Abstract
Ultramorphometric characteristics of plastids in cells of apical tuber meristems of original and defensin gene-transfected potato (Solanum tuberosum L.) plants, either maintained under normal conditions or subjected to treatment with the antioxidant ambiol, were compared. Under normal conditions, the tuber cells of the original and transgenic potato plants differed in neither the number nor size of the plastids. Only certain quantitative distinctions in the development of individual ultrastructural characteristics of plastids were detected. Treatment with ambiol enhanced the differentiation of the internal membrane system of plastids in the cells of original and transgenic plants, especially the tubular membrane systems. Certain differences in the responses to ambiol of cell plastids of original and transgenic plants were related to plastid sizes and development of individual intraplastid structures. The results comply with earlier data on varying responses of mitochondria of original and transgenic plants to ambiol treatment.
Similar content being viewed by others
REFERENCES
Muromtsev, G.S., Chkannikov, D.I., Kulaeva, O.N., and Gamburg, K.Z., Osnovy khimicheskoi regulyatsii rosta i productivnosti rastenii (Chemical Regulation of Plant Growth and Productivity), Moscow: Agropromizdat, 1987.
Prusakova, L.D. and Chizhova, S.I.,, in Prirodnye i sinteticheskie regulyatory ontogeneza rastenii. Ser. Fiziol. Rast. (Natural and Synthetic Regulators of Plant Ontogeny, Series Plant Phyiol.), vol. 7, Moscow: VINITI, 1990, pp. 84–118.
Korableva, N.P. and Platonova, T.A., Prikl. Biokhim. Mikrobiol., 1995, vol. 31, no.1, pp. 103–114.
Glez, V.M. and Vasil’eva, S.V., Abstracts of papers, Regulyatory rosta i razvitiya rastenii v biotekhnologiyakh. VI Mezhd. Konf. (Regulators of Growth and Development of Plants in Biotechnologies, VI Int. Conf.), Moscow: MSKhA, 2001, pp. 224–225.
Rajasekaran, L.R. and Blake, T.J., Can. J. Plant Growth Regulation, 1999, vol. 18, no.4, pp. 175–181.
Budagovskaya, N.V. and Gulyaev, V.I., Abstracts of papers, Bioantioksidant. VI Mezhd. Konf. (Bioantioxidant, VI Int. Conf.), Moscow, 2002, pp. 68–69.
Lukatkin, A.S., Kipaikina, N.V., Bashmakov, D.I., and Rudakov, D.V., Abstracts of papers, Bioantioksidant. VI Mezhd. Konf. (Bioantioxidant, VI Int. Conf.), Moscow, 2002, pp. 355–357.
Smirnov, L.D., Kuznetsov, Yu.V., and Apasheva, L.M., USSR Inventor’s Certificate no. 43152, Byull. Izobret., 1984, no. 23.
Lyapkova, N.S., Loskutova, N.A., Maisuryan, A.N., Mazin, V.V., Korableva, N.P., Platonova, T.A., Ladyzhenskaya, E.P., and Evsyunina, A.S., Prikl. Biokhim. Mikrobiol., 2001, vol. 37, no.3, pp. 349–353.
Korableva, N.P, Platonova, T.A., Evsyunina, A.G., Ladyzhenskaya, E.P., Bibik, N.D., Voronina, S.S., Kuznetsov, Yu., and Smirnov, L.D., Produktsionnyi protsess (teoriya, metody, ego rol’ v formirovanii urozhainosti razlichnykh struktur) (Production Process: Theory, Methods, and Role in Formation of Productivity of Different Structures), Mater. mezhd. nauchno-praktich. konf. (Proc. Int. Science Practice Conf.), Orel, 2001, pp. 140–144.
Deryabin, A.N., Sal’nikova, E.B., Astakhova, N.V., Trunova, T.I., and Kuznetsov, Yu.V., Abstracts of papers, Bioantioksidant. VI Mezhd. Konf. (Bioantioxidant, VI Int. Conf.), Moscow, 2002, pp. 163–164.
Trunova, T.I., Alieva, G.P., Kuznetsov, Yu.V., and Smirnov, L.D., Abstracts of papers, Bioantioksidant. VI Mezhd. Konf. (Bioantioxidant, VI Int. Conf.), Moscow, 2002, pp. 580–581.
Korableva, N.P, Platonova, T.A., Evsyunina, A.G., Puzina, T.I., Kirillova, I.G., Voronina, S.S., and Kuznetsov, Yu.V., Abstracts of papers, Bioantioksidant. VI Mezhd. Konf. (Bioantioxidant, VI Int. Conf.), Moscow, 2002, p. 291.
Aleksandrushkina, N.I., Seredina, A.V., Fedorova, L.I., Zamyatina, V.A., Bakeeva, L.E., Smirnova, E.G., Yaguzhinskii, L.S., and Vanyushin, B.F., Abstracts of papers, Regulyatory rosta i razvitiya rastenii v biotekhnologiyakh. VI Mezhd. Konf. (Regulators of Growth and Development of Plants in Biotechnologies, VI Int. Conf.), Moscow: MSKhA, 2001, p. 78.
Evsyunina, A.S., Lyapkova, N.S., Platonova, T.A., and Korableva, N.P., Prikl. Biokhim. Mikrobiol., 2002, vol. 38, no.2, pp. 203–207.
Platonova, T.A., Evsyunina, A.S., Lyapkova, N.S., and Korableva, N.P., Prikl. Biokhim. Mikrobiol., 2002, vol. 38, no.6, pp. 698–703.
Voronina, T.A., Zhizhina, G.P., Kuznetsov, Yu.V., and Smirnov, L.D., Abstracts of papers, Bioantioksidant. VI Mezhd. Konf. (Bioantioxidant, VI Int. Conf.), Moscow, 2002, pp. 89–90.
