Структурно-функціональні особливості 14-добових проростків Triticum aestivum L. сорту ятрань 60 за умов температурного стресу
DOI :
https://doi.org/10.15587/2313-8416.2015.44830Mots-clés :
Triticum aestivum L., ліпоксигеназа, пігменти, ультраструктура, температурний стресRésumé
Досліджено вплив короткотривалих температурних стресів на активність ліпоксигенази, вміст фотосинтетичних пігментів і ультраструктурну будову клітин мезофілу листків жаростійкого сорту Triticum aestivum L. Ятрань 60. Встановлено, що в проростках міститься три ізоформи 9-ліпоксигенази. Виявлені специфічні зміни у складі фотосинтетичних пігментів. Встановлено збільшення кількості пластоглобул у стромі хлоропластів після дії низької позитивної температури і відсутність таких змін після теплового стресу
Références
Dubrovna, O. V., Chugunkova, T. V., Bavol, A. V., Lyalko, І. І. (2012). Biotechnology and cytogenetic basis for the creation of plants resistant to stresses. Kiev: Logos, 425.
Weyers, J. D. B., Paterson, N. W. (2001). Plant hormones and the control of physiological processes. New Phytologist, 152, 375–407. doi: 10.1046/j.0028-646X.2001.00281.x
Kolupaev, Y. E., Karpets, Y. K. (2010). Formation of the adaptive responses of plants to abiotic stress effects. Kiev: Osnova, 352.
Porta, H., Rocha-Sosa, M. (2002). Plant lipoxygenases. Physiological and molecular features. Plant Physiol., 130 (1), 15–21. doi: 10.1104/pp.010787
Liavonchanka, A., Feussner, I. (2006). Lipoxygenases: Occurrence, functions and catalysis. Journal of Plant Physiology, 99 (1), 37–42. doi: 10.1016/j.jplph.2005.11.006
Feussner, I., Wasternack, С. (2002). The lipoxygenase pathway. Annual Review of Plant Biology, 53, 275–297. doi: 10.1146/annurev.arplant.53.100301.135248
Babenko, L. M., Kosakivska, I. V., Skaterna,T. D., Kharchenko, O. V. (2013). Plant lipoxygenases in adaptation to abiotic stresses. Biulleten Kharkivskoho Natsional. ahrar. un-tu (Ser. biology), 2 (29), 6–19.
Gerebtsova, N. A., Stallions, N. A., Popova, T. N., Zyablova, T. V. (2000). Fumaric acid – a competitive inhibitor of lipoxygenase wheat germ. Biochemistry, 5, 727–729.
Nemchenko, A., Kunze, S., Feussner, I. (2006). Duplicate maize 13-lipoxygenase genes are differentially regulated by circadian rhythm, cold stress, wounding, pathogen infection, and hormonal treatments. Journal of Experimental Botany, 57 (14), 3767–3779. doi: 10.1093/jxb/erl137
Laxalt, A. M., Munnic, T. (2002). Phospholipid signaling in plant. Current Opinion in Plant Biology, 5 (4), 332–338. doi: 10.1016/S1369-5266(02)00268-6
Kosakivska, I. V., Babenko, L. M., Skaternal, T. D., Ustinova, A. Y. (2014). Influence оf hypo- and hyperthermia on lipoxygenase activity, content of pigments and soluble proteins in Triticum aestivum L. cv. Yatran 60 seedlings. Physiologiya rasteniy i genetika, 46 (3), 212–220.
Kosakivska, I. V., Babenko, L. M., Skaternal, T. D., Ustinova, A. Y. (2014). Thermosensitivity of lipoxygenase and photosynthesis pigments of of winter wheat. Biotechnologia Acta, 7 (5), 101–107. doi: 10.15407/biotech7.05.101
Andrianova, Y. E., Tarchevsky, I. A. (2000). Chlorophyll and plant productivity. Moscow: Nauka, 135.
Babenko, L. M., Kosakivska, I. V., Akimov, Yu. A., Klymchuk, D. O., Skaternaya, T. D. (2014). Еffect of temperature stresses on pigment content, lipoxygenase activity and cell ultrastructure of winter wheat seedlings. Genetics and plant physiology, 4 (1-2), 117–125.
Grodzinskiy, D. M. (2013). Adaptive strategies of plant physiological processes [47th Timiryazevskoe reading 25 years later]. Kiev: Naukova dumka, 304.
Evert, R. F. (2007). Esau’s plant anatom. Hoboken, New Jersey: Wiley Interscience, 624.
