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http://dx.doi.org/10.5010/JPB.2010.37.4.414

Recent advances in development of commercial rose by molecular breeding  

Oh, Myung-Jin (Plant Systems Engineering Research Center, Korea Research Institute of Bioscience and Biotechnology (KRIBB))
Kim, Jong-Hyun (Plant Systems Engineering Research Center, Korea Research Institute of Bioscience and Biotechnology (KRIBB))
Ahn, Myung-Suk (Plant Systems Engineering Research Center, Korea Research Institute of Bioscience and Biotechnology (KRIBB))
Liu, Jang-R. (Plant Systems Engineering Research Center, Korea Research Institute of Bioscience and Biotechnology (KRIBB))
Kim, Suk-Weon (Biological Resources Center)
Publication Information
Journal of Plant Biotechnology / v.37, no.4, 2010 , pp. 414-424 More about this Journal
Abstract
This report describes recent advances in tissue culture, genetic transformation of commercial rose (Rosa hybrida) and in development of new rose cultivars by molecular breeding. Rose is one of major cut-flowers in global horticulture industry. Successful progresses were made in development of new cultivars for pathogen resistant, environmental stress resistant and petal color modification by molecular breeding. New cultivars, however, has not reported yet in korea, although lots of progresses were achieved in each field of conventional breeding, tissue culture and genetic transformation. Cooperation in these research fields will promote screening of useful genes to have specific traits on rose and exploiting of processes to improve in the efficiency of tissue culture and genetic transformation of rose, therefore, we hopefully expect that new rose cultivars by molecular breeding will be released in the near future.
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1 Tanaka Y, Brugliera F (2006) Flower colour. In Flowering and its Manipulation. Edited by Ainsworth, C. pp 201-239. Blackwell, Oxford
2 Tanaka Y, Katsumoto Y, Brugliera F, Mason J (2005) Genetic engineering in floriculture. Plant Cell Tiss Organ Culture 80:1-4   DOI
3 Van der Salm TPM, van der Toorn CJG, Hanischten cate CH, Dons HJM (1996) Somatic embryogenesis and shoot regeneration from excised adventitious roots of the root stock Rosa hybrida cv Money Way. Plant Cell Rep 15: 522-526   DOI   ScienceOn
4 Van der Krol AR, Lenting PE, Veenstra J, van der Meer IM, Gerats AGM, Mol JNM, Stuitje AR (1988) An antisense chalcone synthase gene in transgenic plants inhibits flower pigmentation. Nature 333:866-869   DOI
5 Vergne P, Maene M, Gabant G, Chauvet A, Debener T, Bendahmane M (2010) Somatic embryogenesis and transformation of the diploid Rosa chinensis cv Old Blush. Plant Cell Tiss Organ Cult 100:73-81   DOI
6 Marchant R, Power JB, Lucas J.A, Davey MR (1998a) Biolistic transformation of rose (Rosa hybrida L.). Ann Bot 81:109-114   DOI
7 Marchant R, Davey MR, Lucas JA, Lamb CJ, Dixon RA, Power JB (1998b) Expression of a chitinase transgene in rose (Rosa hybrida L.) reduces development of blackspot disease (Diplocarpon rosae Wolf.). Mol. Breeding 4:187-194   DOI
8 Mathews D, Mottley J, Horan I, Roberts AV (1991) A protoplast to plant system in roses. Plant Cell Tiss Org Cult 24:173-180   DOI
9 Meyer P, Heidmann I, Forkmann G, Saedler H (1987) A new Petunia flower color generated by transformation of a mutant with a maize gene. Nature 330:667-678   DOI
