Browse > Article
http://dx.doi.org/10.5010/JPB.2014.41.4.236

High-frequency regeneration by stem disc culture in selected clones of Populus euramericana  

Cui, Hae-Yeon (Department of Horticultural Science, Chungbuk National University)
Lee, Hyo-Shin (Division of Forest Tree Improvement, Korea Forest Research Institute)
Oh, Chang-Young (Division of Forest Tree Improvement, Korea Forest Research Institute)
Han, Shim-Hee (Division of Forest Tree Improvement, Korea Forest Research Institute)
Lee, Kyung-Ju (Department of Horticultural Science, Chungbuk National University)
Lee, Hyun-Jeong (Department of Horticultural Science, Chungbuk National University)
Kang, Kyu-Seok (Department of Forest Sciences, College of Agriculture and Life Science, Seoul National University)
Park, So-Young (Department of Horticultural Science, Chungbuk National University)
Publication Information
Journal of Plant Biotechnology / v.41, no.4, 2014 , pp. 236-241 More about this Journal
Abstract
An efficient regeneration protocol for stem disc culture of Populus euramericana, which is important species for bioenergy resource in agroforestry, was established. The number of explants that were obtained and the number of explants that regenerated varied with the genotypes. However, in all the genotypes, stem disc culture produced more regenerated shoots than did in axillary bud culture. A comparison of the effects of cytokinin type and concentration on shoot regeneration in different explants (i.e., petiole, leaf, and root segments of P. euramericana) revealed that a concentration of $0.002mg\;l^{-1}$ thidiazuron (TDZ) used on petiole segments resulted in the greatest shoot regeneration (95.83%). The hormonal requirements for the greatest shoot regeneration in the three explant types varied. Different concentrations of $AgNO_3$ and $CoCl_2$ were added separately to the medium to stop the yellowing and subsequent necrosis of the regenerated shoots. Lower concentrations (3 and $5mg\;l^{-1}$) of these compounds improved shoot regeneration and elongation, compared with the control. The in vitro-regenerated shoots were transferred to rooting medium and subsequently acclimatized. The highly efficient regeneration system of P. euramericana reported here can be used for mass propagation of this recalcitrant for regeneration, economically important tree species.
Keywords
$AgNO_3$; $CoCl_2$; Cytokinin; Genotype; Populu-seuramericana; Stemdiscculture;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Coleman GD, Ernst SG (1990) Shoot induction competence and callus determination in Populus deltoides. Plant Sci 71:83-92   DOI
2 Doerner P (2003) Plant meristems: A merry-go-round of signals review. Curr Biol 13:368-374   DOI
3 Elo A, Immanen J, Nieminen K, Helariutta Y. (2009) Stem cell function during plant vascular development. Semin Cell Dev Biol 20:1097-1106   DOI
4 Ferrante A, Francini A (2006) Ethylene and Leaf Senescence. In: Khan NA (ed) Ethylene action in plants. Springer, Heidelberg, pp 51-67
5 Kang BG, Osburn L, Kopsell D, Cheng ZM (2009) Micropropagatiom of Populus trichocarpa 'Nisqually-1': the genotype deriving the Populus reference genome. Plant Cell Tiss Org Cult 99:251-257   DOI
6 Khattab S (2011) Effect of different media and growth regulators on the in vitro shoot proliferation of Aspen, hybrid aspen and white poplar male tree and molecular analysis of variants in micropropagated plants. Life Sci J 8:177-184
7 Kulkarni AA, Thengane SR, Krishnamurthy KV (2001) Direct shoot regeneration from node, internode, hypocotyls and embryo explants of Withania somnifera. Plant Cell Tiss Org Cult 62:203-209
8 Larson PR (1994) The vascular cambium: Development and Structure. Springer, Berlin
9 Laux T (2003) The stem cell concept in plants: A matter of debate. Cell 113:281-283   DOI
10 Murashige T, Skoog F (1962) A revised medium for rapid growth and bioassay with tabacco cultures. Physiol Plant 15:473-497   DOI
11 Nadel BL, Hazan G, David R, Huttermann A, Altman A (1992) In vitro propagation of Populus species: response to growth regulators and media composition. Acta Hortic 314:61-68
12 Nayak NR, Sahoo S, Patnaik S, Rath SP (2002) Establishment of thin cross section (TCS) culture method for rapid micropropagation of Cymbidium aloifolium (L.) Sw. and Dendrobium nobile Lindl. (Orchidaceae). Sci Hortic 94:107-116   DOI
13 Noel N, Leple JC, Pilate G (2002) Optimization of in vitro micropropagation and regeneration for Populus $\times$ interamerikana and Populus $\times$ euramericana hybrids (P. deltoides, P. trichocarpa and P. nigra). Plant Cell Rep 20:1150-1155   DOI
14 Passey A, Barrett K, James D (2003) Adventitious shoot regeneration from seven commercial strawberry cultivars (Fragaria $\times$ ananassa Duch.) using a range of explants types. Plant Cell Rep 21:397-401   DOI
15 Schrader J, Nilsson J, Mellerowicz E, Berglund A, Nilsson P, Hertzberg M, Sandberg G (2004) A high resolution transcript profile across the wood forming meristem of poplar identifies potential regulators of cambial stem cell identity. Plant Cell 16:2278-2292   DOI
16 Sellmer JC, McCown BH, Haissig BE (1989) Shoot culture dynamics of six Populus clones. Tree Physiol 5:219-227   DOI
17 Sherif FE, Khattab S (2011) Direct shoot regeneration from leaf, root and stem internode segments of male poplar trees and the molecular analysis of variant regenerated plants. J Amer Sci 7:200-206
18 Tsvetkov I, Hausman JF, Jouve L (2007) Thidiazuron induced regeneration in root segments of white poplar (P. alba L.). Bulgarian J Agri Sci 13:623-626
19 Tuskan GA, DiFazio S, Jansson S (2006) The Genome of Black Cottonwood, Populus trichocarpa (Torr. & Gray). Science 313:1596-1604   DOI   ScienceOn
20 Wullscheleger SD, Jansson S, Taylor G (2002) Genomics and Forest Biology: Populus emerges as the perennial favourite. Plant Cell 14:2651-2655   DOI