Search

Your search keyword '"Módos K"' showing total 29 results
Start Over Author "Módos K"
29 results on '"Módos K"'

7. Detection and isolation of cell-derived microparticles are compromised by protein complexes due to shared biophysical parameters

Author

György, B, Módos, K, Pállinger, E, Pálóczi, K, Pásztói, M, Misják, P, Deli, M A, Sipos, A, Szalai, A, Voszka, I, Polgár, A, Tóth, K, Csete, M, Nagy, G, Gay, S, Falus, A, Kittel, A, Buzás, E I, and University of Zurich

Subjects
1307 Cell Biology, 2403 Immunology, 1303 Biochemistry, 2720 Hematology, 10051 Rheumatology Clinic and Institute of Physical Medicine, 610 Medicine & health
Published
2011
Full Text
View/download PDF

11. Thallium Labeled Citrate-Coated Prussian Blue Nanoparticles as Potential Imaging Agent.

Author

Szigeti K, Hegedűs N, Rácz K, Horváth I, Veres DS, Szöllősi D, Futó I, Módos K, Bozó T, Karlinger K, Kovács N, Varga Z, Babos M, Budán F, Padmanabhan P, Gulyás B, and Máthé D

Subjects
Animals, Citric Acid, Contrast Media pharmacokinetics, Drug Stability, Magnetic Resonance Imaging methods, Mice, Mice, Inbred C57BL, Radiopharmaceuticals pharmacokinetics, Thallium, Tissue Distribution, Tomography, Emission-Computed, Single-Photon methods, Contrast Media chemical synthesis, Ferrocyanides pharmacokinetics, Nanoparticles chemistry, Radiopharmaceuticals chemical synthesis
Abstract

Background: The aim of this study was to develop and characterize a nanoparticle-based image-contrast platform which is biocompatible, chemically stable, and accessible for radiolabeling with 201 Tl. We explored whether this nanoparticle enhanced the T1 signal which might make it an MRI contrast agent as well., Methods: The physical properties of citrate-coated Prussian blue nanoparticles (PBNPs) (iron(II);iron(III);octadecacyanide) doped with 201 Tl isotope were characterized with atomic force microscopy, dynamic light scattering, and zeta potential measurement. PBNP biodistribution was determined by using SPECT and MRI following intravenous administration into C57BL6 mice. Activity concentrations (MBq/cm 3 ) were calculated from the SPECT scans for each dedicated volume of interest (VOI) of liver, kidneys, salivary glands, heart, lungs, and brain., Results: PBNP accumulation peaked at 2 hours after injection predominantly in the kidneys and the liver followed by a gradual decrease in activity in later time points., Conclusion: We synthetized, characterized, and radiolabeled a Prussian blue-based nanoparticle platform for contrast material applications. Its in vivo radiochemical stability and biodistribution open up the way for further diagnostic applications.

Published
2018
Full Text
View/download PDF

12. Potential steps in the evolution of a fused trimeric all-β dUTPase involve a catalytically competent fused dimeric intermediate.

Author

Benedek A, Horváth A, Hirmondó R, Ozohanics O, Békési A, Módos K, Révész Á, Vékey K, Nagy GN, and Vértessy BG

Subjects
Amino Acid Sequence, Amino Acid Substitution, Animals, Drosophila Proteins metabolism, Enzyme Stability, Gene Duplication, Genes, Insect, Models, Molecular, Phylogeny, Point Mutation, Protein Folding, Protein Structure, Quaternary, Pyrophosphatases metabolism, Sequence Homology, Amino Acid, Tandem Repeat Sequences, Drosophila enzymology, Drosophila genetics, Drosophila Proteins chemistry, Drosophila Proteins genetics, Evolution, Molecular, Pyrophosphatases chemistry, Pyrophosphatases genetics
Abstract

