Your search keyword '"EGG, MARGIT"' showing total 17 results

1. Therapeutic nuclear magnetic resonance and intermittent hypoxia trigger time dependent on/off effects in circadian clocks and confirm a central role of superoxide in cellular magnetic field effects

Author

Thoeni, Viktoria, Dimova, Elitsa Y., Kietzmann, Thomas, Usselman, Robert J., and Egg, Margit

Published

2024

2. Quantum based effects of therapeutic nuclear magnetic resonance persistently reduce glycolysis

Author

Thöni, Viktoria, Mauracher, David, Ramalingam, Anil, Fiechtner, Birgit, Sandbichler, Adolf Michael, and Egg, Margit

Published

2022

3. Mechanisms underlying the health benefits of intermittent hypoxia conditioning

Author

Burtscher, Johannes, primary, Citherlet, Tom, additional, Camacho‐Cardenosa, Alba, additional, Camacho‐Cardenosa, Marta, additional, Raberin, Antoine, additional, Krumm, Bastien, additional, Hohenauer, Erich, additional, Egg, Margit, additional, Lichtblau, Mona, additional, Müller, Julian, additional, Rybnikova, Elena A., additional, Gatterer, Hannes, additional, Debevec, Tadej, additional, Baillieul, Sebastien, additional, Manferdelli, Giorgio, additional, Behrendt, Tom, additional, Schega, Lutz, additional, Ehrenreich, Hannelore, additional, Millet, Grégoire P., additional, Gassmann, Max, additional, Schwarzer, Christoph, additional, Glazachev, Oleg, additional, Girard, Olivier, additional, Lalande, Sophie, additional, Hamlin, Michael, additional, Samaja, Michele, additional, Hüfner, Katharina, additional, Burtscher, Martin, additional, Panza, Gino, additional, and Mallet, Robert T., additional

Published

2023

4. Shaping mechanisms of metal specificity in a family of metazoan metallothioneins : evolutionary differentiation of mollusc metallothioneins

Author

Palacios, Òscar, Pagani, Ayelen, Pérez-Rafael, Sílvia, Egg, Margit, Höckner, Martina, Brandstätter, Anita, Capdevila, Mercè, Atrian, Sílvia, and Dallinger, Reinhard

Subjects

Spectrometry, Mass, Electrospray Ionization, COPPER, Evolution, Molecular, purl.org/becyt/ford/1 [https], Ciencias Biológicas, CADMIUM, Gene Duplication, Yeasts, Escherichia coli, HELIX POMATIA, Animals, purl.org/becyt/ford/1.6 [https], lcsh:QH301-705.5, Agricultural and Biological Sciences(all), Biochemistry, Genetics and Molecular Biology(all), METALLOTHIONEIN, Circular Dichroism, Helix, Snails, Bioquímica y Biología Molecular, Zinc, lcsh:Biology (General), Metallothionein, Spectrophotometry, Ultraviolet, Copper, CIENCIAS NATURALES Y EXACTAS, Research Article, Cadmium

Abstract

Background: The degree of metal binding specificity in metalloproteins such as metallothioneins (MTs) can be crucial for their functional accuracy. Unlike most other animal species, pulmonate molluscs possess homometallic MT isoforms loaded with Cu+ or Cd2+. They have, so far, been obtained as native metal-MT complexes from snail tissues, where they are involved in the metabolism of the metal ion species bound to the respective isoform. However, it has not as yet been discerned if their specific metal occupation is the result of a rigid control of metal availability, or isoform expression programming in the hosting tissues or of structural differences of the respective peptides determining the coordinative options for the different metal ions. In this study, the Roman snail (Helix pomatia) Cu-loaded and Cd-loaded isoforms (HpCuMT and HpCdMT) were used as model molecules in order to elucidate the biochemical and evolutionary mechanisms permitting pulmonate MTs to achieve specificity for their cognate metal ion. Results: HpCuMT and HpCdMT were recombinantly synthesized in the presence of Cd2+, Zn2+ or Cu2+ and corresponding metal complexes analysed by electrospray mass spectrometry and circular dichroism (CD) and ultra violet-visible (UV-Vis) spectrophotometry. Both MT isoforms were only able to form unique, homometallic and stable complexes (Cd6-HpCdMT and Cu12-HpCuMT) with their cognate metal ions. Yeast complementation assays demonstrated that the two isoforms assumed metal-specific functions, in agreement with their binding preferences, in heterologous eukaryotic environments. In the snail organism, the functional metal specificity of HpCdMT and HpCuMT was contributed by metal-specific transcription programming and cell-specific expression. Sequence elucidation and phylogenetic analysis of MT isoforms from a number of snail species revealed that they possess an unspecific and two metal-specific MT isoforms, whose metal specificity was achieved exclusively by evolutionary modulation of non-cysteine amino acid positions. Conclusion: The Roman snail HpCdMT and HpCuMT isoforms can thus be regarded as prototypes of isoform families that evolved genuine metal-specificity within pulmonate molluscs. Diversification into these isoforms may have been initiated by gene duplication, followed by speciation and selection towards opposite needs for protecting copper-dominated metabolic pathways from nonessential cadmium. The mechanisms enabling these proteins to be metal-specific could also be relevant for other metalloproteins. Fil: Palacios, Oscar. Universitat Autonoma de Barcelona; España Fil: Pagani, María Ayelén. Universidad de Barcelona; España. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Perez Rafael, Silvia. Universitat Autonoma de Barcelona; España Fil: Egg, Margit. Universidad de Innsbruck; Austria Fil: Höckner, Martina. Universidad de Innsbruck; Austria Fil: Brandstätter, Anita. Universidad de Innsbruck; Austria Fil: Capdevila, Merce. Universitat Autonoma de Barcelona; España Fil: Atrian, Silvia. Universidad de Barcelona; España Fil: Dallinger, Reinhard. Universidad de Innsbruck; Austria

