Your search keyword '"Szatmári D"' showing total 14 results

1. ABANDONED AGRICULTURAL LAND IDENTIFICATION USING OBJECT-BASED APPROACH AND SENTINEL DATA IN THE DANUBIAN LOWLAND, SLOVAKIA

Author

Goga, T., primary, Szatmári, D., additional, Feranec, J., additional, and Papčo, J., additional

Published

2020

2. Optimization Of Conformal Cartographic Projections For The Slovak Republic According To Chebyshev’s Theorem

Author

Szatmári Daniel

Subjects

Conformal cartographic projection, extremal criteria, minimax criteria, scale distortion, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Disadvantages of the currently used Křovák’s map projection in the Slovak Republic, such as large scale distortion, became evident after the division of Czechoslovakia. The aim of this paper is to show the results of the optimization of cartographic projections using Chebyshev’s theorem for conformal projections and its application to the territory of the Slovak Republic. The calculus used, the scale distortions achieved and their comparison with the scale distortions of currently used map projections will be demonstrated.

Published

2015

3. Thermal and morphological properties of human erythrocytes from patients afflicted with type 1 diabetes mellitus.

Author

Gaszler P, Lőrinczy D, Szatmári D, Bódis B, and Türmer K

Abstract

Red blood cells (RBC), are the most unique and abundant cell types. The diameter of RBCs is 7-8 μm. They have an essential role in transporting circulatory oxygen. The RBCs travel through varioussized capillaries throughout the entire body, some significantly smaller than the RBCs due to their incredible deformability. The RBC membrane allows the cell to resist stress as it squeezes the cytoplasm. Permanent stress or altered blood plasma conditions can result in decreased membrane deformability. Type 1 diabetes mellitus (T1DM) is one of the most common chronic diseases. In diabetes, the primary influence is increased glucose levels in the blood plasma that can result in the oxidation of lipids and proteins and the glycation of proteins. The damage changes the conformation and organization of various lipids and proteins, which can result in the loss of function and decreased deformability. Hemoglobin A1c (HbA1c) or glycohemoglobin is a form of hemoglobin found in RBCs. Glucose and fructose can bind to hemoglobin by non-enzymes, and different glycated forms of hemoglobin can be formed. The ratio of glucose-bound (glycated) hemoglobin to total hemoglobin (expressed as a percentage) is a critical laboratory parameter in managing diabetes. It can be used to determine the average blood glucose level of the patient over the past 60-120 days. Here, we investigate the effect of diabetes on RBCs' shape and membrane stability due to microscopy and DSC (Differential Scanning Calorimetry) methods. The comparison of the RBCs from diabetic and non-diabetic patients was classified by the HbA1c, showing that the conditions in diabetes caused atypical cell morphology and then, in a casedependent manner, increased or decreased the thermal stability of cytoplasm or the cell membrane, respectively. It shows the importance of DSC application in routine quality screening of diabetic erythrocytes and that it can be a crucial parameter of T1DM., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2024 The Author(s).)

Published

2024

4. Changes of Ex Vivo Cervical Epithelial Cells Due to Electroporation with JMY.

Author

Halász H, Szatmári Z, Kovács K, Koppán M, Papp S, Szabó-Meleg E, and Szatmári D

Subjects

Humans, Trans-Activators metabolism, Epithelial Cells metabolism, Electroporation, Inflammation, Actins metabolism, Nuclear Proteins metabolism

Abstract

The ionic environment within the nucleoplasm might diverge from the conditions found in the cytoplasm, potentially playing a role in the cellular stress response. As a result, it is conceivable that interactions of nuclear actin and actin-binding proteins (ABPs) with apoptosis factors may differ in the nucleoplasm and cytoplasm. The primary intracellular stress response is Ca 2+ influx. The junctional mediating and regulating Y protein (JMY) is an actin-binding protein and has the capability to interact with the apoptosis factor p53 in a Ca 2+ -dependent manner, forming complexes that play a regulatory role in cytoskeletal remodelling and motility. JMY's presence is observed in both the cytoplasm and nucleoplasm. Here, we show that ex vivo ectocervical squamous cells subjected to electroporation with JMY protein exhibited varying morphological alterations. Specifically, the highly differentiated superficial and intermediate cells displayed reduced nuclear size. In inflamed samples, nuclear enlargement and simultaneous cytoplasmic reduction were observable and showed signs of apoptotic processes. In contrast, the less differentiated parabasal and metaplastic cells showed increased cytoplasmic activity and the formation of membrane protrusions. Surprisingly, in severe inflammation, vaginosis or ASC-US (Atypical Squamous Cells of Undetermined Significance), JMY appears to influence only the nuclear and perinuclear irregularities of differentiated cells, and cytoplasmic abnormalities still existed after the electroporation. Our observations can provide an appropriate basis for the exploration of the relationship between cytopathologically relevant morphological changes of epithelial cells and the function of ABPs. This is particularly important since ABPs are considered potential diagnostic and therapeutic biomarkers for both cancers and chronic inflammation.

