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596 results on '"Dvořáková, Hana"'

1. Isoforms of Cathepsin B1 in Neurotropic Schistosomula of Trichobilharzia regenti Differ in Substrate Preferences and a Highly Expressed Catalytically Inactive Paralog Binds Cystatin.

Author

Dvořáková, Hana, Leontovyč, Roman, Macháček, Tomáš, O'Donoghue, Anthony J, Šedo, Ondřej, Zdráhal, Zbyněk, Craik, Charles S, Caffrey, Conor R, Horák, Petr, and Mikeš, Libor

Subjects
Astrocytes, Macrophages, Animals, Mice, Schistosomatidae, Nitric Oxide, Enzyme Precursors, Cathepsin B, Isoenzymes, Cystatins, Recombinant Proteins, Amino Acid Substitution, Cell Survival, Protein Binding, Substrate Specificity, Hydrolysis, Proteolysis, RAW 264.7 Cells, cathepsin B, cystatin, helminth, occluding loop, peptidase, processing, schistosome, substrate specificity, Biochemistry and Cell Biology, Microbiology
Abstract

Schistosomula (the post-infective stages) of the neurotropic schistosome Trichobilharzia regenti possess multiple isoforms of cathepsin B1 peptidase (TrCB1.1-TrCB1.6) with involvement in nutrient digestion. The comparison of substrate preferences of TrCB1.1 and TrCB1.4 showed that TrCB1.4 had a very narrow substrate specificity and after processing it was less effective toward protein substrates when compared to TrCB1.1. Self-processing of both isoforms could be facilitated by sulfated polysaccharides due to a specific binding motif in the pro-sequence. Trans-activation by heterologous enzymes was also successfully employed. Expression profiling revealed a high level of transcription of genes encoding the enzymatically inactive paralogs TrCB1.5 and TrCB1.6. The transcription level of TrCB1.6 was comparable with that of TrCB1.1 and TrCB1.2, the most abundant active isoforms. Recombinant TrCB1.6wt, a wild type paralog with a Cys29-to-Gly substitution in the active site that renders the enzyme inactive, was processed by the active TrCB1 forms and by an asparaginyl endopeptidase. Although TrCB1.6wt lacked hydrolytic activity, endopeptidase, but not dipeptidase, activity could be restored by mutating Gly29 to Cys29. The lack of exopeptidase activity may be due to other mutations, such as His110-to-Asn in the occluding loop and Asp224-to-Gly in the main body of the mature TrCB1.6, which do not occur in the active isoforms TrCB1.1 and TrCB1.4 with exopeptidase activity. The catalytically active enzymes and the inactive TrCB1.6 paralog formed complexes with chicken cystatin, thus supporting experimentally the hypothesis that inactive paralogs could potentially regulate the activity of the active forms or protect them from being inhibited by host inhibitors. The effect on cell viability and nitric oxide production by selected immune cells observed for TrCB1.1 was not confirmed for TrCB1.6. We show here that the active isoforms of TrCB1 have different affinities for peptide substrates thereby facilitating diversity in protein-derived nutrition for the parasite. The inactive paralogs are unexpectedly highly expressed and one of them retains the ability to bind cystatins, likely due to specific mutations in the occluding loop and the enzyme body. This suggests a role in sequestration of inhibitors and protection of active cysteine peptidases.

Published
2020

2. Exploring the Reactivity of Flavins with Nucleophiles Using a Theoretical and Experimental Approach.

Author

Zubova, Ekaterina, Pokluda, Adam, Dvořáková, Hana, Krupička, Martin, and Cibulka, Radek

Subjects
FLAVINS, NUCLEOPHILES, GIBBS' free energy, COFACTORS (Biochemistry), REDUCTION potential, NUCLEAR magnetic resonance spectroscopy, FLAVOPROTEINS
Abstract

Covalent adducts of flavin cofactors with nucleophiles play an important role in non‐canonical function of flavoenzymes as well as in flavin‐based catalysis. Herein, the interaction of flavin derivatives including substituted flavins (isoalloxazines), 1,10‐ethylene‐bridged flavinium salts, and non‐substituted alloxazine and deazaflavin with selected nucleophiles was investigated using an experimental and computational approach. Triphenylphosphine or trimethylphosphine, 1‐nitroethan‐1‐ide, and methoxide were selected as representatives of neutral soft, anionic soft, and hard nucleophiles, respectively. The interactions were investigated using UV/Vis and 1H NMR spectroscopy as well as by DFT calculations. The position of nucleophilic attack estimated using the calculated Gibbs free energy values was found to correspond with the experimental data, favouring the addition of phosphine and 1‐nitroethan‐1‐ide into position N(5) and methoxide into position C(10a) of 1,10‐ethylene‐bridged flavinium salts. The calculated Gibbs free energy values were found to correlate with the experimental redox potentials of the flavin derivatives tested. These findings can be utilized as valuable tools for the design of artificial flavin‐based catalytic systems or investigating the mechanism of flavoenzymes. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Acid peptidases of schistosomes and haematophagous monogeneans

