., T.L. Soares, J.R.S. Cabral, D.H. Reinhardt, J.L. Cardoso, and D.A. Benjamin. 2005. Slow-growth conditions for the in vitro conservation of pineapple germplasm. Acta Hort. 702:41-45.
23 Wang, P.J. and A. Charles. 1991. Micropropagation through meristem culture. p. 32-52. In; Bajaj, Y.P.S. (Ed). Biotechnology in agriculture and forestry. High Tech and micropropagation. vol. 17. Springer, Berlin Heidelberg New York.
24 Watt M.P., N.L. Thokoane, D. Mycock, and F. Blakeway. 2000. In vitro storage of Eucalyptus grandis germplasm under minimal growth conditions. Plant Cell Tiss. Org. Cult. 61:161-164.   DOI
25 Wilson, S.B., N.C. Rajapakse, and R.E. Young. 2000. Media composition and light affect storability and poststorage recovery of micropropagated hosta plantlets. HortScience 35:1159-1162.