Environmental Science and Pollution Research, 2007
Goal, Scope and Background Elevated concentrations of copper in the environment result in accumul... more Goal, Scope and Background Elevated concentrations of copper in the environment result in accumulation of the metal in plants and cause an increase in reactive oxidative species (ROS). The first response to elevated amounts of ROS is increased levels of enzymatic and non-enzymatic antioxidants that reduce oxidative stress. The aim of our study was to evaluate the early stages of antioxidative responses to the low copper concentrations usually present in moderately polluted environments. In addition, some other parameters were examined to evaluate the effect of copper on plants. Methods Duckweed (Lemna minor L.) was exposed to different concentrations of copper sulphate for up to 24 hours. Glutathione concentration and enzymatic activities of catalase, guaiacol peroxidase and glutathione reductase were measured spectrophotometrically. Additionally, delayed and prompt chlorophyll fluorescence was measured by luminometry and fluorometry, respectively. The accumulation of copper in plants exposed for 24 hours to various concentrations of copper sulphate was measured by flame atomic absorption spectrophotometry. Results The treatment of plants with copper sulphate resulted in an immediate decrease of the glutathione pool, which was replenished after 24 hours at CuSO4 concentrations lower than 2 μM. Higher CuSO4 concentrations caused a decrease of reduced glutathione. The responses of the antioxidant enzymes glutathione reductase, guaiacol peroxidase and catalase to CuSO4 differed during the first six hours of exposure, but their enzyme activities all increased after 24 hours of exposure. All these enzymes displayed biphasic activity curves with maximum values between 0.5 μM and 1 μM CuSO4. The response of guaiacol peroxidase was the most pronounced and statistically significantly specific and that of catalase the least. Delayed chlorophyll fluorescence decreased after exposure to 1 μM CuSO4, but no significant effect on maximum quantum yield of photosystem II (Fv/Fm) was observed. L. minor accumulated relatively high concentrations of copper. The accumulation rate was higher at lower concentrations of copper in the test medium (up to 2 μM CuSO4) than at concentrations above 2 μM CuSO4. Discussion One of the most pronounced antioxidative responses to copper exposure was modified levels of oxidized and reduced forms of glutathione. The decrease of the glutathione pool is most probably coupled with induced production of phytochelatins. Antioxidative enzymes showed the biphasic enzyme activity characteristic of stress response. Guaiacol peroxidase exhibited the greatest significant increase of activity, even at higher CuSO4 concentrations at which the activity of catalase and glutathione reductase dropped. The intensity of delayed chlorophyll fluorescence decreased, indicating reduced photosynthesis of plants under stress. All the measured parameters showed that plants respond to even low copper concentrations very soon after exposure. The accumulation rate of copper in duckweed tissues indicates that L. minor is an accumulator species. Conclusions The synchronized and prompt inducibility of antioxidants indicates their involvement in a general plant defence strategy for coping with metal-induced oxidative stress. Glutathione concentration and guaiacol peroxidase activity were found to be the most sensitive of the early indicators of exposure to copper concentrations present in polluted water bodies. Recommendation and Perspectives The experimental design of the present study allowed us to compare the sensitivity of various methods and parameters for detecting plant responses to heavy metal-induced oxidative stress. The level of glutathione and the enzyme activities of guaiacol peroxidase and glutathione reductase could be used as a rapidly determined early warning system in toxicity studies.
A DNA mediated transformation system has been developed for the filamentous fungus Cochliobolus l... more A DNA mediated transformation system has been developed for the filamentous fungus Cochliobolus lunatus. Transformants were obtained by using plasmid pAN 7–1 carrying the Escherichia coli hygromycin B phosphotransferase gene (hph) fused to an Aspergillus nidulans promoter. The integration of plasmid pAN 7–1 into the fungal genome altered the ability of this microorganism to transform progesterone.
The phenomena following the transformation of the fungusCochliobolus lunatus by plasmid-encoded H... more The phenomena following the transformation of the fungusCochliobolus lunatus by plasmid-encoded HmB resistance were investigated. All of the 16 tested transformants had markedly altered morphology. Unlike the untransformed fungus, the transformants produced both conidia and arthrospores, did not excrete slime, lost their purple color, and had an altered progesterone-bioconverting pathway.
In eukaryotes, nuclear genome sizes vary by more than five orders of magnitude. This variation is... more In eukaryotes, nuclear genome sizes vary by more than five orders of magnitude. This variation is not related to organismal complexity, and its origin and biological significance are still disputed. One of the open questions is whether genome size has an adaptive role. We tested the hypothesis that genome size has selective significance, using five grassland communities occurring on a gradient of metal pollution of the soil as a model. We detected a negative correlation between the concentration of contaminating metals in the soil and the number of vascular plant species. Analysis of genome sizes of 70 herbaceous dicot perennial species occurring on the investigated plots revealed a negative correlation between the concentration of contaminating metals in the soil and the proportion of species with large genomes in plant communities. Consistent with the hypothesis, these results show that species with large genomes are at selective disadvantage in extreme environmental conditions.