Published

2023

5. Thermodynamic Sensitivity of Blood Plasma Components in Patients Afflicted with Skin, Breast and Pancreatic Forms of Cancer.

Author

Ferencz A, Szatmári D, and Lőrinczy D

Abstract

According to the World Health Organization's 2018 Global Cancer Survey, cancer is the second leading cause of death. From this survey, the third most common is breast cancer, the fifth is melanoma malignum and pancreatic adenocarcinoma ranks twentieth. Undoubtedly, the early diagnosis and monitoring of these tumors and related research is important for aspects of patient care. The aim of our present review was to explain an impressive methodology that is deemed suitable in reference to studying blood sample deviations in the case of solid tumors. Essentially, we compared the heat denaturation responses of blood plasma components through differential scanning calorimetry (DSC). In the control, between five and seven separable components can be detected, in which the primary component was albumin, while in the case of tumorous patients, the peaks of immunoglobulins were dominant. Moreover, the shape of the plasma DSC curves changed with a shift in the higher temperature ranges; thus, their pattern can be used as a suitable marker of direct immunological responses. The further development of the analysis of DSC curves raises the possibility of the early diagnosis of a potential tumor, the monitoring of diseases, or testing the efficacy of the therapy from a single drop of blood.

Published

2022

6. The p53 and Calcium Regulated Actin Rearrangement in Model Cells.

Author

Hencz A, Szabó-Meleg E, Dayo MY, Bilibani A, Barkó S, Nyitrai M, and Szatmári D

Subjects

Calcium metabolism, Gelsolin genetics, Gelsolin metabolism, HeLa Cells, Humans, Nuclear Proteins metabolism, Trans-Activators metabolism, Actins metabolism, Tumor Suppressor Protein p53 metabolism

Abstract

Long-term cellular stress maintains high intracellular Ca 2+ concentrations which ultimately initiates apoptosis. Our interest is focused on how the gelsolin (GSN) and junctional mediating and regulating Y protein (JMY) play important roles in stress response. Both of these proteins can bind p53 and actin. We investigated using in vitro fluorescence spectroscopy and found that the p53 competes with actin in GSN to inhibit p53-JMY complex formation. A high Ca 2+ level initializes p53 dimerization; the dimer competes with actin on JMY, which can lead to p53-JMY cotransport into the nucleus. Here we investigated how the motility and division rate of HeLa cells changes due to low-voltage electroporation of GSN or JMY in scratching assays. We revealed that JMY inhibits their motion, but that it can accelerate the cell division. GSN treatment slows down cell division but does not affect cell motility. HeLa cells fully recovered the gap 20 h after the electroporation with JMY and then started to release from the glass slides. Taken together, our in vitro results indicate that GSN and JMY may play an important role in the cellular stress response.

Published

2022

7. Why Hungarians Have Sex (YSEX?-HSF).

Author

Meskó N, Szatmári D, Láng A, Meston CM, and Buss DM

Subjects

Female, Gender Identity, Humans, Hungary, Male, Sex Factors, Sexual Partners, Motivation, Sexual Behavior