Korableva, N.P., Ladyzhenskaya, E.P., Platonova, T.A., Evsyunina, A.S., Lyapkova, N.S., Majsuran, A.N., and Mazin, V.V., Signalling Systems of Plant Cells, Abstr. Int. Symp. Moscow: ONTI, 2001, p. 78.
Ladyzhenskaya, E.P., Korableva, N.P., Lyapkova, N.S., and Mazin, V.V., Biol. Membr., 2001, vol. 18, no.4, pp. 267–270.
Belousova, M.B., Evsyunina, A.S., Korableva, N.P., Ladyzhenskaya, E.P., Platonova, T.A., and Starodubtseva, A.M.,, in V S”ezd Obshch. Fiziol. Rast., Tez. dokl. (V Congr. Soc. Plant Phyziol., Abstracts of Papers), Pensa: IFR RAN, 2003, p. 483.
Kirillova, I.G., Evsyunina, A.S., Puzina, T.I., and Korableva, N.P., Prikl. Biokhim. Mikrobiol., 2003, vol. 39, no.2, pp. 237–241.
Shorning, B.Yu., Poleshchuk, S.V., Gorbatenko, I.Yu., and Vanyushin, B.F., Izvestiya AN. Seriya Biologicheskaya, 1999, no. 1, pp. 30–38.
Bakeeva, L.E., Zamyatina, V.A., Shorning, B.Yu., Aleksandrushkina, N.I., and Vanyushin, B.F., Biokhimiya (Moscow), 2001, vol. 66, no.8, pp. 1048–1059.
Platonova, T.A., Evsyunina, A.S., and Korableva, N.P., Prikl. Biokhim. Mikrobiol., 2004.
Broekaert, W.F., Marien, W., Terras, F.R.G., De Bolle, M.F.C., Proost, P., Van Damme, J., Dillen, L., Claeys, M., Rees, S.B., Vanderleyden, J., and Cammue, B.P.A., Biochemistry, 1992, vol. 31, no.11, pp. 4308–4314.
Luft, J.H., J. Biophys. Biochem. Cytol., 1962, vol. 9, no.2, pp. 409–414.
Platonova, T.A. and Korableva, N.P., Fiziol. Rast. (Moscow), 1998, vol. 45, no.6, pp. 870–881.
Korableva, N.P., Platonova, T.A., Dogonadze, M.Z., and Evsuynina, A.S., Biol. Plant., 2002, vol. 45, no.1, pp. 39–43.
Reynolds, E.S., J. Cell Biol., 1963, vol. 17, no.2, pp. 208–213.
Gordon, A.J. and Ford, R.A., A Handbook of Practical Data, Techniques, and References, New York: Wiley, 1972.
Vasil’ev, A.E., Funktsional’naya morfologiya sekretornykh kletok rastenii (Functional Morphology of Plant Secretory Cells), Leningrad, 1977.
Goad, L., Diochem. Soc. Trans., 1983, vol. 11, no.5, pp. 548–552.
Cheniclet, C. and Carde, J.P., Israel J. Bot., 1985, vol. 34, pp. 219–238.
Goodwin, T.W. and Merser, E.I., Introduction to Plant Biochemistry, Oxford: Pergamon, 1983.
Muravnik, L.E. and Ivanova, A.N., 2003, vol. 88, no.1, pp. 59–68.
Zaprometov, M.N., Phenolic Compounds and Their Role in the Life of Plants, 56 Timiryazevskoe chtenie (56th Timiryazev Reedings), Moscow: Nauka, 1966.
Possibham, I.V., Annu. Rev. Plant Physiol., 1980, vol. 31, pp. 113–115.
Kholodova, Yu.P. and Bolyakina, Yu.P., Fiziol. Rast. (Moscow), 1983, vol. 30, no.2, pp. 213–221.
Platonova, T.A. and Korableva, N.P., Prikl. Biokhim. Mikrobiol., 1991, vol. 27, no.4, pp. 606–612.
Platonova, T.A. and Korableva, N.P., Prikl. Biokhim. Mikrobiol., 1992, vol. 28, no.5, pp. 760–770.
Anderset, G. and Greppin, H., Protoplasma, 1977, vol. 91, no.3, pp. 281–301.
David, H., Quantitative Ultrastructural Data of Animal and Human Cells, Leipzig: Springer, 1977.
Mashanskii, V.F. and Rabinovich, I.M., Rannie reaktsii kletochnykh organoidov (Early Reactions of Cell Organoids), Leningrad: Nauka, 1987.
Platonova, T.A. and Korableva, N.P., Fiziol. Rast. (Moscow), 1998, vol. 45, no.6, pp. 870–881.
Ponomareva, A.A. and Polygalova, O.O., Tsitologiya, 2001, vol. 43, no.6, pp. 561–656.
Korableva, N.P. and Platonova, T.A., Prikl. Biokhim. Mikrobiol., 1995, vol. 31, no.1, pp. 103–114.
Author information
Authors and Affiliations
Additional information
__________
Translated from Prikladnaya Biokhimiya i Mikrobiologiya, Vol. 41, No. 3, 2005, pp. 330–339.
Original Russian Text Copyright © 2005 by Platonova, Evsyunina, Belikov, Korableva.
Rights and permissions
About this article
Cite this article
Platonova, T.A., Evsyunina, A.S., Belikov, S.V. et al. Ultramorphometric study of the plastids in apical tuber cells of original and transgenic potato plants treated with ambiol. Appl Biochem Microbiol 41, 289–298 (2005). https://doi.org/10.1007/s10438-005-0049-x
Received:
Issue Date:
DOI: https://doi.org/10.1007/s10438-005-0049-x