Author

Dvořáková, Hana, Mikeš, Libor, Horn, Martin, and Sojka, Daniel

Subjects
ptačí schistosomy, katepsin, cathepsin, Trichobilharzie regenti, Trichobilharzia regenti, avian schistosomes, Eudiplozoon nipponicum, monogenea, peptidáza, monogenean, peptidase
Abstract

Blood is a complex nutrient-rich mixture. No wonder that haematophagy has been adopted as a feeding strategy by many invertebrates, including many parasitic helminths. In general, processing of haemoglobin (and other blood proteins) in blood-feeding helminths relies on an evolutionary conserved network of cysteine and aspartic peptidases (e.g., cathepsins L, B and D). However, some helminth taxa have been neglected from this point of view - very little information has been available about the occurrence of these enzymes in haematophagous monogeneans. Therefore, the presented thesis focuses on the molecular and biochemical characteristics of peptidases that maybe potentially involved in blood processing by the monogenean Eudiplozoon nipponicum (Heteronchoinea, Diplozoidae), an ectoparasite inhabiting gills of common carp. We show that the most abundant haemoglobinolytic endopeptidase activities in soluble protein extracts and excretory/secretory products of E. nipponicum belong to the cysteine and aspartic classes, with cathepsin L-like activity predominating over cathepsin B-like activity and supplemented with cathepsin D-like activity (paper 1). Additionally, we found that E. nipponicum adults express a variety of cathepsins L with different structural characteristics and probably different...

Published
2022

18. Secular Changes in Body Build and Body Composition in Czech Preschool Children in the Context of Latent Obesity

Author

Sedlak, Petr, Pařízková, Jana, Samešová, Daniela, Musálek, Martin, Dvořáková, Hana, and Novák, Jan

Subjects
body composition, secular trend, preschool children, lcsh:RJ1-570, food and beverages, body mass index (BMI), lcsh:Pediatrics, Article, latent obesity
Abstract

Changes in lifestyle can be significantly reflected in growth and development. Adaptations to reduced levels of physical activity, together with non-corresponding nutritional intakes, can result in body build and body composition changes at an early age. The present cross-sectional study aimed to evaluate the secular trend of modifications of body composition and body mass index (BMI) in Czech preschoolers over the last two to three decades. Boys and girls (386 boys and 372 girls) aged 4 to 6 years in 2014&ndash, 2019 were measured. Outcome data were compared with the reference sample of preschoolers from 1990: 911 boys and 896 girls. Body height, BMI, and percentage of body fat, muscle, and bone mass were evaluated. Height and BMI have not changed. Body fat increased in both genders (p &lt, 0.01), and contrarily, a significant reduction of muscle and skeletal mass was revealed (p &lt, 0.001). Significant changes in body composition and unchanged BMI indicate the development of latent obesity during the last few decades. Due to latent obesity in a recent cohort, the differences in the prevalence of overweight and obesity markers according to BMI and fat percentage were tested. The prevalence of overweight and obesity was higher by 7.2% in boys, and by 6.5% in girls, as compared to children evaluated according to only their BMI results. Secular changes in preschoolers&rsquo, physical builds over the last 25 years are not reflected in body height and BMI, but in body composition. Insufficient development of active, lean body mass proportionally compensated by increased fat mass was also indicated.

Published
2021

24. Insufficient Physical Fitness and Deficits in Basic Eating Habits in Normal-Weight Obese Children Are Apparent from Pre-School Age or Sooner

Author

Musálek, Martin, Sedlak, Petr, Dvořáková, Hana, Vážná, Anna, Novák, Jan, Kokštejn, Jakub, Vokounová, Šárka, Beránková, Adéla, and Pařízková, Jana

Subjects
Male, Pediatric Obesity, Schools, Nutrition. Foods and food supply, Body Weight, eating habits, Feeding Behavior, preschool age children, Article, Cross-Sectional Studies, Physical Fitness, Child, Preschool, Surveys and Questionnaires, Humans, TX341-641, Female, Public Health Surveillance, Child, Exercise, normal-weight obesity
Abstract