Deoxyuridine 5'-triphosphate nucleotidohydrolase (dUTPase) is essential for genome integrity. Interestingly, this enzyme from Drosophila virilis has an unusual form, as three monomer repeats are merged with short linker sequences, yielding a fused trimer-like dUTPase fold. Unlike homotrimeric dUTPases that are encoded by a single repeat dut gene copy, the three repeats of the D. virilis dut gene are not identical due to several point mutations. We investigated the potential evolutionary pathway that led to the emergence of this extant fused trimeric dUTPase in D. virilis. The herein proposed scenario involves two sequential gene duplications followed by sequence divergence amongst the dut repeats. This pathway thus requires the existence of a transient two-repeat-containing fused dimeric dUTPase intermediate. We identified the corresponding ancestral dUTPase single repeat enzyme together with its tandem repeat evolutionary intermediate and characterized their enzymatic function and structural stability. We additionally engineered and characterized artificial single or tandem repeat constructs from the extant enzyme form to investigate the influence of the emergent residue alterations on the formation of a functional assembly. The observed severely impaired stability and catalytic activity of these latter constructs provide a plausible explanation for evolutionary persistence of the extant fused trimeric D. virilis dUTPase form. For the ancestral homotrimeric and the fused dimeric intermediate forms, we observed strong catalytic and structural competence, verifying viability of the proposed evolutionary pathway. We conclude that the progression along the herein described evolutionary trajectory is determined by the retained potential of the enzyme for its conserved three-fold structural symmetry., (© 2016 Federation of European Biochemical Societies.)

Published
2016
Full Text
View/download PDF

13. Isolation of Exosomes from Blood Plasma: Qualitative and Quantitative Comparison of Ultracentrifugation and Size Exclusion Chromatography Methods.

Author

Baranyai T, Herczeg K, Onódi Z, Voszka I, Módos K, Marton N, Nagy G, Mäger I, Wood MJ, El Andaloussi S, Pálinkás Z, Kumar V, Nagy P, Kittel Á, Buzás EI, Ferdinandy P, and Giricz Z

Subjects
Animals, Male, Plasma chemistry, Rats, Wistar, Chromatography, Gel methods, Exosomes chemistry, Plasma cytology, Ultracentrifugation methods
Abstract

Background: Exosomes are emerging targets for biomedical research. However, suitable methods for the isolation of blood plasma-derived exosomes without impurities have not yet been described., Aim: Therefore, we investigated the efficiency and purity of exosomes isolated with potentially suitable methods; differential ultracentrifugation (UC) and size exclusion chromatography (SEC)., Methods and Results: Exosomes were isolated from rat and human blood plasma by various UC and SEC conditions. Efficiency was investigated at serial UC of the supernatant, while in case of SEC by comparing the content of exosomal markers of various fractions. Purity was assessed based on the presence of albumin. We found that the diameter of the majority of isolated particles fell into the size range of exosomes, however, albumin was also present in the preparations, when 1h UC at 4°C was applied. Furthermore, with this method only a minor fraction of total exosomes could be isolated from blood as deduced from the constant amount of exosomal markers CD63 and TSG101 detected after serial UC of rat blood plasma samples. By using UC for longer time or with shorter sedimentation distance at 4°C, or UC performed at 37°C, exosomal yield increased, but albumin impurity was still observed in the isolates, as assessed by transmission electron microscopy, dynamic light scattering and immunoblotting against CD63, TSG101 and albumin. Efficiency and purity were not different in case of using further diluted samples. By using SEC with different columns, we have found that although a minor fraction of exosomes can be isolated without significant albumin content on Sepharose CL-4B or Sephacryl S-400 columns, but not on Sepharose 2B columns, the majority of exosomes co-eluted with albumin., Conclusion: Here we show that it is feasible to isolate exosomes from blood plasma by SEC without significant albumin contamination albeit with low vesicle yield.

Published
2015
Full Text
View/download PDF

14. Alteration of consciousness via diverse photo-acoustic stimulatory patterns. Phenomenology and effect on salivary flow rate, alpha-amylase and total protein levels.

Author

Beck A, Fábián G, Fejérdy P, Krause WR, Hermann P, Módos K, Varga G, and Fábián TK

Subjects
Humans, Photoacoustic Techniques, Salivary Glands enzymology, Acoustic Stimulation, Consciousness physiology, Saliva chemistry, Saliva enzymology, Salivary Glands physiology, alpha-Amylases metabolism
Abstract

Long-term photo-acoustic stimulation is used for the induction of altered states of consciousness for both therapeutic and experimental purposes. Long-term photo-acoustic stimulation also leads to changes in the composition of saliva which have a key contribution to the efficiency of this technique in easing mucosal symptoms of oral psychosomatic patients. The aim of this study is to find out whether there is any cumulative effect of repeated stimulation and whether there are any detectable differences between diverse stimulatory patterns of long lasting photo-acoustic stimulation on the phenomenology of the appearing trance state and on salivary secretion. There was significant cumulative effect in relation with the appearance of day dreaming as phenomenological parameter, and in relation with protein output and amylase/protein ratio as salivary parameter. Pattern specific effect was detectable in relation with salivary flow rate only. Although our results clearly indicate the existence of certain cumulative and stimulation-pattern specific effects of repeated photo-acoustic stimulation, the absolute values of all these effects were relatively small in this study. Therefore, in spite of their theoretical importance there are no direct clinical consequences of these findings. However, our data do not exclude at all the possibility that repeated stimulation with other stimulatory parameters may lead to more pronounced effects. Further studies are needed to make clear conclusion in this respect., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published
2015
Full Text
View/download PDF

