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Your search keyword '"Loffhagen, Norbert"' showing total 18 results
Start Over Author "Loffhagen, Norbert" Publisher wiley
18 results on '"Loffhagen, Norbert"'

1. Activity and viability of polycyclic aromatic hydrocarbon-degrading Sphingomonas sp. LB126 in a DC-electrical field typical for electrobioremediation measures

Author

Shi, Lei, Müller, Susann, Loffhagen, Norbert, Harms, Hauke, Wick, Lukas, Shi, Lei, Müller, Susann, Loffhagen, Norbert, Harms, Hauke, and Wick, Lukas

Abstract

There has been growing interest in employing electro-bioremediation, a hybrid technology of bioremediation and electrokinetics for the treatment of contaminated soil. Knowledge however on the effect of weak electrokinetic conditions on the activity and viability of pollutant-degrading microorganisms is scarce. Here we present data about the influence of direct current (DC) on the membrane integrity, adenosine triphosphate (ATP) pools, physico-chemical cell surface properties, degradation kinetics and culturability of fluorene-degrading Sphingomonas sp. LB126. Flow cytometry was applied to quantify the uptake of propidium iodide (PI) and the membrane potential-related fluorescence intensities (MPRFI) of individual cells within a population. Adenosine tri-phosphate contents and fluorene biodegradation rates of bulk cultures were determined and expressed on a per cell basis. The cells' surface hydrophobicity and electric charge were assessed by contact angle and zeta potential measurements respectively. Relative to the control, DC-exposed cells exhibited up to 60% elevated intracellular ATP levels and yet remained unaffected on all other levels of cellular integrity and functionality tested. Our data suggest that direct current (X = 1 V cm1; J = 10.2 mA cm2) as typically used for electrobioremediation measures has no negative effect on the activity of the polycyclic aromatic hydrocarbon (PAH)-degrading soil microorganism, thereby filling a serious gap of the current knowledge of the electrobioremediation methodology.

Published
2008

2. Competition between cis, trans and cyclopropane fatty acid formation and its impact on membrane fluidity

Author

Loffhagen, Norbert, Härtig, Claus, Geyer, Wolfgang, Voyevoda, Maryna, Harms, Hauke, Loffhagen, Norbert, Härtig, Claus, Geyer, Wolfgang, Voyevoda, Maryna, and Harms, Hauke

Abstract

The impact of cis, trans and cyclopropane fatty acids on membrane fluidity was investigated using batch-grown Pseudomonas putida P8 and Comamonas testosteroni ATCC 17454. A major difference observed between the two investigated strains is the absence of the ability to synthesize trans-unsaturated fatty acids in Comamonas. When grown exponentially at 30 °C, a shift to 35 °C increased the trans/cis ratios of the fatty acids of P. putida P8 from 0 to 0.81 and 0 to 1.07, in lipid extracts and cell hydrolyzates, respectively. After prolonged growth followed by nutrient deprivation for 48 h, both at 30 °C, trans fatty acids were absent, but the cyclo/cis ratios rose from 0.1 to 1.55 in lipid extracts, and from 0.1 to 1.54 in cell hydrolyzates. C. testosteroni ATCC 17454 contained no cyclo fatty acids when harvested in the exponential phase after 6 h, whereas after 72 h cultivation, the cyclo/cis ratios rose to 0.49 and 0.47, in lipid extracts and cell hydrolyzates, respectively. Trans fatty acids were never observed in this strain. Increased cyclo/cis and trans/cis ratios correlated with decreased fluidity measured by the fluorescence anisotropy of 1,6-diphenyl-1,3,5-hexatriene (DPH) intercalated in the bilayers of liposomes and by Fourier Transform Infrared (FTIR) spectroscopy of lipids prepared from the cells. The specific effect of cyclopropane fatty acids on membrane fluidity was much smaller than that of trans fatty acids. FTIR-measurements of intact cells of P. putida P8 confirmed the high potency of trans fatty acids to decrease the fluidity. In cells with induced cyclopropane fatty acid synthesis, the membranes remained more fluidized, indicating the lower importance of these fatty acids for homeoviscosis.

Published
2007

3. Cytotoxicity and oxidative stress caused by chemicals adsorbed on particulate matter

Author

Müller, Andrea, Wichmann, Gunnar, Massolo, Laura, Rehwagen, Martina, Gräbsch, Carolin, Loffhagen, Norbert, Herbarth, Olf, Ronco, A., Müller, Andrea, Wichmann, Gunnar, Massolo, Laura, Rehwagen, Martina, Gräbsch, Carolin, Loffhagen, Norbert, Herbarth, Olf, and Ronco, A.