Normal-weight obesity appears to be an extended diagnosis/syndrome associated with insufficient physical fitness levels and inadequate eating habits at least from school years. However, its relation to long term health parameters in pre-school children remains unknown, even though pre-school age is crucial for the determining healthy lifelong habits. Therefore, the aim of the current study was to investigate the differences in physical fitness level and basic eating habits between normal-weight obese, normal-weight non-obese, and overweight and obese preschoolers. The research sample consisted of 188 preschoolers aged 4.0–6.9 years (Mage = 5.52 ± 0.8 year), normal-weight obese = 25, normal-weight non-obese = 143, overweight and obese = 20. Body composition was measured using bio-impedance InBody230. Six tests assessed the physical fitness level: sit-ups, standing long jump, shuttle running 4 × 5 meters, throwing with a tennis ball, multistage fitness tests, sit and reach. A four-item eating habits questionnaire for parents focusing on breakfast regularity, consumption of sweet foods and drinks, selection of food and attitude towards eating was used. A non-parametric analysis of variance and Fisher’s exact test along with suitable effect sizes were used for data processing of physical fitness tests and the basic eating habits questionnaire, respectively. Normal-weight obese children performed significantly worse (from p = 0.03 to p &lt, 0.001, ES ω2-G = low to medium) in muscular fitness, cardiorespiratory fitness and running agility compared to normal-weight non-obese counterparts and did not significantly differ in the majority of physical fitness performance tests from overweight and obese peers. In basic eating habits, normal-weight obese boys preferred significantly more sweet foods and drinks (p = 0.003 ES = 0.35, large), while normal-weight obese girls had significantly more negative attitude towards eating (p = 0.002 ES = 0.33, large) in comparison to their normal-weight non-obese peers. Normal-weight obesity seems to develop from early childhood and is associated with low physical fitness and deficits in eating habits which might inhibit the natural necessity for physically active life from pre-school age or sooner.

Published
2021

28. Tu Vykydal!

Author

DVOŘÁKOVÁ, HANA, ŠTĚPÁNEK, IVO, MRÁZEK, MARTIN, CHOVANČÍKOVÁ, IRENA, BURDYCHOVÁ, MILENA, BENEŠ, LUDĚK, ŠIKULOVÁ, KLÁRA, VONDRÁČEK, RADIM, SOUČKOVÁ, JANA, KUCHYŇKA, ZDENĚK, and POPELKA, PAVEL

Published
2024

29. Competition-induced transgenerational plasticity influences competitive interactions and leaf decomposition of offspring

Author

Czech Science Foundation, Estonian Research Council, European Commission, Puy, J., de Bello, Francesco, Dvořáková, Hana, Medina, Nagore G., Latzel, Vít, Carmona, Carlos P., Czech Science Foundation, Estonian Research Council, European Commission, Puy, J., de Bello, Francesco, Dvořáková, Hana, Medina, Nagore G., Latzel, Vít, and Carmona, Carlos P.

Abstract

Phenotypic plasticity, within and across generations (transgenerational plasticity), allows organisms and their progeny to adapt to the environment without modification of the underlying DNA. Recent findings suggest that epigenetic modifications are important mediators of such plasticity. However, empirical studies have, so far, mainly focused on plasticity in response to abiotic factors, overlooking the response to competition. We tested for within-generation and transgenerational phenotypic plasticity triggered by plant–plant competition intensity, and we tested whether it was mediated via DNA methylation, using the perennial, apomictic herb Taraxacum brevicorniculatum in four coordinated experiments. We then tested the consequences of transgenerational plasticity affecting competitive interactions of the offspring and ecosystem processes, such as decomposition. We found that, by promoting differences in DNA methylation, offspring of plants under stronger competition developed faster and presented more resource-conservative phenotypes. Further, these adjustments associated with less degradable leaves, which have the potential to reduce nutrient turnover and might, in turn, favour plants with more conservative traits. Greater parental competition enhanced competitive abilities of the offspring, by triggering adaptive phenotypic plasticity, and decreased offspring leaf decomposability. Our results suggest that competition-induced transgenerational effects could promote rapid adaptations and species coexistence and feed back on biodiversity assembly and nutrient cycling.

