Biopolym. Cell. 1992; 8(2):53-58.
Клітинна біологія
Перенесення чужорідних генів у зародковий мішок вищих рослин за посередництвом пилку, що проростає
- Інститут генетики Академії наук Молдови
20, -Падурий, Кишинів, Республіка Молдова, MD-2002
Abstract
На основі аналізу літературних даних, а також власних наукових досліджень у галузі
Генетичної інженерії рослин розглядаються засоби внесення чужорідних генів в інтактні рослини за допомогою опилення – запліднення. Виходячи з цього вивчається
можливий механізм проникнення екзогенної ДНК у зав'язок, рослин.
Повний текст: (PDF, російською)
References
[1]
Hess D. Investigation of the intra- and interspecific transfer of anthocyanin genes using pollen as vectors. Z Pflanzenphysiol. 1980; 98(4):321-37.
[2]
Ohta Y. High-efficiency genetic transformation of maize by a mixture of pollen and exogenous DNA. Proc Natl Acad Sci U S A. 1986;83(3):715-9.
[3]
Kartel MA, Zabiankova KI. Genetic variations and possible mechanism of their avoidance under influence ofexogenous DNA in plants. Vestsi AN BSSR. Ser Biol. 1984; 6: 42-6.
[4]
Wet JMJ, Wet AE, Brink DE, Hepburn AG, Woods JA. Gametophyte Transformation in Maize (Zea mays, Gramineae). Biotechnology and Ecology of Pollen. Springer New York; 1986;59–64.
[5]
Chesnokov YuV, Sedov GI, Vikonskaya NA. A simple method for genetic transformation of dicotyledonous plants. Izv Akad Nauk MoldSSR. 1989; 6: 61-2.
[6]
Chesnokov YuV, Vikonskaya NA, Korol' AB. Genetic transformation of maize. 7th Proc. symposium. "Molecular mechanisms of genetic processes": Abstracts M. 1990:183.
[7]
Yakubov EYu, Chesnokov YuV. Possibility of melon genetic transformation. Izv Akad Nauk MoldSSR. Ser Biol i Khim nauk. 1990; 2: 72-3.
[8]
Chesnokov YV Ability genetic transformation of plants using the process of pollination, fertilization: Author. Dis .... kand. biol. Sciences. Minsk, 1990. 16 p.
[9]
Booy G, Krens FA, Huizing HJ. Attempted pollen-mediated transformation of maize. J Plant Physiol. 1989;135(3):319–24.
[10]
Sanford JC, Skubik KA. Attempted pollen-mediated transformation using Ti-plasmids. Biotechnology and Ecology of Pollen. Springer New York; 1986;71–6.
[11]
Hess D, Dressler K, Nimmrichter R. Transformation experiments by pipetting Agrobacterium into the spikelets of wheat (Triticum aestivum L.). Plant Sci. 1990;72(2):233–44.
[12]
Alwen A, Eller N, Kastler M, Moreno RMB, Heberle-Bors E. Potential of in vitro pollen maturation for gene transfer. Physiol Plant. 1990;79(1):194–6.
[13]
Negrutiu I, Heberle-Bors E, Potrykus I. Attempts to Transform for Kanamycin-Resistance in Mature Pollen of Tobacco. Biotechnology and Ecology of Pollen. 1986;65–70.
[14]
Abdul-Baki AA, Saunders JA, Matthews BF, Pittarelli GW. DNA uptake during electroporation of germinating pollen grains. Plant Sci. 1990;70(2):181–90.
[15]
Matthews B, Abdul-Baki A, Saunders J. Expression of a foreign gene in electroporated pollen grains of tobacco. Sex Plant Reprod. 1990;3(3).
[16]
Hepher A, Sherman A, Gates P, Boulter D. Microinjection of the gene vectors into pollen and ovaries as a potential means of transforming whole plants. In: The exp. manipulation of ovule tissue. New York; London : Longman, 1985: 52-63.
[17]
Gad AE, Zeewi B, Altman A. Fusion of germinating watermelon pollen tubes with liposomes. Plant Sci. 1988;55(1):69–75.
[18]
Ahokas H. Transfection by DNA-associated liposomes evidenced at pea pollination. Hereditas. 1987;106(1):129–38.
[19]
Zhou GY, Weng J, Gong ZZ et al. A technique for introducing exogenous DNA into plants after self pollination. Sci Arg Sinica. 1988; 21:1-6.
[20]
Luo Z, Wu R. A simple method for the transformation of rice via the pollen-tube pathway. Plant Mol Biol Rep. 1989;7(1):69–77.
[21]
Kartel' NA, Zaben'kova KI, Maneshina TV, Ablov SE.Barley plants with the gene-introduced kanamycin resistant. Dokl Akad Nauk BelSSSR. 1990; 34(3):261-3.
[22]
Rhodes CA, Pierce DA, Mettler IJ, Mascarenhas D, Detmer JJ. Genetically transformed maize plants from protoplasts. Science. 1988;240(4849):204-7.
[23]
Uchimiya H, Fushimi T, Hashimoto H, Harada H, Syono K, Sugawara Y. Expression of a foreign gene in callus derived from DNA-treated protoplasts of rice (Oryza sativa L.). Mol Gen Genet. 1986;204(2):204–7.
[24]
Colman A. Expression of exogenous DNA in Xenopus oocytes. In: Hames DB and Higgins SJ (eds) Transcription and Translation. A Practical Approach,. Oxford, UK: IRL Press. 1984; 49–69
[25]
Hanahan D. Techniques for transformation of E. coli. In: Glover D M, editor. DNA cloning: a practical approach. Vol. 1. Oxford, United Kingdom: IRL Press; 1985 :109–35.
[26]
Paszkowski J, Shillito RD, Saul M, Mandák V, Hohn T, Hohn B, Potrykus I. Direct gene transfer to plants. EMBO J. 1984;3(12):2717-22.
[27]
Kartel NA. Effects of exogenous DNA in higher plants. Minsk: Nauka i tekhnika, 1981; 143 p.
[28]
Kartzke S, Saedler H, Meyer P. Molecular analysis of transgenic plants derived from transformations of protoplasts at various stages of the cell cycle. Plant Sci. 1990;67(1):63–72.
[29]
Hess D, Gresshoff PM, Fielitz U, Gleiss D. Uptake of protein and bacteriophage into swelling and germinating pollen of Petunia hybrida. Z Pflanzenphysiol. 1975;74(4):371–6.
[30]
Hess D. Pollen-based techniques in genetic manipulation. Int Rev Cyt. Volume 107 1987;367–95.
[31]
Hess D, Lörz H, Weissert E-M. Die Aufnahme bakterieller DNA in quellende und keimende Pollen von Petunia hybrida und Nicotiana glauca. Z Pflanzenphysiol. 1974;74(1):52–63.
[32]
Kartel NA. Interaction of foreign genetic material (DNA) with genome of higher plants: Author. dis .... Dr. biol. nauk. Kharkov, 1983. 35 p.
[33]
Chebotar AA. Corn embryology. Kishinev: Shtiintsa, 1972. 384 p.
[34]
Picton JM, Steer MW. A model for the mechanism of tip extension in pollen tubes. J Theor Biol. 1982;98(1):15–20.
[35]
Potrykus I. Gene transfer to plants: assessment and perspectives. Physiol Plant. 1990;79(1):125–34.