10 Mikanagi Y, Saito N, Yokoi M, Tatsuzawa F (2000) Anthocyanins in flowers of genus Rosa, sections Cinnamomeae (1/4 Rosa), Chinenses, Gallicanae and somemodern garden roses. Biochem Syst Ecol 28:887-902   DOI
11 Ming OC, Wen AS, Sinniah UR, Xavier R, Sreeramanan S (2007) Cysteine and acetosyringone are the two important parameters in Agrobacterium-mediated transformation of rose hybrid, Nikita. Asian J Plant Sci 2:387-397
12 Murali S, Sreedhar D, Lokeswari TS (1996) Regeneration through somatic embryogenesis from petal-derived calli of Rosa hybrida L. cv. Arizona (hybrid tea). Euphytica 91:271-275   DOI
13 Noriega C, Sondahl MR (1991) Somatic embryogenesis in hybrid tea roses. Biotechnology 9:991-993   DOI
14 Pati PK, Sharma M, Sood A, Ahuja PS (2004) Direct shoot regeneration from leaf explants of R. damascena Mill. In Vitro Cell Dev Biol Plant 40:192-195   DOI   ScienceOn
15 Rosati C, Simoneau P, Treutter D, Poupard P, Cadot Y, Cadic A, Duron M (2003) Engineering of flower color in forsythia by expression of two independently transformed dihydroflavonol 4-reductase and anthocyanidin synthase genes of flavonoid pathway. Mol. Breed 12:197-208   DOI
16 Kim SW, Oh MJ, Liu JR (2009a) Plant regeneration from the root-derived embryonic tissues of Rosa hybrida L. cv. Charming via a combined pathway of somatic embryogenesis and organogenesis. Plant Biotechnol Rep 3:341-345   DOI
17 Kim SW, Oh MJ, Liu JR (2009b) Somatic embryogenesis and plant regeneration in zygotic embryo explant cultures of rugosa rose Plant Biotechnol Rep 3:199-203   DOI
18 Kondo T, Yoshida K, Nakagawa A, Kawai T, Tamura H, Goto T (1992) Structural basis of blue-colour development in flower petals from Commelina communis. Nature 358:515-518   DOI
19 Li XQ, Krasnyanski SF, Korban SS (2002a) Somatic embryogenesis, secondary somatic embryogenesis, and shoot organogenesis in Rosa J. Plant Physiol. 159. 313-319   DOI   ScienceOn
20 Kunitake H, Imamizo H, Mii M (1993) Somatic embryogenesis and plant regeneration from immature seed-derived calli of rose (Rosa rugosa Thunb). Plant Sci 90:187-194   DOI
21 Li XQ, Krasnyanski SF, Korban SS (2002b) Optimization of the uidA gene transfer into somatic embryos of rose via Agrobacterium tumefaciens. Plant Physiol Biochem 40:453-459   DOI
22 Li X, Gasic K, Cammue B, Broekaert W, Korban SS (2003) Transgenic rose lines harboring an antimicrobial protein gene, Ace-AMP1, demonstrate enhanced resistance to powdery mildew (Sphaerotheca pannosa). Planta 218:226-232   DOI
23 Lin-Wang K, Bolitho K, Grafton K, Kortstee A, Karunairetnam S, McGhie TK, Espley RV, Hellens RP, Allan AC (2010) An R2R3 MYB transcription factor associated with regulation of the anthocyanin biosynthetic pathway in Rosaceae. Plant Biology 10:2-17   DOI
24 Marchant R, Davey MR, Lucas JA, Power JB (1996) Somatic embryogenesis and plant regeneration in Floribunda rose (Rosa hybrida L.) cvs. Trumpeter and Glad Tidings. Plant Science 120:95-105   DOI
25 Holton TA, Tanaka Y (1994) Blue roses-a pigment of our imagination? Trends Biotechnol 12:40-42   DOI
26 Honda T, Saito N (2002) Recent progress in the chemistry of polyacylated anthocyanins as flower color pigment. Heterocycles 56:633-92   DOI
27 Hsia C, Korban S (1996) Organogenesis and somatic embryogenesis in callus cultures of Rosa hybrida and Rosa chinensis minima. Plant cell Tiss Org Culture 44:1-6   DOI
