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2. Split ring resonator geometry inspired crossed flower shaped fractal antenna for satellite and 5G communication applications

Author

Upesh Patel, Trushit Upadhyaya, Vishal Sorathiya, Killol Pandya, Abdullah Alwabli, Kavan Dave, Naglaa F. Soliman, and Walid El-Shafai

Subjects
Split ring resonators, Fractal, Flower shaped, Satellite, Sub-6 GHz 5G, Technology
Abstract

This work suggests a fractal antenna in the shape of a crossed flower with a split ring resonator geometry. This suggested antenna serves the Sub-6 GHz 5G and satellite repeater applications for wireless devices operating in the frequency range of 4.01–4.82 and 7.6–7.94 GHz, respectively. The suggested antenna's performance parameters have been empirically confirmed by creating a printed prototype. The antenna geometry is based on a lower-cost FR4 substrate and consists of a mix of crossed floral square-shaped split-ring resonators organized in a Minkowski fractal configuration. A thorough examination of both manufactured and simulated antennas is conducted to demonstrate the uniqueness and edge over traditional dual-band antennas. The suggested fractal antenna's overall physical dimensions measure 0.90λ x 0.96λ at a lower resonant frequency. The response of the unit cell antenna is recorded when Split Ring Resonators are grouped in a fractal antenna with a flower shape. The measured findings verify that the proposed and constructed antenna has an electrical impedance bandwidth of −10 dB at lower frequency band (18.80 %, 4.01–4.82 GHz) and upper frequency band (4.41 %, 7.6–7.94 GHz) of −10 dB. The simulated and fabricated prototypes exhibit good agreement with respect to the stable gain and radiation patterns. Because of its consistent radiation efficiency in the realized resonating bands, the suggested prototype is a strong contender for 5G Sub-6 GHz and X band satellite applications.

Published
2024
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9. Numerical analysis of Phase change material and graphene-based tunable refractive index sensor for infrared frequency spectrum

Author

Khaled Aliqab, Kavan Dave, Vishal Sorathiya, Meshari Alsharari, and Ammar Armghan

Subjects
Medicine, Science
Abstract

Abstract Here, we present the findings of parametric analysis into a phase transition material Ge2Sb2Te5(GST)-based, graphene-based, with a wide dynamic range in the infrared and visible electromagnetic spectrum. The suggested structure is studied in multi-layered configurations, built up with layers of GST, graphene, silicon, and silver materials. These multilayer structures' reflectance behavior has been described for refractive indices between 1.3 and 2.5. The complete design is simulated using a computational process called the finite element method. Additionally, we have investigated the impact of material heights on the structure's performance in general. We have presented several resonating tracing curves in polynomial equations to determine the sensing behavior across a specific wavelength range and refractive index values. The proposed design is also investigated at various inclined angles of incidence to ascertain its wide-angle stability. A computational study of the proposed structure can assist in the evolution of biosensors to identify a wide range of biomolecules, including malignant, hemoglobin urine, saliva-cortisol, and glucose.

Published
2023
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10. Numerical analysis of hafnium oxide and phase change material-based multi-layered infrared and visible frequency sensor for biomolecules sensing application

Author

Khaled Aliqab, Vishal Sorathiya, Meshari Alsharari, Kavan Dave, and Ammar Armghan

Subjects
Medicine, Science
Abstract

Abstract We report on the results of a numerical investigation into a phase transition material and hafnium (IV) oxide-based refractive index sensor with a wide spectral range, including both the visible and infrared regions of the electromagnetic spectrum. The sensor relies on hafnium (IV) oxide and a phase transition material (HfO2). Three layered versions of the proposed structure are studied; each configuration is built from alternating layers of HfO2, silica, Ge2Sb2Te5(GST), and silver. The three different arrangements have all been studied. The reflectance response of such multilayer structures is discussed in this manuscript for refractive indices ranging from 1 to 2.4. In addition, we have investigated how the varying heights of the materials affect the overall performance of the structure. Finally, we have supplied several formulae for resonating traces that may be used to calculate the sensing behaviour across a specific wavelength range and refractive index values. The corresponding equations are shown below. We have computed numerous equation traces throughout this inquiry to calculate the wavelength and refractive index values. Computational methods may be used to analyze the proposed structure, which might aid in creating biosensors for detecting a wide variety of biomolecules and biomarkers, such as saliva-cortisol, urine, glucose, cancerous and cancerous, and hemoglobin.

Published
2023
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14. Pharmacological inhibition of fatty-acid oxidation synergistically enhances the effect of l-asparaginase in childhood ALL cells

Author

Hermanova, I, primary, Arruabarrena-Aristorena, A, additional, Valis, K, additional, Nuskova, H, additional, Alberich-Jorda, M, additional, Fiser, K, additional, Fernandez-Ruiz, S, additional, Kavan, D, additional, Pecinova, A, additional, Niso-Santano, M, additional, Zaliova, M, additional, Novak, P, additional, Houstek, J, additional, Mracek, T, additional, Kroemer, G, additional, Carracedo, A, additional, Trka, J, additional, and Starkova, J, additional

Published
2015
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15. Development of Split Ring Resonator Shaped Six Element 2 × 3 Multiple Input Multiple Output Antenna for the C/X/Ku/K Band Applications

Author

Meshari Alsharari, Vishal Sorathiya, Ammar Armghan, Kavan Dave, and Khaled Aliqab

Subjects
MIMO, split-ring resonator, gain, directivity, gigahertz, TARC, Mechanical engineering and machinery, TJ1-1570
Abstract

In this manuscript, we have numerically investigated and experimentally verified the six-element split ring resonator and circular patch-shaped multiple input, multiple output antenna operating in the 1–25 GHz band. MIMO antennas are analyzed in terms of several physical parameters, such as reflectance, gain, directivity, VSWR, and electric field distribution. The parameters of the MIMO antenna, for instance, the envelope correlation coefficient (ECC), channel capacity loss (CCL), the total active reflection coefficient (TARC), directivity gain (DG), and mean effective gain (MEG), are also investigated for identification of a suitable range of these parameters for multichannel transmission capacity. Ultrawideband operation at 10.83 GHz is possible for the theoretically designed and practically executed antenna with the return loss and gain values of −19 dB and −28 dBi, respectively. Overall, the antenna offers minimum return loss values of −32.74 dB for the operating band of 1.92 to 9.81 GHz with a bandwidth of 6.89 GHz. The antennas are also investigated in terms of a continuous ground patch and a scattered rectangular patch. The proposed results are highly applicable for the ultrawideband operating MIMO antenna application in satellite communication with C/X/Ku/K bands.

