Summary
Many aspects of basic and applied problems in plant biology can be investigated by transformation techniques. In dicotyledonous species, the ability to generate transgenic plants provides the tools for an understanding of plant gene function and regulation as well as for the directed transfer of genes of agronomic interest.
For many dicotyledonous plants Agrobacterium tumefaciens can be routinely used to introduce foreign DNA into their genome. However, cereals seem to be recalcitrant to Agrobacterium-mediated transformation.
In cereals, many efforts have been made in recent years to establish reliable transformation techniques. Several transformation techniques have been developed but to date only three methods have been found to be suitable for obtaining transgenic cereals: transformation of totipotent protoplasts, particle bombardment of regenerable tissues and, more recently, tissue electroporation. The current state of transformation methods used for cereals will be reviewed.
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References
Abdullah B., E.C. Cocking & J.A. Thompson, 1986. Efficient plant regeneration from rice protoplasts through somatic embryogenesis. Bio/Technology 4: 1087–1090.
Ahmed K.Z. & F. Sagi, 1993. Culture of and fertile plant regeneration from regenerable embryogenic suspension cell-derived protoplasts of wheat (Triticum aestivum L.). Plant Cell Rep. 12: 175–179.
Barcelo P., A. Vazquez & A. Martin, 1989. Somatic embryogenesis and plant regeneration from Tritordeum. Plant Breeding 103: 235–240.
Barcelo P., C. Hagel, D. Becker, A. Martin & H. Lörz, 1994. Transgenic cereal (Tritordeum) plants obtained at high efficiency by microprojectile bombardment of inflorescence tissue. Plant J. 5(4): 583–592.
Becker D., R. Brettschneider & H. Lörz, 1994. Fertile transgenic wheat from microprojectile bombardment of scutellar tissue. Plant J. 5(2): 299–307.
Bower R. & R.G. Brich, 1992. Transgenic sugarcane plants via microprojectile bombardment. Plant J. 2(3): 409–416.
Bytebier B., F. Deboeck, H.De Greve, M.Van Montagu & J.-P. Hernalsteens, 1987. T-DNA organization in tumour cultures and transgenic plants of the monocotyledon Asparagus officinalis. Proc. Natl. Acad. Sci. USA 84: 5345–5349.
Cao J., X. Duan, D. McElroy & R. Wu, 1992. Regeneration of herbicide resistant transgenic rice plants following microprojectile-mediated transformation of suspension culture cells. Plant Cell Rep. 11: 586–591.
Christou P., T.L. Ford & M. Kofron, 1991. Production of transgenic rice (Oryza sativa L.) plants from agronomically important Indica and Japonica varieties via electric discharge acceleration of exogenous DNA into immature zygotic embryos. Bio/Technology 9: 957–962.
Dale P.J., M.S. Marks, M.M. Brown, C.J. Woolston, D.F. Chen, D.M. Gilmour & R.B. Flavell, 1989. Agroinfection of wheat: Inoculation of in vitro seedlings and embryos. Plant Sci. 63: 237–245.
Datta S.K., K. Datta & I. Potrykus, 1990. Fertile Indica rice plants regenerated from protoplasts isolated from microspore-derived cell suspensions. Plant Cell Rep. 9: 253–256.
Datta S.K., A. Peterhans, K. Datta & I. Potrykus, 1990. Genetically engineered fertile Indica rice recovered from protoplasts. Bio/Technology 8: 736–740.
Datta K., I. Potrykus & S.K. Datta, 1992. Efficient fertile plant regeneration from protoplasts of the Indica rice breeding line IR72 (Oryza sativa L.). Plant Cell Rep. 11: 229–233.
De Cleene M., 1985. The susceptibility of monocotyledons to Agrobacterium tumefaciens. Z. Phytopathol. 113: 81–89.
D'Halluin K., E. Bonne, M. Bossut, M.De Beuckeleer & J. Leemans, 1992. Transgenic maize plants by tissue electroporation. Plant Cell 4: 1495–1505.
Donn G., P. Eckes & H. Müller, 1992. Genübertragung auf Nutzpflanzen. BioEngineering 8: 40–46.
Fretz A., A. Jähne & H. Lörz, 1992. Cryopreservation of embryogenic suspension cultures of barley (Hordeum vulgare L.). Botanica Acta 105: 140–145.