Abstract

Air particulate matter (PM) and bound chemicals are potential mediators for adverse health effects. The cytotoxicity and changes in energy-providing processes caused by chemical compounds bound to PM of different size fractions were investigated in Tetrahymena pyriformis. The PM samplings were carried out using a high volume cascade impactor (6 size fractions between 10 m and less than 0.49 m) at three points of La Plata, Argentina: in an industrial area, a traffic-influenced urban area, and a control area. Extracts from respirable particles below 1 m initiated the highest cytotoxic effects, demonstrating their higher risk. In contrast, an increase on oxygen consumption was observed especially in tests of extracts from particles less than 1 m from urban and industrial areas. The increase on oxygen consumption could be caused by decoupling processes in the respiratory chain. Otherwise the ATP concentration was increased too, even though to a lower extent. The observed imbalance between oxygen consumption and ATP concentration in exposed T. pyriformis cells may be due to oxidative stress, caused by chemical compounds bound to the particles. Owing to the complexity of effects related to PM and their associated chemical compounds, various physiological parameters necessarily need to be investigated to obtain more information about their possible involvement in human relevant pathogenic processes. As shown here, effects on cell proliferation and on energy-providing processes are suitable indicators for the different impact of PM and adsorbed chemicals from various sampling locations. © 2006 Wiley Periodicals, Inc. Environ Toxicol 21: 457-463, 2006.

Published
2006

4. Cytotoxicity assessment of gliotoxin and penicillic acid in Tetrahymena pyriformis

Author

Gräbsch, Carolin, Wichmann, Gunnar, Loffhagen, Norbert, Herbarth, Olf, Müller, Andrea, Gräbsch, Carolin, Wichmann, Gunnar, Loffhagen, Norbert, Herbarth, Olf, and Müller, Andrea

Abstract

Various studies have documented the associations between mold exposure and effects on health. Mycotoxins, which occur in spores and mold fragments, can be involved in processes that have pathological effects, such as adynamia of the immune system, recurrent infections of the respiratory tract, or asthma. Using Tetrahymena pyriformis, a single-cell organism well established as a suitable model for human respiratory epithelium-cell functionalities, we investigated dose-response relationships of the mycotoxins gliotoxin and penicillic acid. Our study focused on the viability (cell count, MTT assay), energy levels (adenosine-5-triphosphate content), energy-providing processes (MTT reduction per cell), and cell respiration (oxygen consumption). Both mycotoxins acted as cytotoxins in a dose-dependent manner. Gliotoxin had a stronger inhibitory effect (EC50 0.38 M) than did penicillic acid (EC50 343.19 M). The energy-providing processes were not inhibited or were only weakly inhibited under the influence of gliotoxin, whereas penicillic acid caused stimulation of the physiological parameters. Summarizing the results, it is clear that the two investigated mycotoxins must have different modes of action. They are not only different in the strength of their toxic effects but also in a variety of physiological aspects. In addition, T. pyriformis showed differences in its ability to overcome the negative effects of particular mycotoxin exposures. © 2006 Wiley Periodicals, Inc. Environ Toxicol 21: 111-117, 2006.

Published
2006

5. Pseudomonas putida KT2440 responds specifically to chlorophenoxy herbicides and their initial metabolites

Author

Benndorf, Dirk, Thiersch, Markus, Loffhagen, Norbert, Kunath, C., Harms, Hauke, Benndorf, Dirk, Thiersch, Markus, Loffhagen, Norbert, Kunath, C., and Harms, Hauke

Abstract

Pseudomonas putida KT2440 is often used as a model to investigate toxicity mechanisms and adaptation to hazardous chemicals in bacteria. The objective of this paper was to test the impact of the chlorophenoxy herbicides 2,4-dichlorophenoxyacetic acid (2,4-D) and 2-(2,4-dichlorophenoxy)propanoic acid (DCPP) and their metabolites 2,4-dichlorophenol (DCP) and 3,5-dichlorocatechol (DCC), on protein expression patterns and physiological parameters. Both approaches showed that DCC has a different mode of action and induces different responses than DCPP, 2,4-D and DCP. DCC was the most toxic compound and was active as an uncoupler of oxidative phosphorylation. It repressed the synthesis of ferric uptake regulator (Fur)-dependent proteins, e.g. fumarase C and L-ornithine N5-oxygenase, which are involved in oxidative stress response and iron uptake. DCPP, 2,4-D and DCP were less toxic than DCC. They disturbed oxidative phosphorylation to a lesser extent by a yet unknown mechanism. Furthermore, they repressed enzymes of energy-consuming biosynthetic pathways and induced membrane transporters for organic substrates. A TolC homologue component of multidrug resistance transporters was found to be induced, which is probably involved in the removal of lipophilic compounds from membranes.