28 Katsumoto Y, Fukuchi-Mizutani M, Fukui Y, Brugliera F, Holton TA, Karan M, Nakamura N, Yonekura-Sakakibara K, Togami J, Pigeaire A, Tao GQ, Nehra NS, Lu CY, Dyson BK, Tsuda S, Ashikari T, Kusumi T, Mason JG, Tanaka Y (2007) Engineering of the Rose Flavonoid Biosynthetic Pathway Successfully Generated Blue-Hued Flowers Accumulating Delphinidin. Plant Cell Physiol 48:1589-1600   DOI
29 Ibrahim R, Debergh PC (2000) Improvement of adventitious bud formation and plantlet regeneration from in vitro leaf explants of Rosa hybrida L. Acta Hortic 520:271-280
30 Johnson ET, Yi H, Shin B, Oh BJ, Cheong H, Choi G (1999) Cymbidium hybrida dihydroflavonol 4-reductase does not efficiently reduce dihydrokaempferol to produce orange pelargonidin-type anthocyanins. Plant J 19:81-85   DOI
31 Kim CK, Chung JD, Park SH, Burrell AM, Kamo KK, Byrne DH (2004) Agrobacterium tumefaciens-mediated transformation of Rosa hybrida using the green fluorescent protein (GFP) gene. Plant Cell Tiss Org Cult 78:107-111   DOI
32 Kim SW, Oh SC, In DS, Liu JR (2003a) Plant regeneration of rose (Rosa hybrida) from embryogenic cell-derived protoplasts. Plant Cell Tissue Org Cult 73:15-19   DOI
33 Kim SW, Oh SC, Liu JR (2003b) Control of direct and indirect somatic embryogenesis by exogenous growth regulators in immature zygotic embryo cultures of rose. Plant Cell Tissue and Organ Cult 74:61-66   DOI
34 Escalettes V, Dosba F (1993) In vitro adventitious shoot regeneration from leaves of Prunus spp. Plant Sci 90:201-209   DOI
35 Firoozabady E, Lemieux CS, Moy YS, Moll B, Nicholas JA, Robinson KEP (1991) Genetic Engineering of Ornamental Crops. In Vitro 27:96A
36 Firoozabady E, Moy Y, Courtneygutterson N, Robinson K (1994) Regeneration of transgenic rose (Rosa hybrida) plants from embryogenic tissue. Biotechnology 12:609-613   DOI
37 Goto T, Kondo T (1991) Structure and molecular stacking of anthocyanins flower color variation. Angew Chem Int Ed Engl 30:17-23   DOI
38 Forkmann G, Heller W (1999) Biosynthesis of flavonoids. In:Sankawa U. ed. Comprehensive Natural Products Chemistry, pp 713-48. Elsevier, Amsterdam
39 Fukui Y, Tanaka Y, Kusumi T, Iwashita T, Nomoto K (2003) A rationale for the shift in colour towards blue in transgenic carnation flowers expressing the flavonoid 30,50-hydroxylase gene. Phytochemistry 63:15-23   DOI
40 Goto T (1987) Structure, stability, and color variation of natural anthocyanins. In Progress in the Chemistry of Organic Natural Products. Edited by Herz W, Grisebach H, Kirby GE, Tamm C pp 113-58. Springer-Verlag, New York
41 Grotewold E (2006) The genetics and biochemistry of floral pigments. Annu Rev Plant Biol 57:761-80   DOI
42 Hill GP (1967) Morphogenesis of shoot primordia in cultured stem tissue of a garden rose. Nature 216:596-597   DOI
43 Holton TA (1996) Transgenic plants exhibiting altered flower colour and methods for producing same. WO/1996/036716
44 Holton TA, Cornish EC (1995) Genetic and biochemistry of anthocyanin biosynthesis. Plant Cell 7:1071-083   DOI
45 Burger DW, Liu L, Zary KW, Lee CI (1990) Organogenesis and plant regeneration from immature embryos of Rosa hybrida L. Plant Cell, Tissue and Organ Culture 21:147-152   DOI
46 Canli FA (1997) Separation of Rose Chimeras Into Their (Rosa sp.) Consistent Genotypes in vitro Master Thesis. University of Illinois at Urbana-Champaigng, USA
47 Davies KM, Schwinn KE (1997) Flower colour. In: Geneve RL, Preece JE, Merkle SA eds, Biotechnology of ornamental Plants, pp 259-94. CAB International, Wallingford
