Mots-clés : pigments
@article{VSGU_2010_6_a27,
author = {O. A. Rozentsvet and E. S. Bogdanova and O. N. Makurina},
title = {Influence of cadmium ions on qualitative and quantitative composition of lipids and pigments in the forming leaves of {Matteuccia} sthruthiopteris},
journal = {Vestnik Samarskogo universiteta. Estestvennonau\v{c}na\^a seri\^a},
pages = {232--239},
year = {2010},
number = {6},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/VSGU_2010_6_a27/}
}
TY - JOUR AU - O. A. Rozentsvet AU - E. S. Bogdanova AU - O. N. Makurina TI - Influence of cadmium ions on qualitative and quantitative composition of lipids and pigments in the forming leaves of Matteuccia sthruthiopteris JO - Vestnik Samarskogo universiteta. Estestvennonaučnaâ seriâ PY - 2010 SP - 232 EP - 239 IS - 6 UR - http://geodesic.mathdoc.fr/item/VSGU_2010_6_a27/ LA - ru ID - VSGU_2010_6_a27 ER -
%0 Journal Article %A O. A. Rozentsvet %A E. S. Bogdanova %A O. N. Makurina %T Influence of cadmium ions on qualitative and quantitative composition of lipids and pigments in the forming leaves of Matteuccia sthruthiopteris %J Vestnik Samarskogo universiteta. Estestvennonaučnaâ seriâ %D 2010 %P 232-239 %N 6 %U http://geodesic.mathdoc.fr/item/VSGU_2010_6_a27/ %G ru %F VSGU_2010_6_a27
O. A. Rozentsvet; E. S. Bogdanova; O. N. Makurina. Influence of cadmium ions on qualitative and quantitative composition of lipids and pigments in the forming leaves of Matteuccia sthruthiopteris. Vestnik Samarskogo universiteta. Estestvennonaučnaâ seriâ, no. 6 (2010), pp. 232-239. http://geodesic.mathdoc.fr/item/VSGU_2010_6_a27/
[1] L. O. Karpachevskii i dr., “Gorod i biosfera”, Biosfera, 2009, no. 1, 153–165
[2] Keits M., Tekhnika lipidologii, Mir, M., 1975, 323 pp.
[3] Nekhlyudova M. V., Filin V. R., “Strausnik obyknovennyi”, Biologicheskaya flora Moskovskoi oblasti, ch. 1, eds. V. N. Pavlov, V. N. Tikhomirov, Izd-vo MGU, M., 1993, 5–21
[4] Nesterov V. N., Rozentsvet O. A. Murzaeva S. V., “Izmenenie sostava lipidov presnovodnogo rasteniya Hydrilla verticillata (L. fil.) Royle pri akkumulyatsii i eliminatsii ionov tyazhelykh metallov”, Fiziologiya rastenii, 56 (2009), 97–106
[5] Rozentsvet O. A., Bogdanova E. S., “Vliyanie ionov kadmiya na soderzhanie fotosinteticheskikh pigmentov listev raznogo vozrasta paporotnika Matteuccia sthruthiopteris”, Fizicheskie mekhanizmy stanovleniya i podderzhaniya funktsii organizma, materialy Mezhdunarodnoi nauchno-prakticheskoi konferentsii, Sukhumi, 2010, 415–418
[6] Seregin I. V., Ivanov V. B., “Fiziologicheskie aspekty toksicheskogo deistviya kadmiya i svintsa na vysshie rasteniya”, Fiziologiya rastenii, 48:4 (2001), 606–630
[7] Chirkova T. V., Fiziologicheskie osnovy ustoichivosti rastenii, Izd-vo SPbGU, SPb., 2002, 240 pp.
[8] N. I. Shevyakova i dr., “Raspredelenie Cd i Fe v rasteniyakh Mesembryanthemum crystallinum pri adaptatsii k Cd-stressu”, Fiziologiya rastenii, 50:5 (2003), 756–763
[9] Bligh E. G., Dyer W. J., “A rapid method for total lipid extraction and purification”, Canad. J. Biochem. Physiol., 1959, no. 37, 911–917 | DOI
[10] Benning C., “A role for Lipid Trafficking in Chloroplast Biogenesis”, Prog. Lipid Res., 47 (2008), 381–389 | DOI
[11] Clemens S., “Toxic metal accumulation, responses to exposure and mechanisms of tolerance in plants”, Biochimie, 88 (2006), 1707–1719 | DOI
[12] Cobbet C. C., “Phytochelatins and their roles in Heavy Metal Detoxication”, Plant Physiol., 123 (2006), 825–832 | DOI
[13] Dyer A. F., The Experimental Biology of Ferns, Academic Press, Edinburgh, 1979, 1–10
[14] Hall J. L., “Cellular mechanisms for heavy metal detoxication and tolerance”, J. Experiment. Bot., 53 (2002), 1–11 | DOI
[15] Hölzl G., Dörman P., “Structure and Function of Glycerolipids in Plants and Bacteria”, Progr. Lipid Res., 46 (2007), 225–243 | DOI
[16] H. Küpper et al., “Heavy metal-induced inhibition of photosynthesis: target of in vivo heavy metal chlorophyll formation”, J. Phycology, 38 (2002), 429–441
[17] Lichtenthaler H. K., Welburn R. R., “Determination of total carotenoids and chlorophylls a and b of extracts in different solvents”, Biochem. Soc. Trans., 603 (1983), 591–592
[18] Z. Liu et al., “Crystal structure of spinach major light-harvesting complex at 2.72 A resolution”, Nature, 428 (2004), 287–292 | DOI
[19] B. Loll, “Lipids in Photosystem. II: Interactions with Protein and Cofactors”, Biochim. Biophysic. Acta, 1767 (2007), 509–519 | DOI
[20] Mysliwa-Kurdziel B., Strzalka K., “Influence of Cd(II), Cr(VI) and Fe(III) on early steps of deetiolarion process in wheat: fluorescence spectral changes of protochlorophyllide and newly formed chlorophyllide”, Ag. Ecosys. Environ., 106 (2004), 199–207 | DOI
[21] I. Nouairi et al., “Comparative study of cadmium effects on membrane lipid composition of Brassica juncea and Brassica napus leaves”, Plant Science, 170 (2006), 511–519 | DOI
[22] U. N. Rai et al., “Cadmium regulated nitrate reductase activity in Hydrilla verticillata (L.F.) Royle”, Water, Air and Soil Pollution, 106 (1998), 171–177 | DOI
[23] Rama Devi S., Prasad M. N. V., “Membrane lipid alteration in heavy metal exposedplants”, Heavy metal stress in plants. From molecules to ecosystems, eds. Prassad M. N. V., Hagemeyer J., Springer, Berlin, 1999, 99–117
[24] Sanita di Toppi L., Gabbrielli R., “Response to cadmium in higher plants”, Environmental and Experiment. Bot., 41 (1999), 105–130 | DOI
[25] Vaskovsky V. E., Latyshev N. A., “Modified Jungnickel's reagent for detecting phospholipids and other phosphorus compounds on thin-layer chromatograms”, J. Chromatogr., 115 (1975), 246–249 | DOI