Published
2023
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17. Human CD69

Author

Vanek, O., primary, Nalezkova, M., additional, Kavan, D., additional, Borovickova, I., additional, Pompach, P., additional, Novak, P., additional, Kumar, V., additional, Vannucci, L., additional, Hudecek, J., additional, Hofbauerova, K., additional, Kopecky, V., additional, Brynda, J., additional, Kolenko, P., additional, Dohnalek, J., additional, Kaderavek, P., additional, Chmelik, J., additional, Gorcik, L., additional, Zidek, L., additional, and Sklenar, V., additional

Published
2008
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19. L-Asparaginase Causes Metabolic Reprogramming in ALL Cells

Author

Hermanova, I., Karel Vališ, Nuskova, H., Alberich-Jorda, M., Aristorena, A. A., Fernandez-Ruiz, S., Bartova, S., Pecinova, A., Kavan, D., Fiser, K., Kuzma, M., Novak, P., Mracek, T., Carracedo, A., Trka, J., and Starkova, J.

24. Защита речевой информации от утечки по акустическим каналам

Author

Давыдов, Г. В., Каван, Д. М., Попов, В. А., Потапович, А. В., Davydau, H. V., Kavan, D. M., Papоu, V. A., Patapovich, A. V., Давыдов, Г. В., Каван, Д. М., Попов, В. А., Потапович, А. В., Davydau, H. V., Kavan, D. M., Papоu, V. A., and Patapovich, A. V.

Abstract

Выполнен анализ характеристик акустических каналов, по которым возможна утечка речевой информации, и механизмы их образования. Рассмотрены методы оценки разборчивости речи, на базе чего сформированы условия обеспечения защиты речевой информации. Экспериментальные исследования акустических характеристик ограждающих элементов конструкций выполнены для стен и систем отопления.Acoustic channels of speech information leakage and mechanisms for formation of such channels are characterized and analyzed. Methods of speech intelligibility evaluation are used to state the conditions for the speech information protection. Acoustic characteristics of walls and heating systems are studied experimentally and the results are performed.

25. Heterologous expression, purification and characterization of nitrilase from Aspergillus niger K10

Author

Felsberg Jürgen, Cantarella Maria, Slámová Kristýna, Rinágelová Anna, Veselá Alicja B, Šveda Ondřej, Malandra Anna, Benada Oldřich, Kavan Daniel, Vaněk Ondřej, Kulik Natallia, Ettrich Rüdiger, Plíhal Ondřej, Bezouška Karel, Kaplan Ondřej, Dušková Jarmila, Dohnálek Jan, Kotik Michael, Křen Vladimír, and Martínková Ludmila

Subjects
Biotechnology, TP248.13-248.65
Abstract

Abstract Background Nitrilases attract increasing attention due to their utility in the mild hydrolysis of nitriles. According to activity and gene screening, filamentous fungi are a rich source of nitrilases distinct in evolution from their widely examined bacterial counterparts. However, fungal nitrilases have been less explored than the bacterial ones. Nitrilases are typically heterogeneous in their quaternary structures, forming short spirals and extended filaments, these features making their structural studies difficult. Results A nitrilase gene was amplified by PCR from the cDNA library of Aspergillus niger K10. The PCR product was ligated into expression vectors pET-30(+) and pRSET B to construct plasmids pOK101 and pOK102, respectively. The recombinant nitrilase (Nit-ANigRec) expressed in Escherichia coli BL21-Gold(DE3)(pOK101/pTf16) was purified with an about 2-fold increase in specific activity and 35% yield. The apparent subunit size was 42.7 kDa, which is approx. 4 kDa higher than that of the enzyme isolated from the native organism (Nit-ANigWT), indicating post-translational cleavage in the enzyme's native environment. Mass spectrometry analysis showed that a C-terminal peptide (Val327 - Asn356) was present in Nit-ANigRec but missing in Nit-ANigWT and Asp298-Val313 peptide was shortened to Asp298-Arg310 in Nit-ANigWT. The latter enzyme was thus truncated by 46 amino acids. Enzymes Nit-ANigRec and Nit-ANigWT differed in substrate specificity, acid/amide ratio, reaction optima and stability. Refolded recombinant enzyme stored for one month at 4°C was fractionated by gel filtration, and fractions were examined by electron microscopy. The late fractions were further analyzed by analytical centrifugation and dynamic light scattering, and shown to consist of a rather homogeneous protein species composed of 12-16 subunits. This hypothesis was consistent with electron microscopy and our modelling of the multimeric nitrilase, which supports an arrangement of dimers into helical segments as a plausible structural solution. Conclusions The nitrilase from Aspergillus niger K10 is highly homologous (≥86%) with proteins deduced from gene sequencing in Aspergillus and Penicillium genera. As the first of these proteins, it was shown to exhibit nitrilase activity towards organic nitriles. The comparison of the Nit-ANigRec and Nit-ANigWT suggested that the catalytic properties of nitrilases may be changed due to missing posttranslational cleavage of the former enzyme. Nit-ANigRec exhibits a lower tendency to form filaments and, moreover, the sample homogeneity can be further improved by in vitro protein refolding. The homogeneous protein species consisting of short spirals is expected to be more suitable for structural studies.

Published
2011
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26. Glycan-induced structural activation softens the human papillomavirus capsid for entry through reduction of intercapsomere flexibility.

Author

Feng Y, van Bodegraven D, Kádek A, L B Munguira I, Soria-Martinez L, Nentwich S, Saha S, Chardon F, Kavan D, Uetrecht C, Schelhaas M, and Roos WH

Subjects
Humans, Papillomavirus Infections virology, Polysaccharides metabolism, Polysaccharides chemistry, Papillomaviridae physiology, Binding Sites, Protein Binding, Human papillomavirus 16 metabolism, Human papillomavirus 16 physiology, Human Papillomavirus Viruses, Capsid metabolism, Capsid chemistry, Capsid Proteins metabolism, Capsid Proteins chemistry, Virus Internalization, Heparitin Sulfate metabolism, Heparitin Sulfate chemistry, Microscopy, Atomic Force
Abstract

High-risk human papillomaviruses (HPVs) cause various cancers. While type-specific prophylactic vaccines are available, additional anti-viral strategies are highly desirable. Initial HPV cell entry involves receptor-switching induced by structural capsid modifications. These modifications are initiated by interactions with cellular heparan sulphates (HS), however, their molecular nature and functional consequences remain elusive. Combining virological assays with hydrogen/deuterium exchange mass spectrometry, and atomic force microscopy, we investigate the effect of capsid-HS binding and structural activation. We show how HS-induced structural activation requires a minimal HS-chain length and simultaneous engagement of several binding sites by a single HS molecule. This engagement introduces a pincer-like force that stabilizes the capsid in a conformation with extended capsomer linkers. It results in capsid enlargement and softening, thereby likely facilitating L1 proteolytic cleavage and subsequent L2-externalization, as needed for cell entry. Our data supports the further devising of prophylactic strategies against HPV infections., Competing Interests: Competing interests: The authors declare no competing interests., (© 2024. The Author(s).)