Abstract

Using the same methodology as Meston and Buss (2007), three studies were conducted on a Hungarian sample (total N = 4913) which corroborate previous findings on the universal diversity of sexual motivation. Study 1 (N = 2728; 1069 women and 1659 men) identified 197 reasons for having sex based on participants' free responses. In Study 2 (N = 1161; 820 women and 341 men), participants indicated the extent to which each of the 197 reasons had led them to have sexual intercourse. Factor analyses yielded three factors and 24 subfactors. This differed from the original YSEX? four-factor questionnaire. In Study 3 (N = 1024; 578 women and 446 men), a reliable and valid 73-item short form version of the YSEX? questionnaire was developed in a Hungarian sample (YSEX?-HSF). In addition to similarities and differences in the factor structure, we found important links between reasons for having sex and age, gender, personality, and mating strategy. For example, number of reasons for having sex tended be higher in younger compared to older participants. Men exceeded women on having sex for novelty-seeking and infidelity opportunities, whereas women exceeded men on having sex for relationship commitment and mate retention. Extraversion and neuroticism were linked with reasons for having sex, and those who pursued a short-term mating strategy reported having sex for a larger variety of reasons., (© 2021. The Author(s).)

Published

2022

8. Author Correction: Intracellular ion concentrations and cation-dependent remodelling of bacterial MreB assemblies.

Author

Szatmári D, Sárkány P, Kocsis B, Nagy T, Miseta A, Barkó S, Longauer B, Robinson RC, and Nyitrai M

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

9. Intracellular ion concentrations and cation-dependent remodelling of bacterial MreB assemblies.

Author

Szatmári D, Sárkány P, Kocsis B, Nagy T, Miseta A, Barkó S, Longauer B, Robinson RC, and Nyitrai M

Subjects

Bacillus subtilis metabolism, Calcium metabolism, Cations, Escherichia coli metabolism, Escherichia coli Proteins metabolism, Leptospira interrogans metabolism, Models, Biological, Polymerization, Salts pharmacology, Bacteria metabolism, Bacterial Proteins metabolism, Intracellular Space metabolism

Abstract

Here, we measured the concentrations of several ions in cultivated Gram-negative and Gram-positive bacteria, and analyzed their effects on polymer formation by the actin homologue MreB. We measured potassium, sodium, chloride, calcium and magnesium ion concentrations in Leptospira interrogans, Bacillus subtilis and Escherichia coli. Intracellular ionic strength contributed from these ions varied within the 130-273 mM range. The intracellular sodium ion concentration range was between 122 and 296 mM and the potassium ion concentration range was 5 and 38 mM. However, the levels were significantly influenced by extracellular ion levels. L. interrogans, Rickettsia rickettsii and E. coli MreBs were heterologously expressed and purified from E. coli using a novel filtration method to prepare MreB polymers. The structures and stability of Alexa-488 labeled MreB polymers, under varying ionic strength conditions, were investigated by confocal microscopy and MreB polymerization rates were assessed by measuring light scattering. MreB polymerization was fastest in the presence of monovalent cations in the 200-300 mM range. MreB filaments showed high stability in this concentration range and formed large assemblies of tape-like bundles that transformed to extensive sheets at higher ionic strengths. Changing the calcium concentration from 0.2 to 0 mM and then to 2 mM initialized rapid remodelling of MreB polymers.

Published

2020

10. ATP competes with PIP2 for binding to gelsolin.

Author

Szatmári D, Xue B, Kannan B, Burtnick LD, Bugyi B, Nyitrai M, and Robinson RC

Subjects

Actins metabolism, Animals, Binding, Competitive, Cations metabolism, Cell Membrane metabolism, Escherichia coli, Humans, Kinetics, Magnesium metabolism, Polymerization, Protein Binding, Rabbits, Adenosine Triphosphate metabolism, Calcium metabolism, Gelsolin metabolism, Phosphatidylinositol 4,5-Diphosphate metabolism