48 Chen JR, Lu JJ, Liu R, Xiong XY, Wang TX, Chen SY, Guo LB, Wang HF (2010) DREB1C from Medicago truncatula enhances freezing tolerance in transgenic M. truncatula and China Rose (Rosa chinensis Jacq.). Plant Growth Regul 60:199-211   DOI
49 Clemente T (2006) Nicotiana (Nicotiana tobaccum, Nicotiana benthamiana). In: Wang K (ed) Agrobacterium protocols, 2nd edn. Humana press, New Jersey, pp 143-154
50 Cousineau JC, Donelly DJ (1991) Adventitious shoot regeneration from leaf explants of tissue cultured and green house grown raspberry. Plant Cell Tissue Organ Cult 27:249-255   DOI
51 De Wit JC, Esendam HF, Honkanen JJ, Tuominen U (1990) Somatic embryogenesis and regeneration of flowering plants in rose. Plant Cell Rep 9:456-458   DOI
52 Dohm A, Ludwig C, Schiling D, Debener T (2001) Transformation of roses with genes for antifungal proteins. Acta Hortic 547:27-33
53 Dohm A, Ludwig C, Schiling D, Debener T (2002) Transformation of roses with genes for antifungal proteins to reduce their susceptibility to fungal diseaesa. Acta Hortic 572:105-111
54 Dubois LAM, de Vries DP (1995) Prolongation of vase life of cut roses via introduction of genes coding for antibacterial activity, somatic embryogenesis and Agrobacterium-mediated transformation. Acta Hortic 405:205-209
55 Biolley JP, Jay M (1993) Anthocyanins in modern roses: chemical and colorimetric features in relation to the colour range. J. Exp. Bot. 44:1725-1734   DOI
56 Antonelli M, Druar, PH (1990) The use of a brief 2,4-D treatment to induce leaf regeneration on Prunus canescens. Bois Acta Hortic 280:45-50
57 Arene L, Pellegrino C, Gudin S (1993) A comparison of the somaclonal variation level of Rosa hybrida L. cv Meirutral plants regenerated from callus or direct induction from different vegetative and embryonic tissues. Euphytica 71:83-90   DOI
58 Baudry A, Heim MA, Dubreucq B, Caboche M, Weisshaar B, Lepiniec L (2004) TT2, TT8, and TTG1 synergistically specify the expression of BANYULS and proanthocyanidin biosynthesis in Arabidopsis thaliana. Plant J 39:366-380   DOI
59 Vries DP, Keulen HA, Bruyn JW (1974) Breeding research on rose pigments. 1. The occurrence of flavonoids and carotenoids in rose petals. Euphytica 23:447-457   DOI
60 Visessuwan R, Kawai T, Mii M (1997) Plant regeneration systems from leaf segment culture through embryogenic callus formation of Rosa hybrida and R. canina. Breed Sci 47:217-222
61 Yoshida K, Toyama-Kato Y, Kameda K, Kondo T (2003) Sepal color variation of Hydrangea macrophylla and vacuolar pHmeasurement with proton-selective microelectrode. Plant Cell Physiol 44:262-268   DOI
62 Zhang X, Henriques R, Lin S, Niu Q, Chua N (2006) Agrobacterium mediated transformation of Arabidopsis Thaliana using the floral dip. Nat Protoc 1:1-6   DOI   ScienceOn
63 농림수산식품부 (2008) 2007 화훼재배현황
64 Shoji K, Miki N, Nakajima N, Momonoi K, Kato C, Yoshida K (2007) Perianth bottom-specific blue color development in tulip cv. Murasakizuisho requires ferric ions. Plant Cell Physiol 48:243-251   DOI
65 Rout GR, Debata BK, Das P (1991) Somatic embryogenesis in callus cultures of Rosa hybrida L . cv Landora. Plant Cell Tiss Organ Cult 27:65-69   DOI
66 Sarasan V, Roberts AV, Rout GR (2001) Methyl laurate and 6-benzyladenine promote the germination of somatic embryos of a hybrid rose. Plant Cell Rep 20:183-186   DOI
67 Shiono M, Matsugaki N, Takeda K (2005) Structure of the blue cornflower pigment. Nature 436:791   DOI
68 Smith IM, Dunez J, Phillips DH, Lelliott RA, Archer SA (1988) European Handbook of Plant Diseases. Blackwell Scientific, Oxford, UK