Published
2024
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27. Postproline Cleaving Enzymes also Show Specificity to Reduced Cysteine.

Author

Kalaninová Z, Portašiková JM, Jirečková B, Polák M, Nováková J, Kavan D, Novák P, and Man P

Abstract

In proteomics, postproline cleaving enzymes (PPCEs), such as Aspergillus niger prolyl endopeptidase ( An PEP) and neprosin, complement proteolytic tools because proline is a stop site for many proteases. But while aiming at using An PEP in online proteolysis, we found that this enzyme also displayed specificity to reduced cysteine. By LC-MS/MS, we systematically analyzed An PEP sources and conditions that could affect this cleavage preference. Postcysteine cleavage was blocked by cysteine modifications, including disulfide bond formation, oxidation, and alkylation. The last modification explains why this activity has remained undetected so far. In the same experimental paradigm, neprosin mimicked this cleavage specificity. Based on these findings, PPCEs cleavage preferences should be redefined from post-Pro/Ala to post-Pro/Ala/Cys. Moreover, this evidence demands reconsidering PPCEs applications, whether cleaving Cys-rich proteins or assessing Cys status in proteins, and calls for revisiting the proposed enzymatic mechanism of these proteases.

Published
2024
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28. Phlebotomine sand fly survey, blood meal source identification, and description of Sergentomyia imihra n. sp. in the central Sahara of Algeria.

Author

Benallal KE, Mefissel M, Dib Y, Depaquit J, Kavan D, Harrat Z, Dvořák V, Volf P, and Halada P

Subjects
Animals, Algeria, Female, Humans, Phlebotomus classification, Phlebotomus anatomy & histology, Phlebotomus physiology, Phlebotomus genetics, Male, Leishmaniasis transmission, Leishmania genetics, Leishmania physiology, Leishmania classification, Goats parasitology, Psychodidae classification, Psychodidae physiology, Psychodidae anatomy & histology, Insect Vectors classification, Insect Vectors physiology, Insect Vectors parasitology, Insect Vectors anatomy & histology, Feeding Behavior
Abstract

Background: Phlebotomine sand flies (Diptera: Psychodidae) are important vectors of various pathogens, mainly Leishmania parasites. In the Old World, the most important genus in term of pathogens transmission is the genus Phlebotomus, which includes many proven or suspected vectors of several Leishmania species, while the genus Sergentomyia remains so far unproven as a vector of human pathogens. Algeria is one of the most affected countries by human leishmaniasis., Methods: In the present study, an entomological survey was carried out in two provinces, Ghardaïa and Illizi, located in the north and central Sahara, respectively, where cases of human leishmaniasis are recorded. Our goal was to understand the role of the local sand fly species in the transmission of Leishmania parasites and to analyze their blood meal preferences. Collected sand flies were identified by a combination of morphological and molecular approaches that included DNA-barcoding and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) protein profiling. In addition, female blood meals were analyzed by peptide mass mapping using MALDI-TOF MS., Results: In total, 640 sand fly specimens belonging to Phlebotomus and Sergentomyia genera were collected in the two provinces. Sergentomyia antennata and Se. fallax were most abundant species in Ghardaïa, and Ph. papatasi and Ph. alexandri in Illizi. In addition, a new sand fly species was described in Illizi named Sergentomyia (Sergentomyia) imihra n. sp. Blood meal analysis of the engorged females revealed various mammalian hosts, especially goats, but also humans for Phlebotomus papatasi and Ph. alexandri, suggesting that these vector species are opportunistic feeders., Conclusions: Integrative approach that combined morphological analysis, sequencing of DNA markers, and protein profiling enabled the recognition and description of a new Sergentomyia species, raising the number of the Algerian sand fly fauna to 27 species. Further sand fly surveillance in the central Sahara is recommended to identify the thus-far unknown males of Se. imihra n. sp., (© 2024. The Author(s).)

Published
2024
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29. Data-Independent Acquisition Represents a Promising Alternative for Fast Photochemical Oxidation of Proteins (FPOP) Samples Analysis.

Author

Zakopcanik M, Kavan D, Kukacka Z, Novak P, and Loginov DS

Subjects
Hydroxyl Radical chemistry, Hydroxyl Radical analysis, Software, Oxidation-Reduction, Proteins chemistry, Proteins analysis, Photochemical Processes
Abstract

Fast Photochemical Oxidation of Proteins (FPOP) is a protein footprinting method utilizing hydroxyl radicals to provide valuable information on the solvent-accessible surface area. The extensive number of oxidative modifications that are created by FPOP is both advantageous, leading to great spatial resolution, and challenging, increasing the complexity of data processing. The precise localization of the modification together with the appropriate reproducibility is crucial to obtain relevant structural information. In this paper, we propose a novel approach combining validated spectral libraries together with utilizing DIA data. First, the DDA data searched by FragPipe are subsequently validated using Skyline software to form a spectral library. This library is then matched against the DIA data to filter out nonrepresentative IDs. In comparison with FPOP data processing using only a search engine followed by generally applied filtration steps, the manually validated spectral library offers higher confidence in identifications and increased spatial resolution. Furthermore, the reproducibility of quantification was compared for DIA, DDA, and MS-only acquisition modes on timsTOF SCP. Comparison of coefficients of variation (CV) showed that the DIA and MS acquisition modes exhibit significantly better reproducibility in quantification (CV medians 0.1233 and 0.1494, respectively) compared to the DDA mode (CV median 0.2104).

Published
2024
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30. Quantifying the Impact of the Peptide Identification Framework on the Results of Fast Photochemical Oxidation of Protein Analysis.