Abstract

Gelsolin is a severing and capping protein that targets filamentous actin and regulates filament lengths near plasma membranes, contributing to cell movement and plasma membrane morphology. Gelsolin binds to the plasma membrane via phosphatidylinositol 4,5-bisphosphate (PIP2) in a state that cannot cap F-actin, and gelsolin-capped actin filaments are uncapped by PIP2 leading to filament elongation. The process by which gelsolin is removed from PIP2 at the plasma membrane is currently unknown. Gelsolin also binds ATP with unknown function. Here we characterize the role of ATP on PIP2-gelsolin complex dynamics. Fluorophore-labeled PIP2 and ATP were used to study their interactions with gelsolin using steady-state fluorescence anisotropy, and Alexa488-labeled gelsolin was utilized to reconstitute the regulation of gelsolin binding to PIP2-containing phospholipid vesicles by ATP. Under physiological salt conditions ATP competes with PIP2 for binding to gelsolin, while calcium causes the release of ATP from gelsolin. These data suggest a cycle for gelsolin activity. Firstly, calcium activates ATP-bound gelsolin allowing it to sever and cap F-actin. Secondly, PIP2-binding removes the gelsolin cap from F-actin at low calcium levels, leading to filament elongation. Finally, ATP competes with PIP2 to release the calcium-free ATP-bound gelsolin, allowing it to undergo a further round of severing., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

11. Cardiac leiomodin2 binds to the sides of actin filaments and regulates the ATPase activity of myosin.

Author

Szatmári D, Bugyi B, Ujfalusi Z, Grama L, Dudás R, and Nyitrai M

Subjects

Adenosine Triphosphatases metabolism, Adenosine Triphosphatases physiology, Animals, Microfilament Proteins chemistry, Microfilament Proteins metabolism, Muscle Proteins chemistry, Muscle Proteins metabolism, Myosins chemistry, Myosins metabolism, Protein Structure, Tertiary, Rats, Sequence Analysis, Protein, Actin Cytoskeleton metabolism, Microfilament Proteins physiology, Muscle Proteins physiology, Myosins physiology

Abstract

Leiomodin proteins are vertebrate homologues of tropomodulin, having a role in the assembly and maintenance of muscle thin filaments. Leiomodin2 contains an N-terminal tropomodulin homolog fragment including tropomyosin-, and actin-binding sites, and a C-terminal Wiskott-Aldrich syndrome homology 2 actin-binding domain. The cardiac leiomodin2 isoform associates to the pointed end of actin filaments, where it supports the lengthening of thin filaments and competes with tropomodulin. It was recently found that cardiac leiomodin2 can localise also along the length of sarcomeric actin filaments. While the activities of leiomodin2 related to pointed end binding are relatively well described, the potential side binding activity and its functional consequences are less well understood. To better understand the biological functions of leiomodin2, in the present work we analysed the structural features and the activities of Rattus norvegicus cardiac leiomodin2 in actin dynamics by spectroscopic and high-speed sedimentation approaches. By monitoring the fluorescence parameters of leiomodin2 tryptophan residues we found that it possesses flexible, intrinsically disordered regions. Leiomodin2 accelerates the polymerisation of actin in an ionic strength dependent manner, which relies on its N-terminal regions. Importantly, we demonstrate that leiomodin2 binds to the sides of actin filaments and induces structural alterations in actin filaments. Upon its interaction with the filaments leiomodin2 decreases the actin-activated Mg2+-ATPase activity of skeletal muscle myosin. These observations suggest that through its binding to side of actin filaments and its effect on myosin activity leiomodin2 has more functions in muscle cells than it was indicated in previous studies.

Published

2017

12. Large-scale purification and in vitro characterization of the assembly of MreB from Leptospira interrogans.

Author

Barkó S, Szatmári D, Bódis E, Türmer K, Ujfalusi Z, Popp D, Robinson RC, and Nyitrai M

Subjects

Actins metabolism, Adenosine Triphosphate metabolism, Cations metabolism, Cell Wall metabolism, Escherichia coli, Genome, Bacterial genetics, Leptospira interrogans genetics, Leptospirosis microbiology, Microscopy, Fluorescence methods, Nucleotides metabolism, Polymerization, Bacterial Proteins isolation & purification, Bacterial Proteins metabolism, Leptospira interrogans metabolism