15. Visualization of human Bloom's syndrome helicase molecules bound to homologous recombination intermediates.

Author

Gyimesi M, Pires RH, Billington N, Sarlós K, Kocsis ZS, Módos K, Kellermayer MS, and Kovács M

Subjects
Adenosine Triphosphate metabolism, Amino Acid Sequence, DNA, Single-Stranded chemistry, Humans, Hydrolysis, Molecular Sequence Data, Protein Binding, Protein Multimerization, RecQ Helicases metabolism, DNA, Single-Stranded metabolism, Homologous Recombination, RecQ Helicases chemistry
Abstract

Homologous recombination (HR) is a key process in the repair of double-stranded DNA breaks (DSBs) that can initiate cancer or cell death. Human Bloom's syndrome RecQ-family DNA helicase (BLM) exerts complex activities to promote DSB repair while avoiding illegitimate HR. The oligomeric assembly state of BLM has been a key unresolved aspect of its activities. In this study we assessed the structure and oligomeric state of BLM, in the absence and presence of key HR-intermediate DNA structures, by using single-molecule visualization (electron microscopic and atomic force microscopic single-particle analysis) and solution biophysical (dynamic light scattering, kinetic and equilibrium binding) techniques. Besides full-length BLM, we used a previously characterized truncated construct (BLM(642-1290)) as a monomeric control. Contrary to previous models proposing a ring-forming oligomer, we found the majority of BLM molecules to be monomeric in all examined conditions. However, BLM showed a tendency to form dimers when bound to branched HR intermediates. Our results suggest that HR activities requiring single-stranded DNA translocation are performed by monomeric BLM, while complex DNA structures encountered and dissolved by BLM in later stages of HR induce partial oligomerization of the helicase.

Published
2013
Full Text
View/download PDF

16. The loops facing the active site of prolyl oligopeptidase are crucial components in substrate gating and specificity.

Author

Szeltner Z, Juhász T, Szamosi I, Rea D, Fülöp V, Módos K, Juliano L, and Polgár L

Subjects
Aeromonas genetics, Amino Acid Substitution, Bacterial Proteins genetics, Catalytic Domain, Crystallography, X-Ray, Mutation, Missense, Prolyl Oligopeptidases, Protein Structure, Secondary, Serine Endopeptidases genetics, Aeromonas enzymology, Bacterial Proteins chemistry, Molecular Dynamics Simulation, Serine Endopeptidases chemistry
Abstract

Prolyl oligopeptidase (POP) has emerged as a drug target for neurological diseases. A flexible loop structure comprising loop A (res. 189-209) and loop B (res. 577-608) at the domain interface is implicated in substrate entry to the active site. Here we determined kinetic and structural properties of POP with mutations in loop A, loop B, and in two additional flexible loops (the catalytic His loop, propeller Asp/Glu loop). POP lacking loop A proved to be an inefficient enzyme, as did POP with a mutation in loop B (T590C). Both variants displayed an altered substrate preference profile, with reduced ligand binding capacity. Conversely, the T202C mutation increased the flexibility of loop A, enhancing the catalytic efficiency beyond that of the native enzyme. The T590C mutation in loop B increased the preference for shorter peptides, indicating a role in substrate gating. Loop A and the His loop are disordered in the H680A mutant crystal structure, as seen in previous bacterial POP structures, implying coordinated structural dynamics of these loops. Unlike native POP, variants with a malfunctioning loop A were not inhibited by a 17-mer peptide that may bind non-productively to an exosite involving loop A. Biophysical studies suggest a predominantly closed resting state for POP with higher flexibility at the physiological temperature. The flexible loop A, loop B and His loop system at the active site is the main regulator of substrate gating and specificity and represents a new inhibitor target., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published
2013
Full Text
View/download PDF

17. Comparison of binding ability and location of two mesoporphyrin derivatives in liposomes explored with conventional and site-selective fluorescence spectroscopy.