Abstract: One of the ways that plants respond to biotic and/or abiotic stress factors is the accu... more Abstract: One of the ways that plants respond to biotic and/or abiotic stress factors is the accumulation of pathogenesis-related proteins of class 5 (PR-5), which are evolutionary conserved in the plant kingdom. Within the PR-5 family, a distinct subgroup of osmotin and closely related proteins has been characterized. In contrast to the extracellular forms of PR-5 proteins, osmotins presumably accumulate in the vacuole of the cell. They contain a C-terminal propeptide that is considered to be a determinant for vacuolar targeting. The comparison of the three-dimensional structure of tobacco PR-5 d with the sequences of some osmotins showed that the proteins consist of three conserved domains, with the acidic cleft between domains I and II. Besides the constitutive species and tissue-specific presence, the osmotins are also induced by several abiotic and biotic stresses. Among them, fungal infections can elicit osmotin gene expression, and most known proteins from the family have antifungal activity in in vitro assays. In agreement with the osmotin structure and data on the activity of similar proteins, a two-step mechanism, which involves reaction of osmotins with the fungal wall and the permeabilization of fungal membranes, is discussed.
Stem node culture of the potato (Solanum tuberosum) cv. Sante was used to examine the phenotypica... more Stem node culture of the potato (Solanum tuberosum) cv. Sante was used to examine the phenotypical alterations due to different levels of endogenous cytokinins. The altered phenotype, which dramatically deviates from the control phenotype, was induced after treatment of plantlets with 1 μm jasmonic acid. Plantlets grown on the medium supplemented with jasmonic acid were taller, with well developed root systems, expanded leaves, thickened stems, and they showed hyperhydric symptoms. Their cytokinin content was about half that of the control plantlets. Morphologic characteristics corresponding to transgenic plants that overproduce cytokinins, including release of axillary buds and inhibited rooting, correlated with the high cytokinin levels in control plants.
The germination of surface-sterilized maize kernels under aseptic conditions proved to be a suita... more The germination of surface-sterilized maize kernels under aseptic conditions proved to be a suitable method for isolation of kernel-associated bacterial endophytes. Bacterial strains identified by partial 16S rRNA gene sequencing as Pantoea sp., Microbacterium sp., Frigoribacterium sp., Bacillus sp., Paenibacillus sp., and Sphingomonas sp. were isolated from kernels of 4 different maize cultivars. Genus Pantoea was associated with a specific maize cultivar. The kernels of this cultivar were often overgrown with the fungus Lecanicillium aphanocladii; however, those exhibiting Pantoea growth were never colonized with it. Furthermore, the isolated bacterium strain inhibited fungal growth in vitro.
Environmental Science and Pollution Research, 2007
Goal, Scope and Background Elevated concentrations of copper in the environment result in accumul... more Goal, Scope and Background Elevated concentrations of copper in the environment result in accumulation of the metal in plants and cause an increase in reactive oxidative species (ROS). The first response to elevated amounts of ROS is increased levels of enzymatic and non-enzymatic antioxidants that reduce oxidative stress. The aim of our study was to evaluate the early stages of antioxidative responses to the low copper concentrations usually present in moderately polluted environments. In addition, some other parameters were examined to evaluate the effect of copper on plants. Methods Duckweed (Lemna minor L.) was exposed to different concentrations of copper sulphate for up to 24 hours. Glutathione concentration and enzymatic activities of catalase, guaiacol peroxidase and glutathione reductase were measured spectrophotometrically. Additionally, delayed and prompt chlorophyll fluorescence was measured by luminometry and fluorometry, respectively. The accumulation of copper in plants exposed for 24 hours to various concentrations of copper sulphate was measured by flame atomic absorption spectrophotometry. Results The treatment of plants with copper sulphate resulted in an immediate decrease of the glutathione pool, which was replenished after 24 hours at CuSO4 concentrations lower than 2 μM. Higher CuSO4 concentrations caused a decrease of reduced glutathione. The responses of the antioxidant enzymes glutathione reductase, guaiacol peroxidase and catalase to CuSO4 differed during the first six hours of exposure, but their enzyme activities all increased after 24 hours of exposure. All these enzymes displayed biphasic activity curves with maximum values between 0.5 μM and 1 μM CuSO4. The response of guaiacol peroxidase was the most pronounced and statistically significantly specific and that of catalase the least. Delayed chlorophyll fluorescence decreased after exposure to 1 μM CuSO4, but no significant effect on maximum quantum yield of photosystem II (Fv/Fm) was observed. L. minor accumulated relatively high concentrations of copper. The accumulation rate was higher at lower concentrations of copper in the test medium (up to 2 μM CuSO4) than at concentrations above 2 μM CuSO4. Discussion One of the most pronounced antioxidative responses to copper exposure was modified levels of oxidized and reduced forms of glutathione. The decrease of the glutathione pool is most probably coupled with induced production of phytochelatins. Antioxidative enzymes showed the biphasic enzyme activity characteristic of stress response. Guaiacol peroxidase exhibited the greatest significant increase of activity, even at higher CuSO4 concentrations at which the activity of catalase and glutathione reductase dropped. The intensity of delayed chlorophyll fluorescence decreased, indicating reduced photosynthesis of plants under stress. All the measured parameters showed that plants respond to even low copper concentrations very soon after exposure. The accumulation rate of copper in duckweed tissues indicates that L. minor is an accumulator species. Conclusions The synchronized and prompt inducibility of antioxidants indicates their involvement in a general plant defence strategy for coping with metal-induced oxidative stress. Glutathione concentration and guaiacol peroxidase activity were found to be the most sensitive of the early indicators of exposure to copper concentrations present in polluted water bodies. Recommendation and Perspectives The experimental design of the present study allowed us to compare the sensitivity of various methods and parameters for detecting plant responses to heavy metal-induced oxidative stress. The level of glutathione and the enzyme activities of guaiacol peroxidase and glutathione reductase could be used as a rapidly determined early warning system in toxicity studies.