Abstract

Background: Weil's syndrome is caused by Leptospira interrogans infections, a Gram negative bacterium with a distinct thin corkscrew cell shape. The molecular basis for this unusual morphology is unknown. In many bacteria, cell wall synthesis is orchestrated by the actin homolog, MreB., Methods: Here we have identified the MreB within the L. interrogans genome and expressed the His-tagged protein product of the synthesized gene (Li-MreB) in Escherichia coli. Li-MreB did not purify under standard nucleotide-free conditions used for MreBs from other species, requiring the continual presence of ATP to remain soluble. Covalent modification of Li-MreB free thiols with Alexa488 produced a fluorescent version of Li-MreB., Results: We developed native and denaturing/refolding purification schemes for Li-MreB. The purified product was shown to assemble and disassemble in MgCl2 and KCl dependent manners, as monitored by light scattering and sedimentation studies. The fluorescence spectrum of labeled Li-MreB-Alexa488 showed cation-induced changes in line with an activation process followed by a polymerization phase. The resulting filaments appeared as bundles and sheets under the fluorescence microscope. Finally, since the Li-MreB polymerization was cation dependent, we developed a simple method to measure monovalent cation concentrations within a test case prokaryote, E. coli., Conclusions: We have identified and initially characterized the cation-dependent polymerization properties of a novel MreB from a non-rod shaped bacterium and developed a method to measure cation concentrations within prokaryotes., General Significance: This initial characterization of Li-MreB will enable future structural determination of the MreB filament from this corkscrew-shaped bacterium., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

13. Dynamic strength of titin's Z-disk end.

Author

Kollár V, Szatmári D, Grama L, and Kellermayer MS

Subjects

Biomechanical Phenomena, Connectin, Elasticity, Escherichia coli genetics, Humans, Monte Carlo Method, Muscle Proteins genetics, Muscle Proteins metabolism, Protein Folding, Protein Kinases genetics, Protein Kinases metabolism, Protein Stability, Protein Structure, Tertiary, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Shear Strength, Muscle Proteins chemistry, Protein Kinases chemistry

Abstract

Titin is a giant filamentous protein traversing the half sarcomere of striated muscle with putative functions as diverse as providing structural template, generating elastic response, and sensing and relaying mechanical information. The Z-disk region of titin, which corresponds to the N-terminal end of the molecule, has been thought to be a hot spot for mechanosensing while also serving as anchorage for its sarcomeric attachment. Understanding the mechanics of titin's Z-disk region, particularly under the effect of binding proteins, is of great interest. Here we briefly review recent findings on the structure, molecular associations, and mechanics of titin's Z-disk region. In addition, we report experimental results on the dynamic strength of titin's Z1Z2 domains measured by nanomechanical manipulation of the chemical dimer of a recombinant protein fragment.

Published

2010

14. Interaction forces between F-actin and titin PEVK domain measured with optical tweezers.

Author

Bianco P, Nagy A, Kengyel A, Szatmári D, Mártonfalvi Z, Huber T, and Kellermayer MS

Subjects

Actins metabolism, Animals, Biomechanical Phenomena, Biophysical Phenomena, Biophysics, Connectin, Humans, In Vitro Techniques, Muscle Contraction physiology, Muscle Proteins genetics, Muscle Proteins metabolism, Nanotechnology, Optical Tweezers, Osmolar Concentration, Peptide Fragments chemistry, Peptide Fragments genetics, Peptide Fragments metabolism, Protein Binding, Protein Kinases genetics, Protein Kinases metabolism, Protein Structure, Tertiary, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Static Electricity, Viscosity, Actins chemistry, Muscle Proteins chemistry, Protein Kinases chemistry

Abstract

Titin is a giant protein that determines the elasticity of striated muscle and is thought to play important roles in numerous regulatory processes. Previous studies have shown that titin's PEVK domain interacts with F-actin, thereby creating viscous forces of unknown magnitude that may modulate muscle contraction. Here we measured, with optical tweezers, the forces necessary to dissociate F-actin from individual molecules of recombinant PEVK fragments rich either in polyE or PPAK motifs. Rupture forces at a stretch rate of 250 nm/s displayed a wide, nonnormal distribution with a peak at approximately 8 pN in the case of both fragments. Dynamic force spectroscopy experiments revealed low spontaneous off-rates that were increased even by low forces. The loading-rate dependence of rupture force was biphasic for polyE in contrast with the monophasic response observed for PPAK. Analysis of the molecular lengths at which rupture occurred indicated that there are numerous actin-binding regions along the PEVK fragments' contour, suggesting that the PEVK domain is a promiscuous actin-binding partner. The complexity of PEVK-actin interaction points to an adaptable viscoelastic mechanism that safeguards sarcomeric structural integrity in the relaxed state and modulates thixotropic behavior during contraction.

Published

2007