Multi-instrumental Analysis of Tissues of Sunflower Plants Treated with Silver(I) Ions – Plants as Bioindicators of Environmental Pollution

The aim of this work is to investigate sunflower plants response on stress induced by silver(I) ions. The sunflower plants were exposed to silver(I) ions (0, 0.1, 0.5, and 1 mM) for 96 h. Primarily we aimed our attention to observation of basic physiological parameters. We found that the treated pla...

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Autores principales: Krizkova, Sona, Ryant, Pavel, Krystofova, Olga, Adam, Vojtech, Galiova, Michaela, Beklova, Miroslava, Babula, Petr, Kaiser, Jozef, Novotny, Karel, Novotny, Jan, Liska, Miroslav, Malina, Radomir, Zehnalek, Josef, Hubalek, Jaromir, Havel, Ladislav, Kizek, Rene
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Molecular Diversity Preservation International (MDPI) 2008
Materias:
Full Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3681137/
https://www.ncbi.nlm.nih.gov/pubmed/27879716
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author Krizkova, Sona
Ryant, Pavel
Krystofova, Olga
Adam, Vojtech
Galiova, Michaela
Beklova, Miroslava
Babula, Petr
Kaiser, Jozef
Novotny, Karel
Novotny, Jan
Liska, Miroslav
Malina, Radomir
Zehnalek, Josef
Hubalek, Jaromir
Havel, Ladislav
Kizek, Rene
author_facet Krizkova, Sona
Ryant, Pavel
Krystofova, Olga
Adam, Vojtech
Galiova, Michaela
Beklova, Miroslava
Babula, Petr
Kaiser, Jozef
Novotny, Karel
Novotny, Jan
Liska, Miroslav
Malina, Radomir
Zehnalek, Josef
Hubalek, Jaromir
Havel, Ladislav
Kizek, Rene
author_sort Krizkova, Sona
collection PubMed
description The aim of this work is to investigate sunflower plants response on stress induced by silver(I) ions. The sunflower plants were exposed to silver(I) ions (0, 0.1, 0.5, and 1 mM) for 96 h. Primarily we aimed our attention to observation of basic physiological parameters. We found that the treated plants embodied growth depression, coloured changes and lack root hairs. Using of autofluorescence of anatomical structures, such as lignified cell walls, it was possible to determine the changes of important shoot and root structures, mainly vascular bungles and development of secondary thickening. The differences in vascular bundles organisation, parenchymatic pith development in the root centre and the reduction of phloem part of vascular bundles were well observable. Moreover with increasing silver(I) ions concentration the vitality of rhizodermal cells declined; rhizodermal cells early necrosed and were replaced by the cells of exodermis. Further we employed laser induced breakdown spectroscopy for determination of spatial distribution of silver(I) ions in tissues of the treated plants. The Ag is accumulated mainly in near-root part of the sample. Moreover basic biochemical indicators of environmental stress were investigated. The total content of proteins expressively decreased with increasing silver(I) ions dose and the time of the treatment. As we compare the results obtained by protein analysis – the total protein contents in shoot as well as root parts – we can assume on the transport of the proteins from the roots to shoots. This phenomenon can be related with the cascade of processes connecting with photosynthesis. The second biochemical parameter, which we investigated, was urease activity. If we compared the activity in treated plants with control, we found out that presence of silver(I) ions markedly enhanced the activity of urease at all applied doses of this toxic metal. Finally we studied the effect of silver(I) ions on activity of urease in in vitro conditions.
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spelling pubmed-36811372013-06-19 Multi-instrumental Analysis of Tissues of Sunflower Plants Treated with Silver(I) Ions – Plants as Bioindicators of Environmental Pollution Krizkova, Sona Ryant, Pavel Krystofova, Olga Adam, Vojtech Galiova, Michaela Beklova, Miroslava Babula, Petr Kaiser, Jozef Novotny, Karel Novotny, Jan Liska, Miroslav Malina, Radomir Zehnalek, Josef Hubalek, Jaromir Havel, Ladislav Kizek, Rene Sensors (Basel) Full Paper The aim of this work is to investigate sunflower plants response on stress induced by silver(I) ions. The sunflower plants were exposed to silver(I) ions (0, 0.1, 0.5, and 1 mM) for 96 h. Primarily we aimed our attention to observation of basic physiological parameters. We found that the treated plants embodied growth depression, coloured changes and lack root hairs. Using of autofluorescence of anatomical structures, such as lignified cell walls, it was possible to determine the changes of important shoot and root structures, mainly vascular bungles and development of secondary thickening. The differences in vascular bundles organisation, parenchymatic pith development in the root centre and the reduction of phloem part of vascular bundles were well observable. Moreover with increasing silver(I) ions concentration the vitality of rhizodermal cells declined; rhizodermal cells early necrosed and were replaced by the cells of exodermis. Further we employed laser induced breakdown spectroscopy for determination of spatial distribution of silver(I) ions in tissues of the treated plants. The Ag is accumulated mainly in near-root part of the sample. Moreover basic biochemical indicators of environmental stress were investigated. The total content of proteins expressively decreased with increasing silver(I) ions dose and the time of the treatment. As we compare the results obtained by protein analysis – the total protein contents in shoot as well as root parts – we can assume on the transport of the proteins from the roots to shoots. This phenomenon can be related with the cascade of processes connecting with photosynthesis. The second biochemical parameter, which we investigated, was urease activity. If we compared the activity in treated plants with control, we found out that presence of silver(I) ions markedly enhanced the activity of urease at all applied doses of this toxic metal. Finally we studied the effect of silver(I) ions on activity of urease in in vitro conditions. Molecular Diversity Preservation International (MDPI) 2008-01-24 /pmc/articles/PMC3681137/ /pubmed/27879716 Text en © 2008 by MDPI Reproduction is permitted for noncommercial purposes.
spellingShingle Full Paper
Krizkova, Sona
Ryant, Pavel
Krystofova, Olga
Adam, Vojtech
Galiova, Michaela
Beklova, Miroslava
Babula, Petr
Kaiser, Jozef
Novotny, Karel
Novotny, Jan
Liska, Miroslav
Malina, Radomir
Zehnalek, Josef
Hubalek, Jaromir
Havel, Ladislav
Kizek, Rene
Multi-instrumental Analysis of Tissues of Sunflower Plants Treated with Silver(I) Ions – Plants as Bioindicators of Environmental Pollution
title Multi-instrumental Analysis of Tissues of Sunflower Plants Treated with Silver(I) Ions – Plants as Bioindicators of Environmental Pollution
title_full Multi-instrumental Analysis of Tissues of Sunflower Plants Treated with Silver(I) Ions – Plants as Bioindicators of Environmental Pollution
title_fullStr Multi-instrumental Analysis of Tissues of Sunflower Plants Treated with Silver(I) Ions – Plants as Bioindicators of Environmental Pollution
title_full_unstemmed Multi-instrumental Analysis of Tissues of Sunflower Plants Treated with Silver(I) Ions – Plants as Bioindicators of Environmental Pollution
title_short Multi-instrumental Analysis of Tissues of Sunflower Plants Treated with Silver(I) Ions – Plants as Bioindicators of Environmental Pollution
title_sort multi-instrumental analysis of tissues of sunflower plants treated with silver(i) ions – plants as bioindicators of environmental pollution
topic Full Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3681137/
https://www.ncbi.nlm.nih.gov/pubmed/27879716
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