Published
2021

30. Diversity of parental environments increases phenotypic variation in Arabidopsis populations more than genetic diversity but similarly affects productivity

Author

Czech Science Foundation, Estonian Research Council, European Commission, Puy, J. [0000-0002-6422-2791], Carmona, Carlos P. [0000-0001-6935-4913], Bello, Francesco de [0000-0001-9202-8198], Puy, J., Carmona, Carlos P., Dvořáková, Hana, Latzel, Vít, de Bello, Francesco, Czech Science Foundation, Estonian Research Council, European Commission, Puy, J. [0000-0002-6422-2791], Carmona, Carlos P. [0000-0001-6935-4913], Bello, Francesco de [0000-0001-9202-8198], Puy, J., Carmona, Carlos P., Dvořáková, Hana, Latzel, Vít, and de Bello, Francesco

Abstract

[Background and Aims] The observed positive diversity effect on ecosystem functioning has rarely been assessed in terms of intraspecific trait variability within populations. Intraspecific phenotypic variability could stem both from underlying genetic diversity and from plasticity in response to environmental cues. The latter might derive from modifications to a plant’s epigenome and potentially last multiple generations in response to previous environmental conditions. We experimentally disentangled the role of genetic diversity and diversity of parental environments on population productivity, resistance against environmental fluctuations and intraspecific phenotypic variation. [Methods} A glasshouse experiment was conducted in which different types of Arabidopsis thaliana populations were established: one population type with differing levels of genetic diversity and another type, genetically identical, but with varying diversity levels of the parental environments (parents grown in the same or different environments). The latter population type was further combined, or not, with experimental demethylation to reduce the potential epigenetic diversity produced by the diversity of parental environments. Furthermore, all populations were each grown under different environmental conditions (control, fertilization and waterlogging). Mortality, productivity and trait variability were measured in each population. [Key Results] Parental environments triggered phenotypic modifications in the offspring, which translated into more functionally diverse populations when offspring from parents grown under different conditions were brought together in mixtures. In general, neither the increase in genetic diversity nor the increase in diversity of parental environments had a remarkable effect on productivity or resistance to environmental fluctuations. However, when the epigenetic variation was reduced via demethylation, mixtures were less productive than monocultures (i.e. nega

Published
2021

31. Tělesná výchova na 1. stupni základní školy

Author

Dvořáková, Hana, Engelthalerová, Zdeňka, Dvořáková, Hana, and Engelthalerová, Zdeňka

Abstract

Škola je dnes konfrontována s novými, naléhavými úkoly vyplývajícími především z vývojové dynamiky soudobé společnosti a potýká se s novými názory a zjištěními v oblasti pedagogiky, oborových didaktik, psychologie efektivního učení a vzdělávání. Výrazně je ovlivněna proměnou edukační reality, vyvolanou rozvojem ve sféře informačních a komunikačních technologií. S novými základními dokumenty dochází k posunům v cílech, pojetí oborů i k požadavkům na změny obsahu, forem i metod. I za čtvrtstoletí platnosti programu nejsou mnohá očekávání naplněna ani v práci učitelů ani v jejich přípravě. Vzdělávání učitelů pro 1. stupeň je multioborové, a tedy široké a různorodé, proto vyučování oboru tělesná výchova může být pro mnohé z těchto učitelů problematické. Cílem této publikace je formulovat praktické možnosti vyučování oboru tělesná výchova na 1. stupni základní školy v současných souvislostech.

Published
2023

33. Determination of selected metals in edible mushrooms in the Příbram district

Author

DVOŘÁKOVÁ, Hana

Subjects
strontium, rubidium, cumulation, atomic absorption spectrometry, atomová absorpční spektrometrie, Příbram, Houby, kumulace, Mushrooms, cesium, lithium, stroncium
Abstract

The aim of this work was to determine the concentrations of rubidium, cesium, lithium, strontium and supplemental elements of copper, iron, manganese and zinc in samples of edible mushrooms and to compare the measured concentrations with the studies mentioned in the literary research. In addition to the results of the studies, the literary research contains brief informations about mushrooms, individual elements, the used method and the monitored location. For the purposed of the practical part, 19 samples of nine edible mushrooms species were collected from the vicinity of a lead smelter in the village of Podlesí near Příbram. The samples were the first processed by microwave digestion and then analyzed by AAS (atomic absorption spectrometry). The whole practical part of the thesis was carried out in the laboratory of the Departemnt of Applied Chemistry, Faculty of Agriculture of the University of South Bohemia in České Budějovice. The analysis results were recorded in tables, statistically and graphically processed an evaluated in the discussion. From the analysis we found the species of mushoom with the most cumulate metals ability is a toadstool rosacea. Among the analyzed samples we found the highest concentration of strontium (22,5 mg/kg), lithium (0,6 mg/kg), iron (223,0 mg/kg) and manganese (69,7 mg/kg). On the other hand, the least cumulative species was boletus brown with the lowest concentrations of copper (10,1 mg/kg), iron (29,5 mg/kg) and manganese (5,2 mg/kg) being determined. The less cumulative species was also boletus edulis, which was found to have at least strontium (2,2 mg/kg) and lithium (0,3 mg/kg). It is worth mentioning the larch bolete, in which we have determined the greatest concentration of rubidium (364 mg/kg) and cesium (11,7 mg/kg), but the least of zinc (68,7 mg/kg). Likewise, a parasol mushroom absorps copper to a large extent (255 mg/kg), but on the contrary it contained the least cesium (0,5 mg/kg) and rubidium (11,8 mg/kg).