Author

Zakopcanik M, Kavan D, Novak P, and Loginov DS

Subjects
Reproducibility of Results, Proteins analysis, Software, Tandem Mass Spectrometry methods, Peptides analysis
Abstract

Fast Photochemical Oxidation of Proteins (FPOP) is a promising technique for studying protein structure and dynamics. The quality of insight provided by FPOP depends on the reliability of the determination of the modification site. This study investigates the performance of two search engines, Mascot and PEAKS, for the data processing of FPOP analyses. Comparison of Mascot and PEAKS of the hemoglobin--haptoglobin Bruker timsTOF data set (PXD021621) revealed greater consistency in the Mascot identification of modified peptides, with around 26% of the IDs being mutual for all three replicates, compared to approximately 22% for PEAKS. The intersection between Mascot and PEAKS results revealed a limited number (31%) of shared modified peptides. Principal Component Analysis (PCA) using the peptide-spectrum match (PSM) score, site probability, and peptide intensity was applied to evaluate the results, and the analyses revealed distinct clusters of modified peptides. Mascot showed the ability to assess confident site determination, even with lower PSM scores. However, high PSM scores from PEAKS did not guarantee a reliable determination of the modification site. Fragmentation coverage of the modification position played a crucial role in Mascot assignments, while the AScore localizations from PEAKS often become ambiguous because the software employs MS/MS merging.

Published
2024
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31. Antifungal triazoles affect key non-target metabolic pathways in Solanum lycopersicum L. plants.

Author

Hýsková V, Jakl M, Jaklová Dytrtová J, Ćavar Zeljković S, Vrobel O, Bělonožníková K, Kavan D, Křížek T, Šimonová A, Vašková M, Kovač I, Račko Žufić A, and Ryšlavá H

Subjects
Antioxidants metabolism, Metabolic Networks and Pathways, Triazoles toxicity, Antifungal Agents, Solanum lycopersicum
Abstract

Several 1,2,4-triazoles are widely used as systemic fungicides in agriculture because they inhibit fungal 14ɑ-demethylase. However, they can also act on many non-target plant enzymes, thereby affecting phytohormonal balance, free amino acid content, and adaptation to stress. In this study, tomato plants (Solanum lycopersicum L. var. 'Cherrola') were exposed to penconazole, tebuconazole, or their combination, either by foliar spraying or soil drenching, every week, as an ecotoxicological model. All triazole-exposed plants showed a higher content (1.7-8.8 ×) of total free amino acids than the control, especially free glutamine and asparagine were increased most likely in relation to the increase in active cytokinin metabolites 15 days after the first application. Conversely, the Trp content decreased in comparison with control (0.2-0.7 ×), suggesting depletion by auxin biosynthesis. Both triazole application methods slightly affected the antioxidant system (antioxidant enzyme activity, antioxidant capacity, and phenolic content) in tomato leaves. These results indicated that the tomato plants adapted to triazoles over time. Therefore, increasing the abscisic and chlorogenic acid content in triazole-exposed plants may promote resistance to abiotic stress., Competing Interests: Declaration of Competing Interest 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., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2023
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32. Top-Down Proteoform Analysis by 2D MS with Quadrupolar Detection.

Author

Polák M, Palasser M, Kádek A, Kavan D, Wootton CA, Delsuc MA, Breuker K, Novák P, and van Agthoven MA

Subjects
Ubiquitin, Cyclotrons, Fourier Analysis, Proteomics methods, Tandem Mass Spectrometry methods
Abstract

Two-dimensional mass spectrometry (2D MS) is a multiplexed tandem mass spectrometry method that does not rely on ion isolation to correlate the precursor and fragment ions. On a Fourier transform ion cyclotron resonance mass spectrometer (FT-ICR MS), 2D MS instead uses the modulation of precursor ion radii inside the ICR cell before fragmentation and yields 2D mass spectra that show the fragmentation patterns of all the analytes. In this study, we perform 2D MS for the first time with quadrupolar detection in a dynamically harmonized ICR cell. We discuss the advantages of quadrupolar detection in 2D MS and how we adapted existing data processing techniques for accurate frequency-to-mass conversion. We apply 2D MS with quadrupolar detection to the top-down analysis of covalently labeled ubiquitin with ECD fragmentation, and we develop a workflow for label-free relative quantification of biomolecule isoforms in 2D MS.

Published
2023
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33. Triazoles as a Potential Threat to the Nutritional Quality of Tomato Fruits.

Author

Hýsková V, Jakl M, Jaklová Dytrtová J, Ćavar Zeljković S, Vrobel O, Bělonožníková K, Kavan D, Křížek T, Šimonová A, Vašková M, Kovač I, Račko Žufić A, and Ryšlavá H

Abstract

Triazole fungicides can threaten plants as abiotic stressors but can also positively affect plant defense by inducing priming. Thus, plant yield is also both protected and endangered by triazoles that may influence several metabolic pathways during maturation processes, such as the biosynthesis of saccharides or secondary metabolites. Here, Solanum lycopersicum L. plants were exposed to foliar and soil applications of penconazole, tebuconazole, or their combination, and their resulting effect on tomato fruits was followed. The exposure to the equimolar mixture of both triazoles influenced the representation of free proteinogenic amino acids, especially Gln, Glu, Gly, Ile, Lys, Ser and Pro, saccharide content, and led to a significant increase in the contents of total phenolics and flavonoids as well as positive stimulation of the non-enzymatic antioxidant system. Among the identified secondary metabolites, the most abundant was naringenin, followed by chlorogenic acid in tomato peel. In turn, all triazole-treated groups showed a significantly lower content of rosmarinic acid in comparison with the control. Foliar application of penconazole affected the fruit more than other single triazole applications, showing a significant decrease in antioxidant capacity, the total content of secondary metabolites, and the activities of total membrane-bound peroxidases and ascorbate peroxidase.

Published
2023
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34. Casein as protein and hydrolysate: Biostimulant or nitrogen source for Nicotiana tabacum plants grown in vitro?

