Agrobacterium-mediated transformation of Nicotiana tabacum by disarmed strain at 699 resulted in considerable raising of growth and development of transgenic plants
Автор: Maximova L.A., Nurminskaya J.V., Kopytina T.V., Enikeev A.G.
Журнал: Журнал стресс-физиологии и биохимии @jspb
Статья в выпуске: 1 т.8, 2012 года.
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The question how long transgenesis invected alterations are demonstrated in a succeeding generations remains of great interest. In this study we describe the development of T1-T5 generations of Nicotiana tabacum L. transformed by Agrobacterium tumefacience strain 699 with disarmed plasmid. Tobacco plants were grown in the same environmental conditions. The characteristics of vegetative and generated parts had been assessed. Transgenic plants were superior to normal ones in leaf area and stem length, had earlier flowering and internodes development but not differ in a number and size of flowers. Growth activation is suggested to be a result of biotic stress induced by transformation
Nicotiana tabacum, disarmed strain, transgenic plant, development, t1-t5 generations
Короткий адрес: https://sciup.org/14323581
IDR: 14323581
Список литературы Agrobacterium-mediated transformation of Nicotiana tabacum by disarmed strain at 699 resulted in considerable raising of growth and development of transgenic plants
- Abdeev, R.M., Musiichuk, K.A., Goldenkova, I.V., Sotchenkov, D.V., Salekhi Dzhuzani, G.R., Alyavina, A.K., Zagoskina, N.V., Piruzian, E.S. (2004) Morphology and Phytohormone Content in Transgenic Tobacco Plants Expressing Bacterial Thermostable Cellulase. Rus. J. of plant Physiol., 5, 642-647
- de Boer, G.-J., Testerink, C., Pielage, G., Nijkamp, H.J., Stuitje, A.R. (1999) Sequences surrounding the transcription initiation site of the Arabidopsis enoyl-acyl carrier protein reductase gene control seed expression in transgenic tobacco. Plant Mol. Biol., 6, 1197-1207
- Bogomaz, D.I. (2005) Analysis of interaction of plant genotype and strain Agrobacterium tumefaciens in breeding of potato resistance to Colorado potato beetle Rus. J. of Genet.: Appl. Research, 1, 34-41
- Boyer, J.S. (1982) Plant productivity and environment. Science, 4571, 443-448
- Cecchetti, V., Pomponi, M., Altamura, M.M., Pezzotti, M., Marsilio, S., D'Angeli, S., Tornielli, G.B., Costantino, P., Cardarelli, M. (2004) Expression of RolB in tobacco flowers affects the coordinated processes of anther dehiscence and style elongation. The Plant Journal, 3, 512-525
- Cui, M., Ezura, H. (2003) Agrobacterium-mediated transformation of Nemesia strumosa Bemth, a model plant for asymmetric floral development. Plant Sciense, 165, 863-870
- Draper, J., Scott, R., Armitage, P., Walden, R. (1991) Genetic engineering of plants. Laboratory Handbook. -Moscow, Mir
- Doubnerova V., Janoskova M., Synkova, H., Subr, Z., Cerovska, N., Ryslava, H. (2007) Effect of Potato virus Y on the activities of antioxidant and anaplerotic enzymes in Nicotiana tabacum L. Transgenic plants transformed with the gene for p3 protein Gen. Appl. Plant. Physiology, 33, 123-140
- Efimova, M.V., Karnachuk, R.A. Lapuhina, O.V., Kuzmetsov V.V. (2010) Peculiarities of development of Arabidopsis thaliana (L.) HEYNH seedlings under the selective light. Proc. of 3rd All-Russian Symp. on Physiology of transgenic plants and biosafety, Moscow, Russia, 18-21 Oct., 46
- Enikeev, A.G., Kopytina T.V., Semenova, L.A., Natyaganova, A.V., Gamanetz, L.V., Volkova, O.D. (2008) Agrobacterial transformation as a complex biotical stressing factor. Journal of Stress Physiology & Biochemistry, 4, 11-19
- Gaspar, T., Franck, T., Bisbis, B., Kevers,C., Jouve, L., Hausman, J.F., Dommes, J. (2002) Concepts in plant stress physiology. Application to plant tissue cultures. Plant Growth Regulation, 37, 263-285
- Glantz, S.A. (1999) Primer of biostatistics. McGraw-Hill Professional, New York
- Karnachuk, R.A., Gvozdeva, E.S., Efimova, M.V. (2008) Photoregulation of morphogenesis of tobacco plants transformed with the gene of human interlenkin-18. Rus. J. of Plant Physiol., 4, 503-506
- Lu, Z.Q., Liu, D.L. and Liu, S.K. (2007) Two rice cytosolic ascorbate peroxidases differentially improve salt tolerance in transgenic Arabidopsis. Plant Cell Rep, 26, 1909-1917.
- Maximova, S.N., Dandekar, A.M., Guiltinan, M.J. (1998) Investigation of Agrobacterium mediated transformation of apple using green fluorescent protein: high transient expression and low stable transformation suggest that factors other than TDNA transfer are ratelimiting, Plant Mol. Biol., 37, 549-559
- Nobuhiro Kotoda, Masato Wada, Shinnosuke Kusaba, Yuriko Kano-Murakami, Tetsuo Masuda, Junichi Soejima (2002) Overexpression of MdMADS5, an APETALA1-like gene of apple, causes early flowering in transgenic Arabidopsis, Plant Science, 162(5), 679-687
- O'Hara, P., Slabas, A.R., Fawcett, R. (2007) Antisense expression of 3-oxoacyl-asp reductase affects whole plant productivity and causes collateral changes in activity of fatty acid synthase components. Plant and Cell Physiology, 5, 736-741
- Pryadyohina, E.V., Lapshin. P.V., Nechaeve, T.L., Yurieva, N.O., Zagoskina, N.V. (2010) Some physiological and biochemical characteristics of transgenic potato lines, which differ by a level of gene expression. Proc. of 3rd All-Russian Symp. on Physiology of transgenic plants and biosafety, Moscow, Russia, 18-21 Oct., 67
- Puzina, T.I., Kirillova, I.G., Korol, V.V. (2010) Hormonal state particularities of apical meristems of potato tubers, transformed Bt-gene and gene of defensine. 3rd All-Russian Symposium Physiology of transgenic plants and biosafety, Moscow, 68
- Selye, H. (1936) A Syndrome Produced by Diverse Nocuous Agents. Nature, 138, July 4, p. 32.
- Tsabary, G., Shany, Z., Roiz, L., Levi, I., Riov, J., Shoseyov, O. (2003) Abnormal 'wrinkled' cell walls and retarded development of transgenic Arabidopsis thaliana plants expressing endo-1,4-glucanase (cel1) antisense. Plant Mol. Biol., 2, 213-224
- Zagorskaya, A.A., Sidorchuk, Yu.V., Shumnyi, V.K., Deineko, E.V.(2009) Dynamics of IAA and cytokinins in flower tissues of transgenic tobacco mutant plants with mutant phenotype. Rus. J. of Plant Physiol., 6, 830-837
- Wei Feng Xu, Wei Ming Shi (2007) Mechanisms of salt tolerance in transgenic Arabidopsis thaliana constitutively overexpressing the tomato 14-3-3 protein TFT7. Plant Soil, 301, 17-28
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