Author

Veres D, Bőcskei-Antal B, Voszka I, Módos K, Csík G, Kaposi AD, Fidy J, and Herenyi L

Subjects
Binding Sites, Mesoporphyrins classification, Models, Molecular, Photosensitizing Agents chemistry, Protoporphyrins chemistry, Cell Membrane chemistry, Liposomes chemistry, Mesoporphyrins chemistry, Spectrometry, Fluorescence
Abstract

Application of porphyrins as photosensitizers is based on their light-triggered generation of reactive oxygen species (ROS) that may cause oxidative tissue damage and ultimately kill cells. Cellular membranes are the action grounds of many sensitizers due to their hydrophobic or amphiphilic character as well as the location of many of the targets attacked by ROS. Hence, the binding ability and location of porphyrins in liposomes as simple models of cellular membranes are of outstanding interest. Here we compare mesoporphyrin IX dimethyl ester (MPE) and its nonesterified form, mesoporphyrin IX dihydrochloride (MPCl). Monocomponent small unilamellar vesicles formed of various saturated phosphatidylcholines with incorporated mesoporphyrins were investigated. We determined the binding parameters and the inhomogeneous distribution functions (IDFs) by different fluorescence techniques. We found in general that the binding ability of MPE is considerably greater than that of MPCl. In the case of MPCl, the IDFs suggest that only one of the two binding site types identified earlier for MPE ("site II") exists; the other one ("site I") vanishes while a new one appears ("site III"). We can confirm that "site I" is located between the two lipid layers, "site II" is situated between the hydrocarbon chains, while the location of the novel "site III" is along the outer part of the hydrocarbon chains partially inserted between the lipid head groups.

Published
2012
Full Text
View/download PDF

18. Millisecond time-scale protein dynamics exists prior to the activation of the bulk solvent matrix.

Author

Schay G, Herényi L, Kellermayer M, Módos K, Yonetani T, and Fidy J

Subjects
Fluorescent Dyes chemistry, Humans, Protein Subunits chemistry, Protoporphyrins chemistry, Temperature, Thermodynamics, Time Factors, Tryptophan chemistry, Zinc chemistry, Molecular Dynamics Simulation, Myoglobin chemistry, Solvents chemistry
Abstract

Conformational dynamics of proteins is of fundamental importance in their physiological functions. The exact mechanisms and determinants of protein motions, including the regulatory interplay between protein and solvent motions, are not yet fully understood. In the present work, the thermal activation of phosphorescence quenching was measured in oxygen-saturated aqueous protein solutions to explore protein dynamics in the millisecond range. The sample was brought to cryogenic temperatures in a fast cooling process to avoid the bulk crystallization of ice. The phosphorescence quenching effect was followed by the phosphorescence lifetime of either Zn-protoporphyrin substituting the heme in the β-subunits of human hemoglobin (Zn-HbA) or tryptophan residues of Zn-HbA and human myoglobin (Mb), measured in thermal equilibrium at temperatures varied from 8 to 273 K. The quenching effect was attributed primarily to the activation of collisions with O(2) molecules made possible by the activated millisecond time-scale dynamics of the matrix around the chromophores. We find that, in the studied temperature range, the activation of protein global dynamics facilitating oxygen diffusion takes place at clearly separated lower temperatures and independently from bulk solvent dynamics and that the energy and entropy differences between the studied frozen and thermally activated states are specific for the protein., (© 2011 American Chemical Society)

Published
2011
Full Text
View/download PDF

19. Detection and isolation of cell-derived microparticles are compromised by protein complexes resulting from shared biophysical parameters.

Author

György B, Módos K, Pállinger E, Pálóczi K, Pásztói M, Misják P, Deli MA, Sipos A, Szalai A, Voszka I, Polgár A, Tóth K, Csete M, Nagy G, Gay S, Falus A, Kittel A, and Buzás EI

Subjects
Adult, Aged, Case-Control Studies, Cell Fractionation standards, Cell-Derived Microparticles physiology, Female, Flow Cytometry, Humans, Male, Microscopy, Atomic Force, Microscopy, Electron, Middle Aged, Multiprotein Complexes chemistry, Particle Size, Biophysical Phenomena physiology, Cell Fractionation methods, Cell-Derived Microparticles chemistry, Multiprotein Complexes pharmacology
Abstract

Numerous diseases, recently reported to associate with elevated microvesicle/microparticle (MP) counts, have also long been known to be characterized by accelerated immune complex (IC) formation. The goal of this study was to investigate the potential overlap between parameters of protein complexes (eg, ICs or avidin-biotin complexes) and MPs, which might perturb detection and/or isolation of MPs. In this work, after comprehensive characterization of MPs by electron microscopy, atomic force microscopy, dynamic light-scattering analysis, and flow cytometry, for the first time, we drive attention to the fact that protein complexes, especially insoluble ICs, overlap in biophysical properties (size, light scattering, and sedimentation) with MPs. This, in turn, affects MP quantification by flow cytometry and purification by differential centrifugation, especially in diseases in which IC formation is common, including not only autoimmune diseases, but also hematologic disorders, infections, and cancer. These data may necessitate reevaluation of certain published data on patient-derived MPs and contribute to correct the clinical laboratory assessment of the presence and biologic functions of MPs in health and disease.

