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2012 | 34 | 4 |

Tytuł artykułu

Plant regeneration via direct somatic embryogenesis from leaf and petiole expants of Epipremnum aureum 'Marble Queen' and characterization of selected variants

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Leaf and petiole explants of Epipremnum aureum ‘Marble Queen’ were cultured on Murashige and Skoog basal medium containing three concentrations of either N-(2-chloro-4-pyridl)-N’-phenylurea (CPPU) or N-phenyl-N’-1, 2, 3-thiadiazol-5-ylurea (TDZ) with 1.07 µM α-naphthalene acetic acid (NAA). Somatic embryos appeared directly from explants after 4–6 weeks of culture. TDZ at 4.54 µM with 1.07 µM NAA induced 75% of leaf explants to produce somatic embryos and 62.5% of explants to produce germinated embryos. Both 8.07 µM CPPU and 9.08 µM TDZ, respectively, with 1.07 µM NAA induced 100% of petiole explants to produce somatic embryos and 78.1 and 91.7% of explants to produce germinated embryos. Plantlets with completely green, variegated, and whitish leaves were identified among regenerated individuals. Some variegation patterns differed greatly from the parent ‘Marble Queen’ within the variegated plants. Flow cytometry analysis of stock plants and selected variants showed that all plants had one identical peak. Analysis of simple sequence repeats amplified from 14 universal chloroplast primer pairs showed no variation between stock plants and selected variants. RT-PCR analysis of EaZIP, a marker gene involved in leaf variegation of E. aureum ‘Golden Pothos’, suggested little expression difference between green and whitish plants or between green and whitish sectors of a variegated leaf. However, SDS-PAGE analysis of proteins showed differences in band intensity and patterns. These results suggest that mechanisms underlying leaf variegation of ‘Marble Queen’ differ from the closely related ‘Golden Pothos’. The established regeneration system and identified variants could be important materials for further investigation of leaf variegation in E. aureum.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

34

Numer

4

Opis fizyczny

p.1461-1469,fig.,ref.

Twórcy

autor
  • Department of Environmental Horticulture, Institute of Food and Agricultural Sciences, Mid-Florida Research and Education Center, University of Florida, 2725 South Binion Road, Apopka, FL 32703, USA
autor
  • Department of Biological Sciences, University of New Hampshire, Durhan, NH 03824, USA
autor
  • Department of Pharmaceutical Sciences, Biomanufacturing Research Institute and Technology Enterprise, North Carolina Central University, Durhan, NC 27707, USA
autor
  • Department of Pharmaceutical Sciences, Biomanufacturing Research Institute and Technology Enterprise, North Carolina Central University, Durhan, NC 27707, USA
autor
  • College of Life Science, Nanjing Agricultural University, Nanjing, China
autor
  • Department of Environmental Horticulture, Institute of Food and Agricultural Sciences, Mid-Florida Research and Education Center, University of Florida, 2725 South Binion Road, Apopka, FL 32703, USA
autor
  • Department of Environmental Horticulture, Institute of Food and Agricultural Sciences, Mid-Florida Research and Education Center, University of Florida, 2725 South Binion Road, Apopka, FL 32703, USA
  • Human Academy of Forestry, Changsha 410004, Hunan, China

Bibliografia

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  • Chen J, Henny RJ (2006) Somaclonal variation: an important source for cultivar development of floriculture crops. In: Teixeira da Silva JA (ed) Floriculture, ornamental and plant biotechnology. Global Science Books, Vol II. London, pp 244–253
  • Chen J, McConnell DB, Henny RJ, Norman DJ (2005) The foliage plant industry. Hort Rev 31:47–112
  • Chen J, Henny RJ, Davenant PS, Chao CT (2006) AFLP analysis of nephthytis (Syngonium podophyllum Schott) selected from somaclonal variants. Plant Cell Rep 24:743–749
  • Cui J, Chen J, Henny RJ (2009) Regeneration of Aeschynanthus radicans via direct somatic embryogenesis and analysis of regenerants with flow cytometry. In Vitro Cell Devel Biol-Plant 45:34–43
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  • Henny RJ, Chen J, Mellich TA (2009a) Epipremnum aureum ‘Green Genie’. HortScience 44:1783–1784
  • Henny RJ, Chen J, Mellich TA (2009b) ‘Pearls and Jade’ pothos. HortScience 44:824–825
  • Hung CY, Xie J (2009) A comparison of plants regenerated from a variegated Epipremnum aureum. Biol Plant 53:610–616
  • Hung CY, Sun Y, Chen J, Darlington D, Williams AL, Burkey KO, Xie J (2010) Identification of a Mg-protoporphyrin IX monomethyl ester cyclase homologue, EaZIP, differentially expressed in variegated Epipremnum aureum ‘Golden Pothos’ is achieved through a unique method of comparative study using tissue regenerated plants. J Exp Bot 61:1483–1493
  • Huxley A (1994) The New Royal horticultural society dictionary of gardening. Macmillan, London
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  • Mok MC, Mok DWS, Turner JE, Mujer CV (1987) Biological and biochemical effects of cytokinin-active phenylurea derivatives in tissue culture systems. HortScience 22:1194–1196
  • Murashige T, Skoog F (1962) A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol Plant 15:473–497
  • Oyabu T, Takenaka K, Wolverton B, Onodera T, Nanto H (2003) Purification characteristics of golden pothos for atmospheric gasoline. Int J Phytoremediat 5:267–276
  • Qu L, Chen J, Henny RJ, Huang YC, Caldwell RD, Robinson CA (2002) Thidiazuron promotes adventitious shoot regeneration from pothos (Epipremnum Aureum) leaf and petiole explants. In Vitro Cell Dev Biol-Plant 38:268–271
  • Ricci A, Bertoletti C (2009) Urea derivatives on the move: cytokininlike activity and adventitious rooting enhancement depend on chemical structure. Plant Biol 11:262–272
  • Stewart CN Jr, Via LE (1993) A rapid CTAB DNA isolated technique for RAPD fingerprint and other PCR application. Biotechniques 14:748–750
  • USDA (United States Department of Agriculture) (1999) 1998 census of horticultural specialties. USDA, Washington, DC
  • Zhang Q, Chen J, Henny RJ (2005) Direct somatic embryogenesis and plant regeneration from leaf, petiole, and stem explants of golden pothos. Plant Cell Rep 23:587–595

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Bibliografia

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