Published
2006

6. Growth on phenol at chemostress levels amplifies the expression of the phenol degradation pathway in Acinetobacter calcoaceticus

Author

Benndorf, Dirk, Loffhagen, Norbert, Härtig, Claus, Babel, Wolfgang, Benndorf, Dirk, Loffhagen, Norbert, Härtig, Claus, and Babel, Wolfgang

Abstract

Bacteria often use pollutants as sole carbon and energy sources. However, if they are toxic and the concentrations are high these compounds inhibit growth, and eventually poison the biocatalysts. In order to identify mechanisms contributing to stability, the protein patterns of Acinetobacter calcoaceticus during growth on potentially toxic phenol were analysed using two-dimensional gel electrophoresis. Enzymes involved in the catabolism or assimilation of phenol, such as phenol monooxygenase and catechol 1,2-dioxygenase, were induced at a more than twofold level in response to long-term exposure to high concentrations of the compound serving as the sole carbon and energy source. This would have clear adaptive benefits, since increased rates of consumption of phenol would reduce the susceptibility of Acinetobacter calcoaceticus to phenol poisoning. In contrast, transient induction of only one heat shock protein and one oxidative stress protein was detected during long-term exposure to high concentrations of phenol.

Published
2004

7. Use of proteomics and physiological characteristics to elucidate ecotoxic effects of methyl tert-butyl ether in Pseudomonas putida KT2440

Author

Krayl, M., Benndorf, Dirk, Loffhagen, Norbert, Babel, Wolfgang, Krayl, M., Benndorf, Dirk, Loffhagen, Norbert, and Babel, Wolfgang

Abstract

We monitored rates of growth, ATP-synthesis, respiration, and death to assess the sensitivity of the model organism Pseudomonas putida KT2440 to methyl tert-butyl ether (MTBE), and its degree of toxicity. The physiological data obtained suggested that the energy conservation system was the most sensitive site. However, with the help of proteomic analysis we obtained further information and deeper insight into the molecular mechanisms involved. This analysis indicated that sensitivity involves oxidative stress since alkylhydroperoxide reductase C (AhpC) and two superoxide dismutases (SodM, SodF) were amplified in the presence of MTBE. Thus, proteomics has major advantages in ecotoxicological investigations where the aims include elucidation of the molecular mechanisms as well as characterization of the ecostress and the potency of the stressor(s).

Published
2003

8. Effects of growth temperature and lipophilic carbon sources on the fatty acid composition and membrane lipid fluidity of Acinetobacter calcoaceticus 69V

Author

Loffhagen, Norbert, Härtig, Claus, Benndorf, Dirk, Babel, Wolfgang, Loffhagen, Norbert, Härtig, Claus, Benndorf, Dirk, and Babel, Wolfgang

Abstract

This study explored the capability of Acinetobacter calcoaceticus 69V for homeoviscous adaptation. The saturation degree of the organism's fatty acids increased as the growth temperature was raised. This response was correlated with an increase in the fluorescence anisotropy of 1,6-diphenyl- 1,3,5-hexatriene (DPH) intercalated in the bilayers of liposomes prepared from the cells, indicating that the fluidity of their outer and cytoplasmic membranes fell as growth temperature increased. The liposomes' fluidity increased as the temperature at which it was measured was raised. The homeoviscous efficacy of the responses to increases in growth temperature was 0.3 to 0.5, according to differences between the temperature profiles of cells grown at 20 and 40 °C. However, the derived figure fell to zero at 42 °C, the maximum growth temperature of this bacterium. Similar differences in the temperature profiles of fluorescence anisotropy were obtained from liposomes with differing degrees of saturation in their fatty acids induced by growing the organism on various concentrations of the lipophilic substrates ethanol and phenol. Adjusting the saturation degree of the fatty acids seems to play a major role in the homeostasis of viscosity of the cytoplasmic membrane of Acinetobacter calcoaceticus 69V, a feature that is critical for stabilising its apparatus for electron transport phosphorylation (ETP) against lipophilic attack by xenobiotics.