Published
2011
Full Text
View/download PDF

20. Structure and mechanism of calmodulin binding to a signaling sphingolipid reveal new aspects of lipid-protein interactions.

Author

Kovacs E, Harmat V, Tóth J, Vértessy BG, Módos K, Kardos J, and Liliom K

Subjects
Animals, Brain metabolism, Calorimetry, Cattle, Crystallography, X-Ray, Fluorescence, Kinetics, Micelles, Microsomes metabolism, Models, Molecular, Protein Binding, Calmodulin metabolism, Signal Transduction, Sphingolipids metabolism
Abstract

Lipid-protein interactions are rarely characterized at a structural molecular level due to technical difficulties; however, the biological significance of understanding the mechanism of these interactions is outstanding. In this report, we provide mechanistic insight into the inhibitory complex formation of the lipid mediator sphingosylphosphorylcholine with calmodulin, the most central and ubiquitous regulator protein in calcium signaling. We applied crystallographic, thermodynamic, kinetic, and spectroscopic approaches using purified bovine calmodulin and bovine cerebral microsomal fraction to arrive at our conclusions. Here we present 1) a 1.6-Å resolution crystal structure of their complex, in which the sphingolipid occupies the conventional hydrophobic binding site on calmodulin; 2) a peculiar stoichiometry-dependent binding process: at low or high protein-to-lipid ratio calmodulin binds lipid micelles or a few lipid molecules in a compact globular conformation, respectively, and 3) evidence that the sphingolipid displaces calmodulin from its targets on cerebral microsomes. We have ascertained the specificity of the interaction using structurally related lipids as controls. Our observations reveal the structural basis of selective calmodulin inhibition by the sphingolipid. On the basis of the crystallographic and biophysical characterization of the calmodulin-sphingosylphosphorylcholine interaction, we propose a novel lipid-protein binding model, which might be applicable to other interactions as well.

Published
2010
Full Text
View/download PDF

21. Recovery of functional enzyme from amyloid fibrils.

Author

Agócs G, Solymosi K, Varga A, Módos K, Kellermayer M, Závodszky P, Fidy J, and Osváth S

Subjects
Amyloid metabolism, Clinical Laboratory Techniques, Enzyme Stability, Hydrogen-Ion Concentration, Osmolar Concentration, Phosphoglycerate Kinase chemistry, Phosphoglycerate Kinase metabolism, Protein Denaturation, Protein Folding, Saccharomyces cerevisiae enzymology, Saccharomyces cerevisiae Proteins chemistry, Saccharomyces cerevisiae Proteins metabolism, Temperature, Amyloid chemistry, Phosphoglycerate Kinase isolation & purification, Phosphoglycerate Kinase physiology
Abstract

Amyloid deposits, which accumulate in numerous diseases, are the final stage of multi-step protein conformational-conversion and oligomerization processes. The underlying molecular mechanisms are not fully understood, and particularly little is known about the reverse reaction. Here we show that phosphoglycerate kinase amyloid fibrils can be converted back into native protein. We achieved recovery with 60% efficiency, which is comparable to the success rate of the unfolding-refolding studies, and the recovered enzyme was folded, stable and fully active. The key intermediate stages in the recovery process are fibril disassembly and unfolding followed by spontaneous protein folding., (Copyright 2010 Federation of European Biochemical Societies. Published by Elsevier B.V. All rights reserved.)