Author

Bělonožníková K, Černý M, Hýsková V, Synková H, Valcke R, Hodek O, Křížek T, Kavan D, Vaňková R, Dobrev P, Haisel D, and Ryšlavá H

Subjects
Humans, Caseins metabolism, Proteomics, Amino Acids metabolism, Plants metabolism, Peptide Hydrolases metabolism, Nicotiana metabolism, Nitrogen metabolism
Abstract

In contrast to inorganic nitrogen (N) assimilation, the role of organic N forms, such as proteins and peptides, as sources of N and their impact on plant metabolism remains unclear. Simultaneously, organic biostimulants are used as priming agents to improve plant defense response. Here, we analysed the metabolic response of tobacco plants grown in vitro with casein hydrolysate or protein. As the sole source of N, casein hydrolysate enabled tobacco growth, while protein casein was used only to a limited extent. Free amino acids were detected in the roots of tobacco plants grown with protein casein but not in the plants grown with no source of N. Combining hydrolysate with inorganic N had beneficial effects on growth, root N uptake and protein content. The metabolism of casein-supplemented plants shifted to aromatic (Trp), branched-chain (Ile, Leu, Val) and basic (Arg, His, Lys) amino acids, suggesting their preferential uptake and/or alterations in their metabolic pathways. Complementarily, proteomic analysis of tobacco roots identified peptidase C1A and peptidase S10 families as potential key players in casein degradation and response to N starvation. Moreover, amidases were significantly upregulated, most likely for their role in ammonia release and impact on auxin synthesis. In phytohormonal analysis, both forms of casein influenced phenylacetic acid and cytokinin contents, suggesting a root system response to scarce N availability. In turn, metabolomics highlighted the stimulation of some plant defense mechanisms under such growth conditions, that is, the high concentrations of secondary metabolites (e.g., ferulic acid) and heat shock proteins., (© 2023 The Authors. Physiologia Plantarum published by John Wiley & Sons Ltd on behalf of Scandinavian Plant Physiology Society.)

Published
2023
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35. Restored biosynthetic pathways induced by MSCs serve as rescue mechanism in leukemia cells after L-asparaginase therapy.

Author

Alquezar-Artieda N, Kuzilkova D, Roberts J, Hlozkova K, Pecinova A, Pecina P, Zwyrtkova M, Potuckova E, Kavan D, Hermanova I, Zaliova M, Novak P, Mracek T, Sramkova L, Tennant DA, Trka J, and Starkova J

Subjects
Humans, Asparaginase therapeutic use, Biosynthetic Pathways, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Leukemia drug therapy
Published
2023
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36. Counterintuitive structural and functional effects due to naturally occurring mutations targeting the active site of the disease-associated NQO1 enzyme.

Author

Pacheco-García JL, Anoz-Carbonell E, Loginov DS, Kavan D, Salido E, Man P, Medina M, and Pey AL

Subjects
Humans, Catalytic Domain genetics, Mutation, Molecular Biology, Computational Biology, NAD(P)H Dehydrogenase (Quinone) genetics, NAD(P)H Dehydrogenase (Quinone) metabolism, Proteins chemistry, Mutation, Missense
Abstract

Our knowledge on the genetic diversity of the human genome is exponentially growing. However, our capacity to establish genotype-phenotype correlations on a large scale requires a combination of detailed experimental and computational work. This is a remarkable task in human proteins which are typically multifunctional and structurally complex. In addition, mutations often prevent the determination of mutant high-resolution structures by X-ray crystallography. We have characterized here the effects of five mutations in the active site of the disease-associated NQO1 protein, which are found either in cancer cell lines or in massive exome sequencing analysis in human population. Using a combination of H/D exchange, rapid-flow enzyme kinetics, binding energetics and conformational stability, we show that mutations in both sets may cause counterintuitive functional effects that are explained well by their effects on local stability regarding different functional features. Importantly, mutations predicted to be highly deleterious (even those affecting the same protein residue) may cause mild to catastrophic effects on protein function. These functional effects are not well explained by current predictive bioinformatic tools and evolutionary models that account for site conservation and physicochemical changes upon mutation. Our study also reinforces the notion that naturally occurring mutations not identified as disease-associated can be highly deleterious. Our approach, combining protein biophysics and structural biology tools, is readily accessible to broadly increase our understanding of genotype-phenotype correlations and to improve predictive computational tools aimed at distinguishing disease-prone against neutral missense variants in the human genome., (© 2022 The Authors. The FEBS Journal published by John Wiley & Sons Ltd on behalf of Federation of European Biochemical Societies.)

Published
2023
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37. Effect of Agrimonia eupatoria L. and Origanum vulgare L. Leaf, Flower, Stem, and Root Extracts on the Survival of Pseudomonas aeruginosa .

Author

Bělonožníková K, Sladkovská E, Kavan D, Hýsková V, Hodek P, Šmíd D, and Ryšlavá H

Subjects
Humans, Pseudomonas aeruginosa, Plant Leaves, Antioxidants pharmacology, Flavonoids pharmacology, Phenols, Flowers, Anti-Bacterial Agents pharmacology, Ethanol, Plant Extracts pharmacology, Origanum, Agrimonia, Anti-Infective Agents
Abstract

Pseudomonas aeruginosa is one of the most antibiotic multi-resistant bacteria, causing chronic pulmonary disease and leading to respiratory failure and even mortality. Thus, there has been an ever-increasing search for novel and preferably natural antimicrobial compounds. Agrimonia eupatoria L. and Origanum vulgare L. shoots are commonly used as teas or alcoholic tinctures for their human health-promoting and antibacterial properties. Here, we explored the antimicrobial effects of all plant parts, i.e., leaf, flower, stem, and root extracts, prepared in water or in 60% ethanol, against P. aeruginosa . The impact of these extracts on bacterial survival was determined using a luminescent strain of P. aeruginosa , which emits light when alive. In addition, the antimicrobial effects were compared with the antioxidant properties and content of phenolic compounds of plant extracts. Ethanolic extracts of O. vulgare roots and flowers showed the highest antimicrobial activity, followed by A. eupatoria roots. In particular, chlorogenic acid, the ethanolic extract of O. vulgare roots contained high levels of protocatechuic acid, hesperidin, shikimic acid, rutin, quercetin, and morin. The synergistic effects of these phenolic compounds and flavonoids may play a key role in the antibacterial activity of teas and tinctures.

Published
2023
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38. Top-Down Detection of Oxidative Protein Footprinting by Collision-Induced Dissociation, Electron-Transfer Dissociation, and Electron-Capture Dissociation.