Published

2021

5. Aging Cell Culture - Genetic and Metabolic Effects of Passage Number on Zebrafish Z3 Cells.

Author

Šrut, Maja, Peer, Bettina, Fiechtner, Birgit, Egg, Margit, Sandbichler, Adolf Michael, and Höckner, Martina

Subjects

CELL culture, CELL lines, DNA damage, GENE expression, OXIDATIVE stress

Abstract

Background/Aims: Since cell lines are cultured and extensively used in a variety of different research disciplines, we determined the effects of passage numbers on a commonly used embryonic zebrafish cell line (Z3). Methods: Senescence markers, DNA damage, the redox state, gene expression, and metabolic parameters have been investigated in young (passage 5) up to very old (passage 40 and higher) cells. Results: Besides increasing DNA damage, we also found elevated metabolic capacity and a shift to a more reduced cellular redox state in the cells. Interestingly, several parameters showed a non-linear course regarding the passage number or cell age, so that for example young and mid-aged cells appeared to cluster with very old rather than with old cells. Conclusion: This study illustrates the importance of passage number and suggests pre-testing specific parameters to assure the generation of accurate and reproducible data. [ABSTRACT FROM AUTHOR]

Published

2022

6. Nuclear magnetic resonance affects the circadian clock and hypoxia-inducible factor isoforms in zebrafish

Author

Oliva, Regina, Jansen, Bianca, Benscheidt, Felix, Sandbichler, Adolf Michael, and Egg, Margit

Subjects

human activities

Abstract

Nuclear magnetic resonance (NMR) is used for magnetic resonance imaging and, at a lower intensity, as therapy for the treatment of musculoskeletal disorders. Due to the involvement of the circadian clock protein CRYPTOCHROME in the magnetic orientation of animals, it was repeatedly assumed that magnetic fields might affect the circadian rhythm of cells and organisms. Since circadian time keeping and hypoxic signaling are mutually intertwined, we investigated the effects of NMR on both cellular pathways in zebrafish fibroblast cells and larvae. In cells, basal mRNA expression of cryptochrome1aa was increased and oscillations of cryptochrome1aa and period1b were shifted in phase, while those of clock1a and period2 remained unaffected. Similarly, circadian oscillations of cryptochrome1aa and period1b were restored in zebrafish larvae, while those of clock1a and period2 remained unaltered. NMR also restored the circadian expression of the hypoxia-inducible factor (Hif) isoforms Hif-1α and Hif-3α at the mRNA and protein level, but had no effect on the expression of Hif-2α. Thus, NMR-mediated effects might differ substantially from the light-induced reset of the circadian clock in the same species and therefore represent an additional operation mode of the cellular clock, enabling distinct processing of photic and magnetic information.

Published

2018

7. Shaping mechanisms of metal specificity in a family of metazoan metallothioneins: evolutionary differentiation of mollusc metallothioneins

Author

Atrian Sílvia, Capdevila Mercè, Brandstätter Anita, Höckner Martina, Egg Margit, Pérez-Rafael Sílvia, Pagani Ayelen, Palacios Òscar, and Dallinger Reinhard