Published
2010
Full Text
View/download PDF

22. Location of mesoporphyrin in liposomes determined by site-selective fluorescence spectroscopy.

Author

Herenyi L, Veres D, Békási S, Voszka I, Módos K, Csík G, Kaposi AD, and Fidy J

Subjects
Light, Lipid Bilayers chemistry, Models, Chemical, Photochemistry, Scattering, Radiation, Spectrometry, Fluorescence, Liposomes chemistry, Mesoporphyrins chemistry, Photosensitizing Agents chemistry
Abstract

Binding of photosensitizers to target cells is a crucial step during the photodynamic effect. Sensitizer distribution is a good indication of whether the chemical is a good candidate for perturbing cell membrane integrity. Hence, the photophysical properties of porphyrinoid sensitizers in microheterogeneous systems such as liposomes are of outstanding interest. Here we present a site-selective fluorescence study of liposome systems. Monocomponent, small unilamellar vesicles formed of different phosphatidylcholines with incorporated mesoporphyrin were investigated. The size distribution of liposomes was measured by dynamic light scattering after each step of the experiment. On the basis of fluorescence line narrowing spectra of mesoporphyrin, the inhomogeneous distribution function was determined in order to characterize the photosensitizer location. The dual character of the functions revealed two different locations. Decomposition of the inhomogeneous distribution functions into Gaussians and the analysis of the fit results suggest that one of the locations for mesoporphyrin is between the two lipid layers, and the other one is between the hydrocarbon chains of the lipid molecules.

Published
2009
Full Text
View/download PDF

23. Biological responses to the simulated Martian UV radiation of bacteriophages and isolated DNA.

Author

Fekete A, Kovács G, Hegedüs M, Módos K, and Lammer H

Subjects
Bacteriophage T7 genetics, Bacteriophage T7 metabolism, DNA Damage, DNA, Viral genetics, DNA, Viral metabolism, Extraterrestrial Environment, Mars, Bacteriophage T7 radiation effects, DNA, Viral radiation effects, Ultraviolet Rays adverse effects
Abstract

Mars is considered as a main target for astrobiologically relevant exploration programmes. In this work the effect of simulated Martian solar UV radiation was examined on bacteriophage T7 and on isolated T7 DNA. A decrease of the biological activity of phages, characteristic changes in the absorption spectrum and in the electrophoretic pattern of isolated DNA/phage and the decrease of the amount of PCR products were detected indicating damage of isolated and intraphage T7 DNA by UV radiation. Further mechanistic insights into the UV-induced formation of intraphage/isolated T7 DNA photoproducts were gained from the application of appropriate enzymatic digestion and neutral/alkaline agarose gel electrophoresis. Our results showed that intraphage DNA was about ten times more sensitive to simulated Martian UV radiation than isolated T7 DNA indicating the role of phage proteins in the DNA damage. Compared to solar UV radiation the total amount of DNA damage determined by QPCR was about ten times larger in isolated DNA and phage T7 as well, and the types of the DNA photoproducts were different, besides cyclobutane pyrimidine dimers (CPD), double-strand breaks (dsb), and single-strand breaks (ssb), DNA-protein cross-links were produced as well. Surprisingly, energy deposition as low as 4-6 eV corresponding to 200-400 nm range could induce significant amount of ssb and dsb in phage/isolated DNA (in phage the ratio of ssb/dsb was approximately 23%/12% and approximately 32%/19% in isolated DNA). 5-8% of the CPD, 3-5% of the AP (apurinic/apyrimidinic) sites were located in clusters in DNA/phage, suggesting that clustering of damage occur in the form of multiple damaged sites and these can have a high probability to produce strand breaks. The amount of total DNA damage in samples which were irradiated in Tris buffer was reduced by a factor approximately 2, compared to samples in phosphate buffer, suggesting that some of the photoproducts were produced via radicals.

Published
2008
Full Text
View/download PDF

24. Comparison of the efficiency and the specificity of DNA-bound and free cationic porphyrin in photodynamic virus inactivation.

Author

Zupán K, Egyeki M, Tóth K, Fekete A, Herényi L, Módos K, and Csík G

Subjects
Bacteriophage T7 drug effects, Bacteriophage T7 radiation effects, Cations radiation effects, DNA drug effects, DNA radiation effects, Photosensitizing Agents, Porphyrins metabolism, DNA metabolism, Photochemistry methods, Porphyrins pharmacology, Porphyrins radiation effects, Virus Inactivation
Abstract

The risk of transmitting infections by blood transfusion has been substantially reduced. However, alternative methods for inactivation of pathogens in blood and its components are needed. Application of photoactivated cationic porphyrins can offer an approach to remove non-enveloped viruses from aqueous media. Here we tested the virus inactivation capability of meso-Tetrakis(4-N-methylpyridyl)porphyrin (TMPyP) and meso-Tri-(4-N-methylpyridyl)monophenylporphyrin (TMPyMPP) in the dark and upon irradiation. T7 bacteriophage, as a surrogate on non-enveloped viruses was selected as a test system. TMPyP and TMPyMPP reduce the viability of T7 phage already in the dark, which can be explained by their selective binding to nucleic acid. Both compounds proved to be efficient photosensitizers of virus inactivation. The binding of porphyrin to phage DNA was not a prerequisite of phage photosensitization, moreover, photoinactivation was more efficiently induced by free than by DNA bound porphyrin. As optical melting studies and agarose gel electrophoresis of T7 nucleoprotein revealed, photoreactions of TMPyP and TMPyMPP affect the structural integrity of DNA and also of viral proteins, despite their selective DNA binding.