Fromm M., L.P. Taylor & V. Walbot, 1986. Stable transformation of maize after gene transfer by electroporation. Nature 319: 791–793.
Fromm M.E., F. Morrish, A. Armstrong, R. Williams, J. Thomas & T.M. Klein, 1990. Inheritance and expression of chimeric genes in the progeny of transgenic maize plants. Bio/Technology 8: 833–839.
Funatsuki H., H. Lörz & P.A. Lazzeri, 1992. Use of feeder cells to improve barley protoplast culture and regeneration. Plant Sci. 85: 179–187.
Genovesi D., N. Willetts, S. Zachwieja, M. Mann, T. Spencer, C. Flick & W. Gordon-Kamm, 1992. Transformation of an elite maize inbred through microprojectile bombardment of regenerable embryogenic callus. In Vitro Cell Dev. Biol. 18: 189–200.
Golovkin M.V., M. Abraham, S. Morocz, S. Bottka, A. Feder & D. Dudits, 1993. Production of transgenic maize plants by direct DNA uptake into embryogenic protoplasts. Plant Sci. 90: 41–52.
Golds T.J., J. Babczinsky, A.P. Mordhorst & H.-U. Koop, 1993. Protoplast preparation without centrifugation: plant regeneration from barley (Hordeum vulgare L.). Plant Cell Rep. 13: 188–192.
Gordon-Kamm W.J., T.J. Spencer, M.L. Mangano, T.R. Adams, R.J. Daines, W.G. Start, J.V. O'Brien, S.A. Chambers, W.R. Adams, N.G. Willetts, T.B. Rice, C.J. Mackey, R.W. Krueger, A.P. Kausch & P.G. Lemaux, 1990. Transformation of maize cells and regeneration of fertile transgenic plants. Plant Cell 2: 603–618.
Gould J., M. Devey, O. Hasegawa, E.C. Ulian, G. Peterson & R.H. Smith, 1991. Transformation of Zea mays L. using Agrobacterium tumefaciens and the shoot apex. Plant Physiol. 95: 426–434.
Gray D.J. & J.J. Finer, 1993. Development and operation of five particle guns for introduction of DNA into plant cells. Plant Cell Tiss. & Org. Cult. 33: 219.
Grimsley N., T. Hohn, J.W. Davies & B. Hohn, 1987. Agrobacterium-mediated delivery of infectious maize streak virus into maize plants. Nature 325: 177–179.
Gupta H.S. & A. Pattanayak, 1993. Plant regeneration from mesophyll protoplasts of rice (Oryza sativa L.). Bio/Technology 11: 90–94.
Hahne B., H. Lörz & G. Hahne, 1990. Oat mesophyll protoplasts: their response to various feeder cultures. Plant Cell Rep. 8: 590–593.
Hoekstra S., M.H.van Zijderveld, F. Heidekamp & F.van der Mark, 1993. Microspore culture of Hordeum vulgare L.: the influence of density and osmolarity. Plant Cell Rep. 12: 661–665.
Hohn B., T. Hohn, M.I. Boulton, J.W. Davies & N. Grimsley, 1987. Agroinfection of Zea mays with maize streak virus DNA. p. 459–468. In: N.-H. Chu (Ed). Plant Molecular Biology. Plenum Publishing Corporation, New York.
Hooykaas P.J.J. & R.A. Schilperoort, 1992. Agrobacterium and plant genetic engineering. Plant Mol. Biol. 19: 15–38.
Jähne A., P.A. Lazzeri, M. Jäger-Gussen & H. Lörz, 1991a. Plant regeneration of embryogenic cell suspensions of barley (Hordeum vulgare L.). Theor. Appl. Genet. 82: 74–80.
Jähne A., P.A. Lazzeri & H. Lörz, 1991b. Regeneration of fertile plants from protoplasts derived from embryogenic cell suspensions of barley (Hordeum vulgare L.). Plant Cell Rep. 10: 1–6.
Jähne A., D. Becker, R. Brettschneider & H. Lörz, 1994. Regeneration of transgenic, microspore-derived, fertile barley. Theor. Appl. Genet. 89: 525–533.
Klöti A., V.A. Iglesias, J. Wünn, P.K. Burkhardt, S.K. Datta & I. Potrykus, 1993. Gene transfer by electroporation into intact scutellum cells of wheat embryos. Plant Cell Rep. 12: 671–675.