Subjects

Biology (General), QH301-705.5

Abstract

Abstract Background The degree of metal binding specificity in metalloproteins such as metallothioneins (MTs) can be crucial for their functional accuracy. Unlike most other animal species, pulmonate molluscs possess homometallic MT isoforms loaded with Cu+ or Cd2+. They have, so far, been obtained as native metal-MT complexes from snail tissues, where they are involved in the metabolism of the metal ion species bound to the respective isoform. However, it has not as yet been discerned if their specific metal occupation is the result of a rigid control of metal availability, or isoform expression programming in the hosting tissues or of structural differences of the respective peptides determining the coordinative options for the different metal ions. In this study, the Roman snail (Helix pomatia) Cu-loaded and Cd-loaded isoforms (HpCuMT and HpCdMT) were used as model molecules in order to elucidate the biochemical and evolutionary mechanisms permitting pulmonate MTs to achieve specificity for their cognate metal ion. Results HpCuMT and HpCdMT were recombinantly synthesized in the presence of Cd2+, Zn2+ or Cu2+ and corresponding metal complexes analysed by electrospray mass spectrometry and circular dichroism (CD) and ultra violet-visible (UV-Vis) spectrophotometry. Both MT isoforms were only able to form unique, homometallic and stable complexes (Cd6-HpCdMT and Cu12-HpCuMT) with their cognate metal ions. Yeast complementation assays demonstrated that the two isoforms assumed metal-specific functions, in agreement with their binding preferences, in heterologous eukaryotic environments. In the snail organism, the functional metal specificity of HpCdMT and HpCuMT was contributed by metal-specific transcription programming and cell-specific expression. Sequence elucidation and phylogenetic analysis of MT isoforms from a number of snail species revealed that they possess an unspecific and two metal-specific MT isoforms, whose metal specificity was achieved exclusively by evolutionary modulation of non-cysteine amino acid positions. Conclusion The Roman snail HpCdMT and HpCuMT isoforms can thus be regarded as prototypes of isoform families that evolved genuine metal-specificity within pulmonate molluscs. Diversification into these isoforms may have been initiated by gene duplication, followed by speciation and selection towards opposite needs for protecting copper-dominated metabolic pathways from nonessential cadmium. The mechanisms enabling these proteins to be metal-specific could also be relevant for other metalloproteins.

Published

2011

8. Hypoxia-inducible transcription factors in fish: expression, function and interconnection with the circadian clock

Author

Pelster, Bernd, primary and Egg, Margit, additional

Published

2018

9. Metabolic Plasticity Enables Circadian Adaptation to Acute Hypoxia in Zebrafish Cells

Author

Sandbichler, Adolf M., primary, Jansen, Bianca, additional, Peer, Bettina A., additional, Paulitsch, Monika, additional, Pelster, Bernd, additional, and Egg, Margit, additional

Published

2018

10. Shaping mechanisms of metal specificity in a family of metazoan Metallothioneins: evolutionary differentiation of Mollusc MTs

Author

Palacios Bonilla, Òscar, Pagani, Ayelen, Perez-Rafael, Silvia, Egg, Margit, Höckner, Martina, Brandstätter, Anita, Capdevila Vidal, Mercè, Atrian i Ventura, Sílvia, Dallinger, Reinhard, and Universitat de Barcelona

Subjects

Metazous, Metal·loproteïnes, Metazoa, Metalloproteins, Molecular genetics, Genètica molecular

Abstract

Background: The degree of metal binding specificity in metalloproteins such as metallothioneins (MTs) can be crucial for their functional accuracy. Unlike most other animal species, pulmonate molluscs possess homometallic MT isoforms loaded with Cu+ or Cd2+. They have, so far, been obtained as native metal-MT complexes from snail tissues, where they are involved in the metabolism of the metal ion species bound to the respective isoform. However, it has not as yet been discerned if their specific metal occupation is the result of a rigid control of metal availability, or isoform expression programming in the hosting tissues or of structural differences of the respective peptides determining the coordinative options for the different metal ions. In this study, the Roman snail (Helix pomatia) Cu-loaded and Cd-loaded isoforms (HpCuMT and HpCdMT) were used as model molecules in order t o elucidate the biochemical and evolutionary mechanisms permitting pulmonate MTs to achieve specificity for their cognate metal ion. Results: HpCuMT and HpCdMT were recombinantly synthesized in the presence of Cd2+, Zn2+ or Cu2+ and corresponding metal complexes analysed by electrospray mass spectrometry and circular dichroism (CD) and ultra violet-visible (UV-Vis) spectrophotometry. Both MT isoforms were only able to form unique, homometallic and stable complexes (Cd6-HpCdMT and Cu12-HpCuMT) with their cognate metal ions. Yeast complementation assays demonstrated that the two isoforms assumed metal-specific functions, in agreement with their binding preferences, in heterologous eukaryotic environments. In the snail organism, the functional metal specificity of HpCdMT and HpCuMT was contributed by metal-specific transcription programming and cell-specific expression. Sequence elucidation and phylogenetic analysis of MT isoforms from a number of snail species revealed that they possess an unspecific and two metal-specific MT isoforms, whose metal specificity was achieved exclusively by evolutionary modulation of non-cysteine amino acid positions. Conclusion: The Roman snail HpCdMT and HpCuMT isoforms can thus be regarded as prototypes of isoform families that evolved genuine metal-specificity within pulmonate molluscs. Diversification into these isoforms may have been initiated by gene duplication, followed by speciation and selection towards opposite needs for protecting copper-dominated metabolic pathways from nonessential cadmium. The mechanisms enabling these proteins to be metal-specific could also be relevant for other metalloproteins.