Published
2008
Full Text
View/download PDF

25. Structural basis of the cofactor function of denatured albumin in plasminogen activation by tissue-type plasminogen activator.

Author

Galántai R, Módos K, Fidy J, Kolev K, and Machovich R

Subjects
Benzothiazoles, Electrophoresis, Polyacrylamide Gel, Humans, Particle Size, Protein Denaturation, Thiazoles pharmacology, Plasminogen metabolism, Serum Albumin chemistry, Serum Albumin metabolism, Tissue Plasminogen Activator metabolism
Abstract

Certain denatured proteins function as cofactors in the activation of plasminogen by tissue-type plasminogen activator. The present study approached the structural requirements for the cofactor activity of a model protein (human serum albumin). Heat denaturation of 100-230 microM albumin (80 degrees C and 60-90 min) reproducibly yielded aggregates with radius in the range of 10-150 nm. The major determinant of the cofactor potency was the size of the aggregates. The increase of particle size correlated with the cofactor activity, and there was a minimal requirement for the size of the cofactor (about 10 nm radius). Similar to other proteins, the molecular aggregates with cofactor function contained a significant amount of antiparallel intermolecular beta-sheets. Plasmin pre-digestion increased the cofactor efficiency (related to C-terminal lysine exposure) and did not affect profoundly the structure of the aggregates, suggesting a long-lasting and even a self-augmenting cofactor function of the denatured protein.

Published
2006
Full Text
View/download PDF

26. Exposure of phage T7 to simulated space environment: the effect of vacuum and UV-C radiation.

Author

Hegedüs M, Kovács G, Módos K, Rontó G, Lammer H, Panitz C, and Fekete A

Subjects
DNA Damage radiation effects, Bacteriophage T7 genetics, Bacteriophage T7 radiation effects, DNA, Viral radiation effects, Extraterrestrial Environment, Ultraviolet Rays, Vacuum
Abstract

The experiment "Phage and Uracil Response" (PUR) will be accommodated in the EXPOSE facility of the International Space Station (ISS). Its objective is to examine and quantify the effect of specific space conditions on bacteriophage T7 and isolated T7 DNA thin films. In order to define the environmental and technical requirements of the EXPOSE, the samples were subjected to the Experiment Verification Test (EVT). During EVT the samples were exposed to selected space conditions: high vacuum (10(-4) to 10(-6) Pa) and UV-C radiation (254 nm) alone and in combination. Characteristic changes in the absorption spectrum, in the electrophoretic pattern of DNA/phage and the decrease of the amount of PCR products have been detected indicating the damage of isolated and intraphage T7 DNA. Intraphage DNA is more sensitive to simulated space parameters than isolated T7 DNA in thin layers as well. We obtained substantial evidence that DNA lesions accumulate throughout exposure, and the amount of damage depends on the thickness of the layers. According to our preliminary results, the damages by exposure to conditions of dehydration and UV irradiation are larger than the sum of vacuum alone, or radiation alone case, suggesting a synergistic action of space vacuum and UV radiation with DNA being the critical target.

Published
2006
Full Text
View/download PDF

27. Maximum-entropy decomposition of fluorescence correlation spectroscopy data: application to liposome-human serum albumin association.

Author

Módos K, Galántai R, Bárdos-Nagy I, Wachsmuth M, Tóth K, Fidy J, and Langowski J

Subjects
Biophysical Phenomena, Biophysics, Diffusion, Dimyristoylphosphatidylcholine chemistry, Entropy, Fluorescent Dyes, Humans, In Vitro Techniques, Mesoporphyrins, Phosphatidylglycerols chemistry, Spectrometry, Fluorescence statistics & numerical data, Liposomes chemistry, Serum Albumin chemistry, Spectrometry, Fluorescence methods
Abstract

Fluorescence correlation spectroscopy was used to measure the diffusion behavior of a mixture of DMPC or DMPC/DMPG liposomes with human serum albumin (HSA) and mesoporphyrin (MP), which was used as the fluorescent label for liposomes and HSA as well. For decomposing the fluorescence intensity autocorrelation function (ACF) into components corresponding to a liposome population, HSA and MP, we used a maximum entropy procedure that computes a distribution of diffusion times consistent with the ACF data. We found that a simple parametric non-linear fit with a discrete set of decay components did not converge to a stable parameter set. The distribution calculated with the maximum entropy method was stable and the average size of the particles calculated from the effective diffusion time was in good agreement with the data determined using the discrete-component fit.