Author

Yassaghi G, Kukačka Z, Fiala J, Kavan D, Halada P, Volný M, and Novák P

Subjects
Myoglobin chemistry, Oxidative Stress, Protein Conformation, Electrons, Protein Footprinting methods
Abstract

Fast photochemical oxidation of proteins (FPOP) footprinting is a structural mass spectrometry method that maps proteins by fast and irreversible chemical reactions. The position of oxidative modification reflects solvent accessibility and site reactivity and thus provides information about protein conformation, structural dynamics, and interactions. Bottom-up mass spectrometry is an established standard method to analyze FPOP samples. In the bottom-up approach, all forms of the protein are digested together by a protease of choice, which results in a mixture of peptides from various subpopulations of proteins with varying degrees of photochemical oxidation. Here, we investigate the possibility to analyze a specifically selected population of only singly oxidized proteins. This requires utilization of more specific top-down mass spectrometry approaches. The key element of any top-down experiment is the selection of a suitable method of ion isolation, excitation, and fragmentation. Here, we employ and compare collision-induced dissociation, electron-transfer dissociation, and electron-capture dissociation combined with multi-continuous accumulation of selected ions. A singly oxidized subpopulation of FPOP-labeled ubiquitin was used to optimize the method. The top-down approach in FPOP is limited to smaller proteins, but its usefulness was demonstrated by using it to visualize structural changes induced by co-factor removal from the holo/apo myoglobin system. The top-down data were compared with the literature and with the bottom-up data set obtained on the same samples. The top-down results were found to be in good agreement, which indicates that monitoring a singly oxidized FPOP ion population by the top-down approach is a functional workflow for oxidative protein footprinting.

Published
2022
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39. Structural basis for long-chain isoprenoid synthesis by cis -prenyltransferases.

Author

Giladi M, Lisnyansky Bar-El M, Vaňková P, Ferofontov A, Melvin E, Alkaderi S, Kavan D, Redko B, Haimov E, Wiener R, Man P, and Haitin Y

Abstract

Isoprenoids are synthesized by the prenyltransferase superfamily, which is subdivided according to the product stereoisomerism and length. In short- and medium-chain isoprenoids, product length correlates with active site volume. However, enzymes synthesizing long-chain products and rubber synthases fail to conform to this paradigm, because of an unexpectedly small active site. Here, we focused on the human cis -prenyltransferase complex (h cis -PT), residing at the endoplasmic reticulum membrane and playing a crucial role in protein glycosylation. Crystallographic investigation of h cis -PT along the reaction cycle revealed an outlet for the elongating product. Hydrogen-deuterium exchange mass spectrometry analysis showed that the hydrophobic active site core is flanked by dynamic regions consistent with separate inlet and outlet orifices. Last, using a fluorescence substrate analog, we show that product elongation and membrane association are closely correlated. Together, our results support direct membrane insertion of the elongating isoprenoid during catalysis, uncoupling active site volume from product length.

Published
2022
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40. Pythium oligandrum in plant protection and growth promotion: Secretion of hydrolytic enzymes, elicitors and tryptamine as auxin precursor.

Author

Bělonožníková K, Hýsková V, Chmelík J, Kavan D, Čeřovská N, and Ryšlavá H

Subjects
Hydrolysis, Indoleacetic Acids metabolism, Plant Diseases microbiology, Plant Diseases prevention & control, Tryptamines, Phytophthora, Pythium
Abstract

Pythium is a genus of parasitic oomycetes which target plants and both nonvertebrate and vertebrate animals, including fish and mammalian species. However, several Pythium spp., such as P. oligandrum, function as mycoparasites of pathogenic fungi, bacteria, and oomycetes in soil and thus as advantageous biocontrol agents. This review primarily focuses on biochemical processes underlying their positive effects. For example, P. oligandrum degrades host cell wall polysaccharides using chitinases, cellulases, endo-β-1,3-glucanases, and various exoglycosidases. Proteases from various classes also participate in the cell wall hydrolysis. All these processes can modify cell surface structures and help Pythium spp. compete for space and nutrition. Accordingly, enzyme secretion most likely plays a key role in plant root colonisation. Plant-P. oligandrum interactions, nevertheless, do not involve tissue injury but instead activate plant defence mechanisms, thereby strengthening future plant responses to pathogen attacks. Priming induces the phenylpropanoid and terpenoid pathways and thus synthesis of secondary metabolites, including lignin, for cell wall fortification and other metabolic adjustments. Such metabolic changes are mediated by elicitins, cell wall glycoproteins and oligandrins produced by P. oligandrum. As homologous proteins of β-cinnamomin from Phytophthora cinnamomi with similar essential amino acids for sterol binding, oligandrins stand out for their structure, which they share with cell wall glycoproteins, albeit without the Ser-Thr-rich O-glycosylated domain for cell wall attachment. P. oligandrum also provides plant with tryptamine used for auxin synthesis, promoting plant growth. Overall, in addition to discussing plant metabolic and phytohormonal changes after P. oligandrum inoculation, we review data on P. oligandrum applications as researchers increasingly search for effective and environmentally friendly ways to protect crops. In this context, P. oligandrum emerges as a highly suitable biotechnological solution., (Copyright © 2022 Elsevier GmbH. All rights reserved.)

Published
2022
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41. Utilization of Fast Photochemical Oxidation of Proteins and Both Bottom-up and Top-down Mass Spectrometry for Structural Characterization of a Transcription Factor-dsDNA Complex.

Author

Polák M, Yassaghi G, Kavan D, Filandr F, Fiala J, Kukačka Z, Halada P, Loginov DS, and Novák P

Subjects
Mass Spectrometry methods, Oxidation-Reduction, Transcription Factors, Amino Acids, DNA
Abstract

A combination of covalent labeling techniques and mass spectrometry (MS) is currently a progressive approach for deriving insights related to the mapping of protein surfaces or protein-ligand interactions. In this study, we mapped an interaction interface between the DNA binding domain (DBD) of FOXO4 protein and the DNA binding element (DAF16) using fast photochemical oxidation of proteins (FPOP). Residues involved in protein-DNA interaction were identified using the bottom-up approach. To confirm the findings and avoid a misinterpretation of the obtained data, caused by possible multiple radical oxidations leading to the protein surface alteration and oxidation of deeply buried amino acid residues, a top-down approach was employed for the first time in FPOP analysis. An isolation of singly oxidized ions enabled their gas-phase separation from multiply oxidized species followed by CID and ECD fragmentation. Application of both fragmentation techniques allowed generation of complementary fragment sets, out of which the regions shielded in the presence of DNA were deduced. The findings obtained by bottom-up and top-down approaches were highly consistent. Finally, FPOP results were compared with those of the HDX study of the FOXO4-DBD·DAF16 complex. No contradictions were found between the methods. Moreover, their combination provides complementary information related to the structure and dynamics of the protein-DNA complex. Data are available via ProteomeXchange with identifier PXD027624.