Published

2011

11. Prolonged Hypoxia Increases Survival Even in Zebrafish (Danio rerio) Showing Cardiac Arrhythmia

Author

Kopp, Renate, primary, Bauer, Ines, additional, Ramalingam, Anil, additional, Egg, Margit, additional, and Schwerte, Thorsten, additional

Published

2014

12. HIF signaling and overall gene expression changes during hypoxia and prolonged exercise differ considerably

Author

Kopp, Renate, primary, Köblitz, Louise, additional, Egg, Margit, additional, and Pelster, Bernd, additional

Published

2011

13. Claudin 28b and F-actin are involved in rainbow trout gill pavement cell tight junction remodeling under osmotic stress

Author

Sandbichler, Adolf Michael, primary, Egg, Margit, additional, Schwerte, Thorsten, additional, and Pelster, Bernd, additional

Published

2011

14. Shaping mechanisms of metal specificity in a family of metazoan metallothioneins: evolutionary differentiation of mollusc metallothioneins

Author

Palacios, Òscar, primary, Pagani, Ayelen, additional, Pérez-Rafael, Sílvia, additional, Egg, Margit, additional, Höckner, Martina, additional, Brandstätter, Anita, additional, Capdevila, Mercè, additional, Atrian, Sílvia, additional, and Dallinger, Reinhard, additional

Published

2011

15. Chronic reduction in cardiac output induces hypoxic signaling in larval zebrafish even at a time when convective oxygen transport is not required

Author

Kopp, Renate, primary, Schwerte, Thorsten, additional, Egg, Margit, additional, Sandbichler, Adolf Michael, additional, Egger, Bernhard, additional, and Pelster, Bernd, additional

Published

2010

16. Prolonged Hypoxia Increases Survival Even in Zebrafish (Danio rerio) Showing Cardiac Arrhythmia.

Author

Kopp, Renate, Bauer, Ines, Ramalingam, Anil, Egg, Margit, and Schwerte, Thorsten

Subjects

HYPOXEMIA, ZEBRA danio, ARRHYTHMIA, FISH larvae, CELLULAR signal transduction, ERYTHROCYTES, CARDIAC hypertrophy, FISHES, PHYSIOLOGY

Abstract

Tolerance towards hypoxia is highly pronounced in zebrafish. In this study even beneficial effects of hypoxia, specifically enhanced survival of zebrafish larvae, could be demonstrated. This effect was actually more pronounced in breakdance mutants, which phenotypically show cardiac arrhythmia. Breakdance mutants (bre) are characterized by chronically reduced cardiac output. Despite an about 50% heart rate reduction, they become adults, but survival rate significantly drops to 40%. Normoxic bre animals demonstrate increased hypoxia inducible factor 1 a (Hif-1α) expression, which indicates an activated hypoxic signaling pathway. Consequently, cardiovascular acclimation, like cardiac hypertrophy and increased erythrocyte concentration, occurs. Thus, it was hypothesized, that under hypoxic conditions survival might be even more reduced. When bre mutants were exposed to hypoxic conditions, they surprisingly showed higher survival rates than under normoxic conditions and even reached wildtype values. In hypoxic wildtype zebrafish, survival yet exceeded normoxic control values. To specify physiological acclimation, cardiovascular and metabolic parameters were measured before hypoxia started (3 dpf), when the first differences in survival rate occurred (7 dpf) and when survival rate plateaued (15 dpf). Hypoxic animals expectedly demonstrated Hif-1α accumulation and consequently enhanced convective oxygen carrying capacity. Moreover, bre animals showed a significantly enhanced heart rate under hypoxic conditions, which reached normoxic wildtype values. This improvement in convective oxygen transport ensured a sufficient oxygen and nutrient supply and was also reflected in the significantly higher mitochondrial activity. The highly optimized energy metabolism observed in hypoxic zebrafish larvae might be decisive for periods of higher energy demand due to organ development, growth and increased activity. However, hypoxia increased survival only during a short period of development and starting hypoxia before or after this phase reduced survival, particularly in bre animals. Thus, the physiological plasticity, which enables zebrafish larvae to benefit from a hypoxia, occurs only within a narrow developmental window. [ABSTRACT FROM AUTHOR]

Published

2014

17. The role of metallothionein in cadmium accumulation of Arctic char (Salvelinus alpinus) from high alpine lakes

Author

Dallinger, Reinhard, primary, Egg, Margit, additional, Köck, Günther, additional, and Hofer, Rudolf, additional

Published

1997