Koziel M.G., G.L. Beland, C. Bowman, N.B. Carozzi, R. Crenshaw, L. Crossland, J. Dawson, N. Desai, M. Hill, S. Kadwell, K. Launis, K. Lewis, D. Maddox, K. McPherson, M.R. Meghji, E. Merlin, R. Rhodes, G.W. Warren, M. Wright & S.E. Evola, 1993. Field performance of elite transgenic maize plants expressing an insecticidal protein derived from Bacillus thuringiensis. Bio/Technology 11: 194–200.
Kyozuka J., Y. Hayashi & K. Shimamoto, 1987. High frequency plant regeneration from rice protoplasts by novel nurse culture methods. Mol. Gen. Genet. 206: 408–413.
Kyozuka J., E. Otoo & K. Shimamoto, 1988. Plant regeneration from protoplasts of Indica rice: genotypic differences in culture response. Theor. Appl. Genet. 76: 887–890.
Langridge P., R. Brettschneider, P. Lazzeri & H. Lörz, 1992. Transformation of cereals via Agrobacterium and the pollen pathway: a critical assessment. Plant J. 2: 631–638.
Lazzeri P.A., R. Brettschneider, R. Lührs & H. Lörz, 1991. Stable transformation of barley via PEG-induced direct DNA uptake into protoplasts. Theor. Appl. Genet. 81: 437–444.
Li X.-Q., C.-N. Liu, S.W. Ritchie, J.-Y. Peng, S.B. Gelvin & T.K. Hodges, 1992. Factors influencing Agrobacterium-mediated transient expression of gusA in rice. Plant Mol. Biol. 20: 1037–1048.
Li Z. & N. Murai, 1990. Efficient plant regeneration from rice protoplasts in general medium. Plant Cell Rep. 9: 216–220.
McElroy D., W. Zhang, J. Cao & R. Wu, 1990. Isolation of an efficient Actin promotor for use in rice transformation. The Plant Cell 2: 163–171.
Mooney P.A., P.B. Goodwin, E.S. Dennis & D.J. Llewllyn, 1991. Agrobacterium tumefaciens-gene transfer into wheat tissues. Plant, Cell Tiss. & Org. Cult. 25: 209–218.
Mordhorst A.P. & H. Lörz, 1993. Embryogenesis and development of isolated barley (Hordeum vulgare L.) microspores are influenced by the amount and composition of nitrogen sources in culture media. J. Plant Physiol. 142: 485–492.
Morocz S., G. Donn, J. Nemeth & D. Dudits, 1990. An improved system to obtain fertile regenerants via maize protoplasts isolated from a highly embryogenic suspension culture. Theor. Appl. Genet. 80: 721–726.
Olsen F.L., 1991. Isolation and cultivation of embryogenic microspores from barley (Hordeum vulgare L.). Hereditas 115: 255–266.
Omirulleh S., M. Abraham, M. Golovkin, I. Stefanov, M.K. Karabaev, M. Mustardy, S. Morocz & D. Dudits, 1993. Activity of a chimeric promoter with the doubled CaMV 35S enhancer element in protoplast-derived cells and transgenic plants in maize. Plant Mol. Biol. 21: 415–428.
Petersen W.L., S. Sulc & C.L. Armstrong, 1992. Effect of nurse cultures on the production of macro-calli and fertile plants from maize embryogenic suspension culture protoplasts. Plant Cell Rep. 10: 591–594.
Potrykus I., 1989. Gene transfer to cereals: an assessment. Tibtech. 7: 269–273.
Potrykus I., 1990. Gene transfer to plants: assessment and perspectives. Physiol. Plant 79: 125–134.
Prioli L.M. & M.R. Söndahl, 1989. Plant regeneration and recovery of fertile plants from protoplasts of maize (Zea mays L.). Bio/Technology 7: 589–594.
Raineri D.M., P. Bottino, M.P. Gordon & E.W. Nester, 1990. Agrobacterium-mediated transformation of rice (Oryza sativa L.). Bio/Technology 8: 33–38.
Rathore K.S., V.K. Chowdhury & T.K. Hodges, 1993. Use of bar as selectable marker gene and for the production of herbicide-resistance in rice plants from protoplasts. Plant Mol. Biol. 21: 871–884.