Published
2022
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42. A single evolutionarily divergent mutation determines the different FAD-binding affinities of human and rat NQO1 due to site-specific phosphorylation.

Author

Pacheco-Garcia JL, Loginov D, Rizzuti B, Vankova P, Neira JL, Kavan D, Mesa-Torres N, Guzzi R, Man P, and Pey AL

Subjects
Animals, Humans, Rats, Models, Molecular, Mutation, Phosphorylation, Evolution, Molecular, Flavin-Adenine Dinucleotide metabolism, NAD(P)H Dehydrogenase (Quinone) metabolism, NAD(P)H Dehydrogenase (Quinone) genetics, NAD(P)H Dehydrogenase (Quinone) chemistry, Protein Binding
Abstract

The phosphomimetic mutation S82D in the cancer-associated, FAD-dependent human NADP(H):quinone oxidoreductase 1 (hNQO1) causes a decrease in flavin-adenine dinucleotide-binding affinity and intracellular stability. We test in this work whether the evolutionarily recent neutral mutation R80H in the vicinity of S82 may alter the strong functional effects of S82 phosphorylation through electrostatic interactions. We show using biophysical and bioinformatic analyses that the reverse mutation H80R prevents the effects of S82D phosphorylation on hNQO1 by modulating the local stability. Consistently, in rat NQO1 (rNQO1) which contains R80, the effects of phosphorylation were milder, resembling the behaviour found in hNQO1 when this residue was humanized in rNQO1 (by the R80H mutation). Thus, apparently neutral and evolutionarily divergent mutations may determine the functional response of mammalian orthologues towards phosphorylation., (© 2021 The Authors. FEBS Letters published by John Wiley & Sons Ltd on behalf of Federation of European Biochemical Societies.)

Published
2022
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43. How is the activity of shikimate dehydrogenase from the root of Petroselinum crispum (parsley) regulated and which side reactions are catalyzed?

Author

Hýsková V, Bělonožníková K, Šmeringaiová I, Kavan D, Ingr M, and Ryšlavá H

Subjects
Catalysis, Shikimic Acid, Alcohol Oxidoreductases, Petroselinum
Abstract

Inhibitors of the shikimate pathway are widely used as herbicides, antibiotics, and anti-infectious drugs. However, the regulation of the shikimic pathway is complex, and little is known about the feedback regulation of the shikimate dehydrogenase (SDH, EC 1.1.1.25) in plants. Thus, the aim of this study was to elucidate the kinetic mechanism of SDH purified from the root of Petroselinum crispum (parsley), to determine all possible reaction products and to identify phenylpropanoid compounds that affect its activity. Our results showed that the bisubstrate reaction catalyzed by P. crispum SDH follows a sequential ordered mechanism, except for three dead-end complexes. The main and lateral reactions of SDH were monitored by mass spectrometry, thereby detecting protocatechuic acid as a byproduct. Gallic acid was formed non-enzymatically, whereas quinate was not detected. Several polyphenolic compounds inhibited SDH activity, especially tannic, caffeic and chlorogenic acids, with IC 50 0.014 mM, 0.15 mM, and 0.19 mM, respectively. The number of hydroxyl groups influenced their inhibition effect on SDH, and p-coumaric, t-ferulic, sinapic, syringic and salicylic acids were less effective SDH inhibitors. Nevertheless, one branch of the phenylpropanoid pathway may affect SDH activity through feedback regulation., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published
2021
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44. LinX: A Software Tool for Uncommon Cross-Linking Chemistry.

Author

Kukačka Z, Rosůlek M, Jelínek J, Slavata L, Kavan D, and Novák P

Subjects
Algorithms, Cross-Linking Reagents, Mass Spectrometry, Peptides, Software
Abstract

Chemical cross-linking mass spectrometry has become a popular tool in structural biology. Although several algorithms exist that efficiently analyze data-dependent mass spectrometric data, the algorithm to identify and quantify intermolecular cross-links located at the interaction interface of homodimer molecules was missing. The algorithm in LinX utilizes high mass accuracy for ion identification. In contrast with standard data-dependent analysis, LinX enables the elucidation of cross-linked peptides originating from the interaction interface of homodimers labeled by 14 N/ 15 N, including their ratio or cross-links from protein-nucleic acid complexes. The software is written in Java language, and its source code and a detailed user's guide are freely available at https://github.com/KukackaZ/LinX or https://ms-utils.org/LinX. Data are accessible via the ProteomeXchange server with the data set identifier PXD023522.

Published
2021
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45. Motif orientation matters: Structural characterization of TEAD1 recognition of genomic DNA.

Author

Filandrová R, Vališ K, Černý J, Chmelík J, Slavata L, Fiala J, Rosůlek M, Kavan D, Man P, Chum T, Cebecauer M, Fabris D, and Novák P

Subjects
DNA metabolism, DNA-Binding Proteins metabolism, Humans, Jurkat Cells, Molecular Docking Simulation, Nuclear Proteins metabolism, Nucleotide Motifs, Protein Binding, TEA Domain Transcription Factors, Transcription Factors metabolism, DNA chemistry, DNA-Binding Proteins chemistry, Nuclear Proteins chemistry, Transcription Factors chemistry
Abstract

TEAD transcription factors regulate gene expression through interactions with DNA and other proteins. They are crucial for the development of eukaryotic organisms and to control the expression of genes involved mostly in cell proliferation and differentiation; however, their deregulation can lead to tumorigenesis. To study the interactions of TEAD1 with M-CAT motifs and their inverted versions, the K D of each complex was determined, and H/D exchange, quantitative chemical cross-linking, molecular docking, and smFRET were utilized for structural characterization. ChIP-qPCR was employed to correlate the results with a cell line model. The results obtained showed that although the inverted motif has 10× higher K D , the same residues were affected by the presence of M-CAT in both orientations. Molecular docking and smFRET revealed that TEAD1 binds the inverted motif rotated 180°. In addition, the inverted motif was proven to be occupied by TEAD1 in Jurkat cells, suggesting that the low-affinity binding sites present in the human genome may possess biological relevance., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2021
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46. Studying Protein-DNA Interactions by Hydrogen/Deuterium Exchange Mass Spectrometry.