Published
2002

9. Protein synthesis patterns in Acinetobacter calcoaceticus induced by phenol and catechol show specificities of responses to chemostress

Author

Benndorf, Dirk, Loffhagen, Norbert, Babel, Wolfgang, Benndorf, Dirk, Loffhagen, Norbert, and Babel, Wolfgang

Abstract

The proteins induced in Acinetobacter calcoaceticus by the potentially toxic growth substrates phenol and catechol were analyzed by 2D-electrophoresis of cell extracts and compared with those induced by heat shock and oxidative stress. Although both aromatic compounds are quite similar, the only difference being that catechol has an additional hydroxyl group, the responses obtained differed considerably. Phenol has greater lipophilicity and mainly induced heat shock proteins, whereas catechol, which causes the production of reactive oxygen species, predominantly induced oxidative stress proteins. Furthermore, some special proteins were induced by phenol or catechol, which might be useful as biomarkers for chemostress, and could be involved in the catalytic degradation of potentially toxic compounds.

Published
2001

11. Induction of heat shock proteins in response to primary alcohols in Acinetobacter calcoaceticus

Author

Benndorf, Dirk, Loffhagen, Norbert, Babel, Wolfgang, Benndorf, Dirk, Loffhagen, Norbert, and Babel, Wolfgang

Abstract

Cells of Acinetobacter calcoaceticus 69-V, a species able to metabolize a range of aliphatic hydrocarbons and alcohols, were confronted with ethanol, butanol, hexanol or heat shock during growth on acetate as sole source of carbon and energy. The primary alcohols and the heat shock led to the synthesis of new proteins or amplified expression of specific, common and general proteins, which were detected by silver staining after two-dimensional gel electrophoresis. Some of the alcohol-inducible proteins were identified as heat shock proteins by comparing protein patterns of alcohol-shocked cells with those of heat-shocked cells, and by N-terminal amino acid sequencing. DnaK was found to be amplified after all treatments, but GroEl only after heat shock and ethanol treatment. The N-terminal amino acid sequence of the protein, which was considerably amplified after alcohol treatment and heat shock, shows homology to HtpG (high temperature protein G). Some of the heat shock proteins induced by ethanol differ from those induced by butanol and hexanol, suggesting there are at least two different signals for the induction of some heat shock proteins by primary alcohols. This could be due to the different localization of ethanol, butanol and hexanol in the membrane, or because higher cytoplasmic concentrations of ethanol than of butanol or hexanol were applied in these tests in order to keep concentrations of the alcohols in the membrane roughly similar. Besides heat shock proteins, a group of proteins were observed which were only induced by butanol and hexanol, possibly indicating the existence of a further defense mechanism against high concentrations of hydrophobic substrates preventing protein denaturation and membrane damage.

Published
1999

15. Chemicals and heat generate different protein patterns in Acinetobacter calcoaceticus

Author

Benndorf, Dirk, Loffhagen, Norbert, Babel, Wolfgang, Benndorf, Dirk, Loffhagen, Norbert, and Babel, Wolfgang

Abstract

The effect of exposing Acinetobacter calcoaceticus 69-V to DNP1-stress and heat shock was examined by two-dimensional gel electrophoresis of proteins, which were detected either by autoradiography or by silver staining. Both DNP stress and heat shock led to altered patterns of protein synthesis or concentration. About 10% of the proteins which were synthesized newly or at an increased rate and about 25% of those which were found newly or with an increased concentration after DNP treatment were identified after heat shock, too.

Published
1997

17. The influence of energy deficiency-imposing conditions on the capacities of Acetobacter methanolicus to oxidize glucose and to produce gluconic acid

Author

Loffhagen, Norbert, Babel, Wolfgang, Loffhagen, Norbert, and Babel, Wolfgang

Abstract

The presence of dinitrophenol (DNP) during the chemostatic growth of Acetobacter methanolicuson glucose led to i) no significant increase in glucose dehydrogenase, ii) a decrease in the capacity to oxidize glucose by about 30%, not depending on the DNP concentration, and iii) a gradual decrease in the capacity to form gluconic acid, depending on the concentration of the uncoupler. Similar effects of DNP on Acetobacter methanolicuswere observed during the gluconic acid formation process. The loss in the capacity to form gluconic acid is indicated by a drop in the ATP concentration of the cells which cannot be counteracted by the ATP syntheses originating from the oxidation of gluconic acid and of glucose. ATP could be necessary for pumping protons out of the cells that were taken up together with gluconic acid and by the effect of DNP.

Published
1993

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