Salem-Fnayou, A. B., Bouamama, B., Ghorbel, A., Mliki, A. (2011). Investigations on the leaf anatomy and ultrastructure of grapevine (Vitis vinifera) under heat stress. Microscopy Research and Technique, 74 (8), 756–762. doi: 10.1002/jemt.20955
Carde, J.-P. (1987). Electron microscopy of plant cell membranes. Methods in enzymology. Plant cell membranes, 148, 599–622.
Selye, Н. (1956). The stress of life. New York: McGraw-Hill, 479.
Selye, Н. (1972). At the level of the whole organism. Moscow: Nauka, 122
Mokronosov, A. T., Gavrilenko, V. F., Zhigalov, T. V. (2006). Photosynthesis: physiological, ecological and biochemical aspects. Moscow: Academya, 448.
Kosakivska, I. V., Babenko, L. M., Ustinova, A. Yu., Skaterna, T. D., Demirevska, K. (2012). The influence of temperature conditions on lipoxygenase activity in seedling of rape Brassica napus var. Оleifera. Dopovidi NAN Ukrain. 6, 134–137.
Yang, X. Y., Jiang, W. J., Yung, H. J. (2012). The expression profiling of the lipoxygenase (LOX) family genes during fruit development, abiotic stress and hormonal treatments in cucumber (Cucumis sativus L.). International Journal of Molecular Sciences, 13 (12), 481–2500. doi: 10.3390/ijms13022481
Wang, G. Z., Mao, L. C., Zhu, C. G., Pang, H. Q. (2007). Involvement of phospholipase D and lipoxygenase in response to chilling stress in post harvest cucumber fruits. Plant Science, 172 (2), 400–405. doi: 10.1016/j.plantsci.2006.10.002
Wise, R. R., Naylor, A. W. (1987). Chilling-enhanced photooxidation. The peroxidative destruction of lipids during chilling injury to photosynthesis and ultrastructure. Plant Physiology, 83 (2), 272–277. doi: 10.1104/pp.83.2.272
Brehelin, C., Kessler, F., Van, W. K. (2007). Plastoglobules: versatile lipoprotein particles in plastids.Trends in Plant Science, 12 (6), 260–265. doi: 10.1016/j.tplants.2007.04.003
Jin, B., Wang, L., Wang, J., Jiang, K. Z., Wang, Y., Jiang, X. X., Ni, C. Y., Wang, Y. L., Teng, N. J. (2011). The effect of experimental warming on leaf functional traits, leaf structure and leaf biochemistry in Arabidopsis thaliana. BMC Plant Biology, 11 (1), 35–45. doi: 10.1186/1471-2229-11-35
Pinhero, R. G., Paliyath, G., Yada, R. Y., Murr, D. P. (1999). Chloroplast membrane organization in chilling-tolerant and chilling-sensitive maize seedlings. Journal of Plant Physiology, 155 (6), 691–698. doi: 10.1016/S0176-1617(99)80084-4
Morgyn, V. V., Sanіn, E. V., Schwartau, V. V., Artemchuk, І. P., Semerun, T. B., Omelyanenko, O. A. (2009). Club 100 quintals. Varieties and cultivation technology of high yields of winter wheat. Kiev: Logos, 97.
Wellburn, A. (1994). The Spectral Determination of Chlorophyll a and Chlorophyll b, as Well as Total Carotenoids, Using Various Solvents with Spectrophotometers ofё Different Resolution. Journal of Plant Physiology, 144 (3), 307–313. doi: 10.1016/S0176-1617(11)81192-2
Téléchargements
Publié-e
Numéro
Rubrique
Licence
(c) Tous droits réservés Лідія Михайлівна Бабенко, Микола Миколайович Щербатюк, Дмитро Олександрович Климчук, Ірина Василівна Косаківська, Юрій Миколайович Акімов 2015
Cette œuvre est sous licence Creative Commons Attribution 4.0 International.
Our journal abides by the Creative Commons CC BY copyright rights and permissions for open access journals.
Authors, who are published in this journal, agree to the following conditions:
1. The authors reserve the right to authorship of the work and pass the first publication right of this work to the journal under the terms of a Creative Commons CC BY, which allows others to freely distribute the published research with the obligatory reference to the authors of the original work and the first publication of the work in this journal.
2. The authors have the right to conclude separate supplement agreements that relate to non-exclusive work distribution in the form in which it has been published by the journal (for example, to upload the work to the online storage of the journal or publish it as part of a monograph), provided that the reference to the first publication of the work in this journal is included.