Rhodes C.A., K.S. Lowe & K.L. Ruby, 1988. Plant regeneration from protoplasts isolated from embryogenic maize cell cultures. Bio/Technology 6: 56–60.
Ritala A., K. Aspegren, U. Kurten, M. Salmenkallio-Marttila, L. Mannogen, R. Hannus, V. Kauppinen, T.H. Teeri & T.M. Enari, 1994. Fertile transgenic barley by particle bombardment of immature embryos. Plant Mol. Biol. 24: 317–325.
Sanford J.C., T.M. Klein, E.D. Wolf & N. Allen, 1987. Delivery of substances into cells and tissues using a particle bombardment process. J. Part. Sci. Tech. 5: 27–37.
Sanford J.C., 1990. Biolistic plant transformation. Physiol. Plant 79: 206–209.
Shillito R.D., G.K. Carswell, C.M. Jonsons, J.J. DiMaio & C.T. Harms, 1989. Regeneration of fertile plants from protoplasts of elite inbred maize. Bio/Technology 7: 581–587.
Shimamoto K., R. Terada, T. Izawa & H. Fujimoto, 1989. Transgenic rice plants regenerated from transformed protoplasts. Nature 338: 274–276.
Somers D.A., H.W. Rines, W. Gu, H.F. Kaeppler & W.R. Bushnell, 1992. Fertile transgenic oat plants. Bio/Technology 10: 1589–1594.
Tada Y., M. Sakamoto & T. Fujimura, 1990. Efficient gene introduction into rice by electroporation and analysis of transgenic plants: use of electroporation buffer lacking chloride ions. Theor. Appl. Genet. 80: 475–480.
Terada R., T. Nakayama, M. Iwabuchi & K. Shimamoto, 1993. A wheat histone H3 promotor confers cell division-dependent and-independent expression of the gusA gene in transgenic rice plants. Plant J. 3: 241–252.
Toriyama K., K. Hinata & T. Sasaki, 1986. Haploid and diploid plant regeneration from protoplasts of anther callus in rice. Theor. Appl. Genet. 73: 16–19.
Toriyama K., Y. Arimoto, H. Uchimiya & K. Hinata, 1988. Transgenic rice plants after direct gene transfer into protoplasts. Bio/Technology 6: 1072–1074.
Vasil I.K. & V. Vasil, 1992. Advances in cereal protoplast research. Physiol. Plant 85: 279–283.
Vasil V., A.M. Castillo, M.E. Fromm & I.K. Vasil, 1992. Herbicide resistant fertile transgenic wheat plants obtained by microprojectile bombardment of regenerable embryogenic callus. Bio/Technology 10: 667–674.
Walters D.A., C.S. Vetsch, D.E. Potts & R.C. Lundquist, 1992. Transformation and inheritance of a hygromycin phosphotransferase gene in maize plants. Plant Mol. Biol. 18: 189–200.
Wan Y., & P.G. Lemaux, 1994. Generation of large numbers of independently transformed fertile barley plants. Plant Physiol. 104: 37–48.
Weeks J.T., O.D. Anderson & A.E. Blechl, 1993. Rapid production of multiple independentlines of fertile transgenic wheat (Triticum aestivum). Plant Physiol. 102: 1077–1084.
Zhang W. & R. Wu, 1988. Efficient regeneration of transgenic rice plants from rice protoplasts and correctly regulated expression of foreign genes in the plants. Theor. Appl. Genet. 76: 835–840.
Zhang H.M., H. Yang, E.L. Rech, T.J. Golds, A.S. Davis, B.J. Mulligan, E.C. Cocking & M.R. Davey, 1988. Transgenic rice plants produced by electroporation-mediated plasmid uptake into protoplasts. Plant Cell Rep. 7: 379–384.
Zimny J., D. Becker, R. Brettschneider & H. Lörz, 1995. Fertile, transgenic Triticale (× Triticosecale Wittmack). Molecular Breeding 1: 155–164.
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Jähne, A., Becker, D. & Lörz, H. Genetic engineering of cereal crop plants: a review. Euphytica 85, 35–44 (1995). https://doi.org/10.1007/BF00023928
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DOI: https://doi.org/10.1007/BF00023928