Structure-functional changes of mesophyll cells of 12-days old clinorotated pea seedlings

1Adamchuk, NI, 1Fomishyna, RM, 1Mykhaylenko, NF, 1Zolotareva, HK
1M.G. Kholodny Institute of Botany of the National Academy of Sciences of Ukraine, Kyiv, Ukraine
Kosm. nauka tehnol. 2001, 7 ;(Supplement1):170-172
Publication Language: Ukrainian
Mesophyll cell structure and status of photosynthetic membranes in the true leaves of 12-days pea seedlings grown on the slow horizontal clinostat as compared with vertical control is analysed. The data are discussed in connection with correlation of structure changes of chloroplasts and chlorophylls and carotenoids and so the polar lipids both for chloroplasts and pea leaves.
1. Vasil'ev A. E., Muravnik L. E. The dynamics of the cellular components of leaf tissue Populus deltoids (Salicaceae) during the life cycle. Palisade mesophyll during growth. Biologicheskij zhurn., 82 (9), 1 — 13 (1997) [in Russian].
2. Kordyum E. L., Sytnik K. M., Belyavskaya N. A., et al. Modern Problems of Cellular Phytobiology in Outer Space, 293 p. (Nauka, Moscow, 1994) [in Russian].
3. Rodionov V. S., Kholoptseva N. P. Determination of plant leaf phospholipids using two-dimensional chromatography in the thin layers of silica gel. Fiziol. biokhim. kult. rast., 6 (2), 201—206 (1974) [in Russian].
4. Rumiantseva V. B., Merzliak M. N., Mashinskiĭ A. L., Nechitailo G. S. Effect of space flight factors on the pigment and lipid composition of wheat. In: Kosmicheskaia biologiia i aviakosmicheskaia meditsina, 24 (1), 53—55 (1990) [in Russian].
5. Silaeva A. M., Silaev A. V. Methods for quantitative analysis of electron-microscopic images of chloroplasts. Fiziol. biokhim. kult. rast., 11 (6), 547—562 (1979) [in Russian].
6. Aliyev A. A., Abilov Z. K., Mashinskiy A. L., et al. The ullraslructure and physiological characteristics of the photosynthesis system of shoots of garden peas grown for 29 days on the Salyut-7 space station. USSR Space Life Sci. Digest, 10, 15—16 (1987).
7. Bligh E. G., Dyer W. J. A rapid method of total lipid extraction and purification. Can. J. Biochem. Physiol., 37, 911—917 (1959).
8. Gounaris K., Whitford D., Barber J. The effect of thylakoid lipids on an oxygen-evolving Photosystem II preparation. FEBS Lett., 163, 230—234 (1983).
9. Kordyum E. L. Biology of plant cells in microgravity and under clinostating. International Review of Cytology, 171, 1—78 (1997).
10. Laurinavichius R. S., Yaroshyus A. V., Marchyukaytis A., et al. Metabolism of pea plants grown under flight conditions. USSR Space Life Sci. Digest, 4, 23—25 (1986).
11. Svennerholm T. The quantitative estimation of cerebrosides in nervous tissue. J. Neurochemistry, 1 (1), 42—53 (1956).
12. Tremolieres A. Reconstitution of photosynthetic structures and activities with lipids. In: Lipids in photosynthesis: structure, function and genetics, 175—189 (Kluwer Academic Publishers, 1998).

13. Vernon L. P. Spectrophotometric determination of chlorophylls and pheophytins in plant extractions. Analyt. Chem., 32, 1144—1150 (1960).