Published
2004
Full Text
View/download PDF

28. Serum albumin-lipid membrane interaction influencing the uptake of porphyrins.

Author

Galántai R, Bárdos-Nagy I, Módos K, Kardos J, Závodszky P, and Fidy J

Subjects
Binding Sites, Biological Transport, Active, Calorimetry, Differential Scanning, Humans, In Vitro Techniques, Kinetics, Light, Liposomes, Mesoporphyrins metabolism, Models, Biological, Protein Binding, Scattering, Radiation, Membrane Lipids metabolism, Porphyrins metabolism, Serum Albumin metabolism
Abstract

It is frequently observed in pharmaceutical practice that entrapped substances are lost rapidly when liposomes are used as carriers to introduce substances into cells. The reason for the loss is the interaction of serum components with liposomes. To elucidate the mechanism of this phenomenon the partition of mesoporphyrin (MP) was systematically studied in model systems composed of various lipids and human serum albumin (HSA). As surface charge is an important factor in the interaction, neutral (1, 2-dimyristoyl-sn-glycero-3-phosphatidylcoline, DMPC) and negatively charged (1,2-dimyristoyl-sn-glycero-3-phosphatidylcoline/1, 2-dimyristoyl-sn-glycero-3-phosphatidylglycerol, DMPC/DMPG = 19/1 w/w) lipids were compared. The liposome/apomyoglobin system was the negative control. The size distribution of sonicated samples was carefully analyzed by dynamic light scattering. Constants of association of MP to the proteins and to the liposomes were determined: K(p,1) = (2.5 +/- 0.7) x 10(7) M(-1), K(p,2) = (1.0 +/- 0.7) x 10(8) M(-1), K(L,1) = (1.3 +/- 0.3) x 10(5) M(-1), and K(L,2) = (3.2 +/- 0.6) x 10(4) M(-1) for HSA, apomyoglobin, DMPC, and DMPC/DMPG liposomes, respectively. These data were used to evaluate the partition experiments. The transfer of MP from the liposomes to the proteins was followed by fluorescence spectroscopy. In the case of apomyoglobin, the experimental points could be interpreted by ruling out the protein-liposome interaction. In the case of HSA, the efflux of MP from the liposomes was strongly inhibited above a critical HSA concentration range for negatively charged vesicles. This effect was interpreted as the result of HSA coat formation on the liposome surface. This direct interaction is significant for small liposomes. The interpretation is fully supported by differential scanning calorimetry experiments., (Copyright 2000 Academic Press.)

Published
2000
Full Text
View/download PDF

29. Action spectra for photoinduced inactivation of bacteriophage T7 sensitized by 8-methoxypsoralen and angelicin.

Author

Rontó G, Fekete A, Gáspár S, and Módos K

Subjects
Densitometry, Escherichia coli drug effects, Escherichia coli radiation effects, T-Phages drug effects, Ultraviolet Rays, Furocoumarins pharmacology, Methoxsalen pharmacology, T-Phages radiation effects
Abstract

The action spectrum (240-300 nm) for photoinactivation of unsensitized phage T7 and the action spectra (310-380 nm) for photoinactivation of phage T7 sensitized with 8-methoxypsoralen (8-MOP) and angelicin were measured by an automated method. For unsensitized phage T7 the action spectrum is in good agreement with the absorption spectrum. For sensitization with angelicin the action spectrum is similar to the absorption spectrum, but for sensitization with 8-MOP the spectra are different. The agreement between the T7 absorption and action spectra in the far-UV region is due to photodamage of DNA, leading to phage inactivation. The similarity in the action and absorption spectra in the near-UV region for sensitization with angelicin seems to be in accordance with the monofunctional photobinding of angelicin to DNA. The action spectrum for sensitization with 8-MOP has a maximum at about 320 nm and this suggests that, in addition to the monoadducts, the biadducts play a role in the inactivation of phage T7. Taking the number of bound furocoumarin molecules into consideration, the quantum efficiencies were estimated. Furocoumarin increases the quantum efficiency in the near-UV region and the values are similar to those obtained in far-UV light without psoralens.

Published
1989
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results