Author

Filandrova R, Kavan D, Kadek A, Novak P, and Man P

Subjects
Animals, Binding Sites, Chromatography, Liquid, DNA metabolism, DNA-Binding Proteins metabolism, Data Analysis, Humans, Protein Binding, Protein Interaction Domains and Motifs, Transcription Factors, DNA chemistry, DNA-Binding Proteins chemistry, Hydrogen Deuterium Exchange-Mass Spectrometry methods
Abstract

Protein hydrogen/deuterium exchange (HDX) coupled to mass spectrometry (MS) can be used to study interactions of proteins with various ligands, to describe the effects of mutations, or to reveal structural responses of proteins to different experimental conditions. It is often described as a method with virtually no limitations in terms of protein size or sample composition. While this is generally true, there are, however, ligands or buffer components that can significantly complicate the analysis. One such compound, that can make HDX-MS troublesome, is DNA. In this chapter, we will focus on the analysis of protein-DNA interactions, describe the detailed protocol, and point out ways to overcome the complications arising from the presence of DNA.

Published
2021
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47. Three-Dimensional Printed Target Plates for Matrix-Assisted Laser Desorption/Ionization Mass Spectrometry.

Author

Fialova J, Hrabak J, Studentova V, Kavan D, Pompach P, and Novak P

Abstract

Three-dimensional printing (3D printing) is a fast-growing technology with high impact in industry, medicine, and the life sciences. Fused deposition modeling (FDM), which uses plastic filaments extruded through a heated nozzle, is the most common 3D printing technology for creation of objects. In this work, the matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) target plates printed by FDM technology using conductive plastic material were evaluated for their detection capability of proteins and peptides. The 3D printed MALDI targets were validated by analysis of different types of bacteria and compared with commercially available MBT BioTargets. The results indicate that 3D printed MALDI targets are comparable to standard MBT BioTargets and stainless-steel targets and may be used for different MALDI-TOF MS applications. The 3D printing allows easy manufacturing of MALDI targets with different dimensions and spot geometry. Moreover, the 3D printed MALDI targets are disposable, cheap, and easy to produce. These features make them a suitable cost-effective alternative to conventional targets for any MALDI MS analysis.

Published
2020
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48. The interaction of the mitochondrial protein importer TOMM34 with HSP70 is regulated by TOMM34 phosphorylation and binding to 14-3-3 adaptors.

Author

Trcka F, Durech M, Vankova P, Vandova V, Simoncik O, Kavan D, Vojtesek B, Muller P, and Man P

Subjects
Cyclic AMP-Dependent Protein Kinases metabolism, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, HSP72 Heat-Shock Proteins metabolism, HSP90 Heat-Shock Proteins metabolism, Humans, MCF-7 Cells, Mitochondrial Membrane Transport Proteins genetics, Mitochondrial Membranes metabolism, Mitochondrial Precursor Protein Import Complex Proteins, Mitochondrial Proteins metabolism, Molecular Chaperones metabolism, Phosphorylation physiology, Protein Binding, Signal Transduction, Transcription Factors genetics, Transcription Factors metabolism, 14-3-3 Proteins metabolism, HSP70 Heat-Shock Proteins metabolism, Mitochondrial Membrane Transport Proteins metabolism
Abstract

Translocase of outer mitochondrial membrane 34 (TOMM34) orchestrates heat shock protein 70 (HSP70)/HSP90-mediated transport of mitochondrial precursor proteins. Here, using in vitro phosphorylation and refolding assays, analytical size-exclusion chromatography, and hydrogen/deuterium exchange MS, we found that TOMM34 associates with 14-3-3 proteins after its phosphorylation by protein kinase A (PKA). PKA preferentially targeted two serine residues in TOMM34: Ser 93 and Ser 160 , located in the tetratricopeptide repeat 1 (TPR1) domain and the interdomain linker, respectively. Both of these residues were necessary for efficient 14-3-3 protein binding. We determined that phosphorylation-induced structural changes in TOMM34 are further augmented by binding to 14-3-3, leading to destabilization of TOMM34's secondary structure. We also observed that this interaction with 14-3-3 occludes the TOMM34 interaction interface with ATP-bound HSP70 dimers, which leaves them intact and thereby eliminates an inhibitory effect of TOMM34 on HSP70-mediated refolding in vitro In contrast, we noted that TOMM34 in complex with 14-3-3 could bind HSP90. Both TOMM34 and 14-3-3 participated in cytosolic precursor protein transport mediated by the coordinated activities of HSP70 and HSP90. Our results provide important insights into how PKA-mediated phosphorylation and 14-3-3 binding regulate the availability of TOMM34 for its interaction with HSP70., Competing Interests: Conflict of interest—The authors declare that they have no conflicts of interest with the contents of this article., (© 2020 Trcka et al.)

Published
2020
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50. Structural Dynamics of Lytic Polysaccharide Monooxygenase during Catalysis.

Author

Filandr F, Kavan D, Kracher D, Laurent CVFP, Ludwig R, Man P, and Halada P

Subjects
Catalysis, Catalytic Domain, Cellulose chemistry, Fungal Proteins chemistry, Hydrogen-Ion Concentration, Lignin chemistry, Mass Spectrometry, Oxidative Stress, Oxidoreductases chemistry, Protein Binding, Protein Conformation, Reactive Oxygen Species chemistry, Spectrometry, Mass, Electrospray Ionization, Substrate Specificity, Copper chemistry, Mixed Function Oxygenases chemistry, Neurospora crassa enzymology, Oxygen chemistry, Polysaccharides chemistry
Abstract

Lytic polysaccharide monooxygenases (LPMOs) are industrially important oxidoreductases employed in lignocellulose saccharification. Using advanced time-resolved mass spectrometric techniques, we elucidated the structural determinants for substrate-mediated stabilization of the fungal LPMO9C from Neurospora crassa during catalysis. LPMOs require a reduction in the active-site copper for catalytic activity. We show that copper reduction in Nc LPMO9C leads to structural rearrangements and compaction around the active site. However, longer exposure to the reducing agent ascorbic acid also initiated an uncoupling reaction of the bound oxygen species, leading to oxidative damage, partial unfolding, and even fragmentation of Nc LPMO9C. Interestingly, no changes in the hydrogen/deuterium exchange rate were detected upon incubation of oxidized or reduced LPMO with crystalline cellulose, indicating that the LPMO-substrate interactions are mainly side-chain mediated and neither affect intraprotein hydrogen bonding nor induce significant shielding of the protein surface. On the other hand, we observed a protective effect of the substrate, which slowed down the autooxidative damage induced by the uncoupling reaction. These observations further complement the picture of structural changes during LPMO catalysis., Competing Interests: The authors declare no conflict of interest. The funders had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, or in the decision to publish the results.

Published
2020
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