Published
2020

34. Competition-induced transgenerational plasticity influences competitive interactions and leaf decomposition of offspring

Author

Czech Science Foundation, Estonian Research Council, European Commission, Puy, J. [0000-0002-6422-2791], Bello, Francesco de [0000-0001-9202-8198], Carmona, Carlos P. [0000-0001-6935-4913], Puy, J., de Bello, Francesco, Dvořáková, Hana, Medina, Nagore G., Latzel, Vít, Carmona, Carlos P., Czech Science Foundation, Estonian Research Council, European Commission, Puy, J. [0000-0002-6422-2791], Bello, Francesco de [0000-0001-9202-8198], Carmona, Carlos P. [0000-0001-6935-4913], Puy, J., de Bello, Francesco, Dvořáková, Hana, Medina, Nagore G., Latzel, Vít, and Carmona, Carlos P.

Abstract

Phenotypic plasticity, within and across generations (transgenerational plasticity), allows organisms and their progeny to adapt to the environment without modification of the underlying DNA. Recent findings suggest that epigenetic modifications are important mediators of such plasticity. However, empirical studies have, so far, mainly focused on plasticity in response to abiotic factors, overlooking the response to competition. We tested for within‐generation and transgenerational phenotypic plasticity triggered by plant–plant competition intensity, and tested whether it was mediated via DNA methylation, using the perennial, apomictic herb Taraxacum brevicorniculatum in four coordinated experiments. We then tested the consequences of transgenerational plasticity affecting competitive interactions of the offspring and ecosystem processes such as decomposition. We found that, by promoting differences in DNA methylation, offspring of plants under stronger competition developed faster and presented more resource‐conservative phenotypes. Further, these adjustments associated with less degradable leaves which have the potential to reduce nutrient turnover and might, in turn, favour plants with more conservative traits. Greater parental competition enhanced competitive abilities of the offspring by triggering adaptive phenotypic plasticity, and decreased offspring leaf decomposability. Our results suggest that competition‐induced transgenerational effects could promote rapid adaptations and species coexistence, and feed back on biodiversity assembly and nutrient cycling.

Published
2020

43. Isoforms of Cathepsin B1 in Neurotropic Schistosomula of Trichobilharzia regenti Differ in Substrate Preferences and a Highly Expressed Catalytically Inactive Paralog Binds Cystatin

Author

Dvořáková, Hana, primary, Leontovyč, Roman, additional, Macháček, Tomáš, additional, O'Donoghue, Anthony J., additional, Šedo, Ondřej, additional, Zdráhal, Zbyněk, additional, Craik, Charles S., additional, Caffrey, Conor R., additional, Horák, Petr, additional, and Mikeš, Libor, additional

Published
2020
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49. Improved demethylation in ecological epigenetic experiments: Testing a simple and harmless foliar demethylation application

Author

DVOŘÁKOVÁ, Hana

Subjects
plant performance, ecology, ecological epigenetics, competition, DNA methylation, plant memory, 5-azacytidine, transgenerational effects, toxicity, demethylation
Abstract

Spray application of 5azacytidine on established plant seedlings was tested for its demethylating efficiency. It represents a novel method for plant experimental demethylation with a potentially lower negative impact on plant development compared to the traditional application of the demethylating agent through germination of seeds in its solution. Further, the 5azacytidine spray application was used in practice to erase the epigenetic memory in offspring of Taraxacum brevicorniculatum plants from different competitive conditions. The impact of parental competition on the juvenile phenotype was estimated by measuring growth related traits, while the experimental demethylation allowed for evaluating the significance of DNA methylation marks in bioticaly induced transgenerational effects in T. brevirorniculatum.

Published
2019

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