A DNA mediated transformation system has been developed for the filamentous fungus Cochliobolus l... more A DNA mediated transformation system has been developed for the filamentous fungus Cochliobolus lunatus. Transformants were obtained by using plasmid pAN 7–1 carrying the Escherichia coli hygromycin B phosphotransferase gene (hph) fused to an Aspergillus nidulans promoter. The integration of plasmid pAN 7–1 into the fungal genome altered the ability of this microorganism to transform progesterone.
The phenomena following the transformation of the fungusCochliobolus lunatus by plasmid-encoded H... more The phenomena following the transformation of the fungusCochliobolus lunatus by plasmid-encoded HmB resistance were investigated. All of the 16 tested transformants had markedly altered morphology. Unlike the untransformed fungus, the transformants produced both conidia and arthrospores, did not excrete slime, lost their purple color, and had an altered progesterone-bioconverting pathway.
In eukaryotes, nuclear genome sizes vary by more than five orders of magnitude. This variation is... more In eukaryotes, nuclear genome sizes vary by more than five orders of magnitude. This variation is not related to organismal complexity, and its origin and biological significance are still disputed. One of the open questions is whether genome size has an adaptive role. We tested the hypothesis that genome size has selective significance, using five grassland communities occurring on a gradient of metal pollution of the soil as a model. We detected a negative correlation between the concentration of contaminating metals in the soil and the number of vascular plant species. Analysis of genome sizes of 70 herbaceous dicot perennial species occurring on the investigated plots revealed a negative correlation between the concentration of contaminating metals in the soil and the proportion of species with large genomes in plant communities. Consistent with the hypothesis, these results show that species with large genomes are at selective disadvantage in extreme environmental conditions.
Abstract: One of the ways that plants respond to biotic and/or abiotic stress factors is the accu... more Abstract: One of the ways that plants respond to biotic and/or abiotic stress factors is the accumulation of pathogenesis-related proteins of class 5 (PR-5), which are evolutionary conserved in the plant kingdom. Within the PR-5 family, a distinct subgroup of osmotin and closely related proteins has been characterized. In contrast to the extracellular forms of PR-5 proteins, osmotins presumably accumulate in the vacuole of the cell. They contain a C-terminal propeptide that is considered to be a determinant for vacuolar targeting. The comparison of the three-dimensional structure of tobacco PR-5 d with the sequences of some osmotins showed that the proteins consist of three conserved domains, with the acidic cleft between domains I and II. Besides the constitutive species and tissue-specific presence, the osmotins are also induced by several abiotic and biotic stresses. Among them, fungal infections can elicit osmotin gene expression, and most known proteins from the family have antifungal activity in in vitro assays. In agreement with the osmotin structure and data on the activity of similar proteins, a two-step mechanism, which involves reaction of osmotins with the fungal wall and the permeabilization of fungal membranes, is discussed.
Stem node culture of the potato (Solanum tuberosum) cv. Sante was used to examine the phenotypica... more Stem node culture of the potato (Solanum tuberosum) cv. Sante was used to examine the phenotypical alterations due to different levels of endogenous cytokinins. The altered phenotype, which dramatically deviates from the control phenotype, was induced after treatment of plantlets with 1 μm jasmonic acid. Plantlets grown on the medium supplemented with jasmonic acid were taller, with well developed root systems, expanded leaves, thickened stems, and they showed hyperhydric symptoms. Their cytokinin content was about half that of the control plantlets. Morphologic characteristics corresponding to transgenic plants that overproduce cytokinins, including release of axillary buds and inhibited rooting, correlated with the high cytokinin levels in control plants.
The germination of surface-sterilized maize kernels under aseptic conditions proved to be a suita... more The germination of surface-sterilized maize kernels under aseptic conditions proved to be a suitable method for isolation of kernel-associated bacterial endophytes. Bacterial strains identified by partial 16S rRNA gene sequencing as Pantoea sp., Microbacterium sp., Frigoribacterium sp., Bacillus sp., Paenibacillus sp., and Sphingomonas sp. were isolated from kernels of 4 different maize cultivars. Genus Pantoea was associated with a specific maize cultivar. The kernels of this cultivar were often overgrown with the fungus Lecanicillium aphanocladii; however, those exhibiting Pantoea growth were never colonized with it. Furthermore, the isolated bacterium strain inhibited fungal growth in vitro.
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