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Vol. 14 No. 3 (2015)

Articles

EVALUATION OF THE GENETIC STABILITY OF PLANTS OBTAINED VIA SOMATIC EMBRYOGENESIS IN Chrysanthemum × grandiflorum (Ramat./Kitam.)

Submitted: November 9, 2020
Published: 2015-06-30

Abstract

Genetic and phenotypic stability of plants obtained via somatic embryogenesis may be disrupted. The reason can be an indirect regeneration of somatic embryos via callus or a high concentration of growth regulators added at the induction stage of somatic embryos. Somatic embryogenesis of ‘Lady Salmon’ (chimeric) and ‘Lady Vitroflora’ (non-chimeric) cultivars was induced on modified Murashige and Skoog (MS) media, supplemented with 2,4-dichlorophenoxyacetic acid (2,4-D) and kinetin (KIN) or 6-benzylaminopurine (BAP). Flow cytometry (FCM) revealed that the plants derived from somatic embryos of both cultivars maintained the ploidy of control plants obtained from the meristem. The colour and pigment content of the inflorescence of plants derived from somatic embryos of ‘Lady Vitroflora’ were similar to the original control plants. However, the ray florets of clones of ‘Lady Salmon’ did not contain carotenoids, characteristic for this cultivar, and consequently produced flowers of different colours. Thus, somatic embryogenesis in chrysanthemums can be applied for separating periclinal chimera components for chimeric cultivars and for receiving an additional source of variation in the breeding of cultivars. In the case of genetically homogeneous cultivars it can be
used in production laboratories for cloning plants in vitro via somatic embryogenesis.

References

Czajka, E., Jerzy, M., Lema-Rumińska, J., Zalewska, M. (2009). Occurrence of pigments in the leaves of Lamiaceae cover perennials depending on the cultivation stand of plants. University of Technology and Life Sciences Press, Bydgoszcz. Understanding the requirements for development of agricultural production and of rural areas in the Kuyavian-Pomeraian Province as a result of scientific research, E, Śliwińska, E., Spychaj-Fabisiak (eds), 107–116.
Currais, L., Loureiro, J., Santos, C., Canhoto, J.M. (2013). Ploidy stability in embryogenic cultures and regenerated plantlets of tamarillo. Plant Cell Tiss. Organ Cult., 114, 149–159.
Doležel, J., Bartos, J. (2005). Plant DNA flow cytometry and estimation of nuclear genome size. Ann. Bot., 95, 99–110.
Escobedo-GraciaMedrano, R.M., Maldonado-Borges, J.I., Burgos-Tan, M.J., Valadez-González, N., Ku-Cauich, J.R. (2014). Using flow cytometry and cytological analyses to assess the genetic stability of somatic embryo-derived plantlets from embryogenic Musa acuminata Colla (AA) ssp. malaccensis cell suspension cultures. Plant Cell Tiss. Organ Cult., 116, 175–185.
Jerzy, M., Zalewska, M., Piszczek, P. (1991). Mutagenesis in Dendranthema grandiflora Tzvelev induced in vitro by X – and gamma rays. Hod. Rośl. Nas., 3, 24–29.
Karp, A., 1995. Somaclonal variation as a tool for crop improvement. Euphytica, 85, 295–302.
Konieczny, R., Sliwinska, E., Pilarska, M., Tuleja, M. (2012). Morphohistological and flow cytometric analyses of somatic embryogenesis in Trifolium nigrescens Viv. Plant Cell Tiss. Organ Cult., 109, 131–141.
Lema-Rumińska, J., Niedojadło, J. (2014). Somatic embryogenesis in chrysanthemum Lady mutants and its histological analysis. Prop. Ornam. Plants, 14(4), 177–183
Lema-Rumińska, J., Zalewska, M. (2005). Changes in flower colour among Lady group of chrysanthemum (Dendranthema grandiflora Tzvelev) as a result of mutation breeding. Folia Hortic., 17, 61–72.
Lema-Rumińska, J., Woźny, A., Zalewska, M., Łysiak, S. (2013). Analysis of the colour of petals and leaves in chrysanthemum in the aspect of all-year-round cultivation in glasshause. Acta Sci. Pol. Hortorum Cultus, 12(2), 123–132.
Mandal, A.K.A., Chakrabarty, D., Datta, S.K. (2000). In vitro isolation of solid novel flower colour mutants from induced chimeric ray florets of chrysanthemum. Euphytica, 114, 9–12.
May, R.A., Trigiano, R.N. (1991). Somatic embryogenesis and plant regeneration from leaves of Dendranthema grandiflora. J. Amer. Soc. Hort. Sci., 116, 366–371.
Murashige, T., Skoog, F. (1962). A revised medium for rapid growth and bio assays with tobacco tissue cultures. Physiol. Plant., 15, 473–497.
Naing, A.H., Kim, C.K., Yun, B.J., Jin, J.Y., Lim, K.B. (2013a). Primary and secondary somatic embryogenesis in Chrysanthemum cv. Euro. Plant Cell Tiss. Organ Cult., 112, 361–368.
Naing, A.H., Min, J.S., Park, K.I., Chung, M.Y., Lim, S.H., Lim, K.B., Kim, C.K. (2013b). Primary and secondary somatic embryogenesis in Chrysanthemum (Chrysanthemum morifolium) cv. ‘Baeksun’ and assessment of ploidy stability of somatic embryogenesis process by flow cytometry. Acta Physiol. Plant., 35, 2965–2974.
Oka, S., Muraoka, O., Abe, T., Nakajima, S. (1999). Adventitious bud embryoid formation in garland chrysanthemum leaf culture. J. Japan Soc. Hort. Sci., 68, 70–72.
Pasqua, G., Monalelli, B., Mulinacci, N., Rinaldi, S., Giaccherini, C., Innocenti, M., Vinceri, F.F. (2005). The effect of growth regulators and sucrose on anthocyanin production in Camptotheca acuminata cell cultures. Plant Physiol. Biochem., 43, 293–298.
Pinto, D.L.P., Barros, B.A., Viccini, L.F., Salabert de Campos, J.M., da Silva, M.L., Otoni, W.C. (2010). Ploidy stability of somatic embryogenesis-derived Passiflora cincinnata Mast. plants as assessed by flow cytometry. Plant Cell Tiss. Organ Cult., 103, 71–79.
Prado, M.J., Rodriguez, E., Rey, L., González, M.V., Santos, C., Rey, M. (2010). Detection of somaclonal variants in somatic embryogenesis regenerated plants of Vitis vinifera by flow cytometry and microsatellite markers. Plant Cell Tiss. Organ Cult., 103, 49–59.
RHSCC (1966). The Royal Horticultural Society, London.
Shinoyama, H., Nomura, Y., Tsuchiya, T., Kazuma, T. (2004). A simple and efficient method for somatic embryogenesis and plant regeneration from leaves of Chrysanthemum (Dendranthema grandiflora (Ramat.) Kitamura). Plant Biotechnol., 21, 25–30.
Sliwinska, E., Lukaszewska E. (2005). Polysomaty in growing in vitro sugar-beet (Beta vulgaris L.) seedlings of different ploidy level. Plant Sci., 168, 1067–1074.
Teixeira da Silva, J.A. (2003). Chrysanthemum: advances in tissue culture, cryopreservation, postharvest technology, genetics and transgenic biotechnology. Biotech. Adv., 21, 715–766.
Zalewska, M., Lema-Rumińska, J., Miler, N. (2007). In vitro propagation using adventitious buds technique as a source of new variability in chrysanthemum. Sci. Hortic., 113, 70–73.

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