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1. Proteolytic profiles of two isoforms of human AMBN expressed in E. coli by MMP-20 and KLK-4 proteases

Author

Vetyskova Veronika, Hubalek Martin, Sulc Josef, Prochazka Jan, Vondrasek Jiri, and Kristyna Vydra Bousova

Subjects
Ameloblastin, Proteolytic analysis, MMP-20, KLK-4, Enzymatic cleavage products, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Ameloblastin is a protein in biomineralization of tooth enamel. However recent results indicate that this is probably not its only role in an organism. Enamel matrix formation represents a complex process enabled via specific crosslinking of two proteins – the most abundant amelogenin and the ameloblastin (AMBN). The human AMBN (hAMBN) gene possesses 13 protein coding exons with alternatively spliced transcripts and the longest isoform about 447 amino acid residues. It has been described that AMBN molecules in vitro assemble into oligomers via a sequence encoded by exon 5. Enamel is formed by the processing of enamel proteins by two specific proteases - enamelysin (MMP-20) and kallikrein 4 (KLK-4). The scaffold made of AMEL and non-amelogenin proteins is cleaved and removed from the developed tooth enamel. The hAMBN is expressed in two isoforms (ISO I and II), which could lead to their different utilization determined by distinct proteolytic profiles. In this study, we compared proteolytic profiles of both isoforms of hAMBN expressed in E. coli after proteolysis by MMP-20, KLK-4, and their 1:2 mixture. Proteolysis products were analysed and cleavage sites were identified by mass spectrometry. The proteolytic profiles of two AMBN isoforms showed different results, although we have to determine that the analysed AMBN was not post-translationally modified as expressed in prokaryotic cells. These results may lead to the suggestion of potentially divergent roles of AMBN isoforms cleavage products in various cell signalling pathways such as calcium buffering or signalling cascades.

Published
2024
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4. Tularemia induces different biochemical responses in BALB/c mice and common voles

Author

Vitula Frantisek, Treml Frantisek, Hubalek Martin, Novotny Ladislav, Pohanka Miroslav, Sedlackova Jana, Bandouchova Hana, and Pikula Jiri

Subjects
Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Both BALB/c mice and common voles (Microtus arvalis) are considered highly susceptible to tularemia. However, the common vole is reported to harbour Francisella tularensis in European habitats as well as to survive longer with chronic shedding of the bacterium. The purpose of the present study was to compare the response of these two rodents to a wild Francisella tularensis subsp. holarctica strain infection. Methods Rodents were evaluated for differences in the total antioxidant capacity derived from low-molecular-weight antioxidants, biochemistry including lipid metabolism, tissue bacterial burdens and histopathology following experimental intraperitoneal infection with 160 colony forming units (CFU) pro toto. Results Bacterial burdens in common voles started to develop later post-exposure and amounted to lower levels than in BALB/c mice. Elevation of liver function enzymes was more pronounced in mice than common voles and there were marked differences in lipid metabolism in the course of tularemia in these two species. Hypertriglyceridemia and hypercholesterolemia developed in mice, while physiologically higher levels of triglycerides and cholesterol showed a decreasing tendency in common voles. On the other hand, the total plasma antioxidant capacity gradually dropped to 81.5% in mice on day 5 post-infection, while it increased to 130% on day 6 post-infection in common voles. Significant correlations between tissue bacterial burdens and several biochemical parameters were found. Conclusion As differences in lipid metabolism and the total antioxidant capacity of highly susceptible rodent species were demonstrated, the role of triglycerides, cholesterol and antioxidants in tularemic sepsis should be further investigated.

Published
2009
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6. Mapping of MeLiM melanoma combining ICP-MS and MALDI-MSI methods

Author

Vaníčková, Lucie, Do, Tomáš, Vejvodová, Markéta, Horák, Vratislav, Hubálek, Martin, Emri, Gabriella, Zemánková, Kristýna, Pavelicová, Kristýna, Křížková, Soňa, Faltusová, Veronika, Pompeiano, Antonio, Vaculovičová, Markéta, Zítka, Ondřej, Vaculovič, Tomáš, and Adam, Vojtěch

Published
2022
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12. Proteolytic profiles of two isoforms of human AMBN by MMP-20 and KLK-4 proteases

Author

Vetyskova Veronika, Hubalek Martin, Sulc Josef, Postulkova Klara, Jiraskova Katerina, Prochazka Jan, Bousova Kristyna, and Vondrasek Jiri

Subjects
human ameloblastin, proteolytic profile, KLK-4, MMP-20
Abstract

Ameloblastin is a protein in biomineralization of tooth enamel, however recent results indicate that this is probably not its only role in an organism. Enamel matrix formation represents a complex process enabled via specific crosslinking of two proteins – the most abundant amelogenin and the ameloblastin (AMBN). It has been described that AMBN moleculesin vitroassemble into oligomers via a sequence encoded by exon 5. Enamel is formed by the processing of enamel proteins by two specific proteases - enamelysin (MMP-20) and kallikrein 4 (KLK-4). The scaffold made of AMEL and non-amelogenin proteins is cleaved and removed from the developed tooth enamel. The human AMBN is expressed in two isoforms (ISO I and II), which probably determine different utilization dictated by their different proteolytic profiles. In this study, we compared proteolytic profiles of both isoforms of human AMBN after proteolysis by MMP-20, KLK-4, and their 1:2 mixture. Proteolysis products were analysed and cleavage sites were identified by mass spectrometry. The proteolytic profiles of two AMBN isoforms show notable differences resulting presumably in different functions of the products. Our results may help to understand the distinct role of AMBN isoforms in the human signalling pathways and utilization of the cleavage products.&nbsp

Published
2023
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16. Detection and identification of Coxiella burnetii based on the mass spectrometric analyses of the extracted proteins

Author

Hernychova, Lenka, Toman, Rudolf, Ciampor, Fedor, Hubalek, Martin, Vackova, Jana, Macela, Ales, and Skultety, Ludovit

Subjects
Mass spectrometry -- Methods, Proteins -- Properties, Rickettsia -- Research, Proteomics -- Research, Rickettsial diseases -- Diagnosis, Chemistry
Abstract

Rapid and reliable detection, identification, and typing of bacterial species are necessary in response to natural or terrorist-caused outbreaks of infectious diseases and play crucial roles in diagnosis and efficient treatment. We report here two proteomic approaches with a high potential in the detection and identification of Coxiella burnetii, the causative agent of Q fever. The first of them starts with the acetonitrile (ACN) and trichloroacetic acid extractions of inactivated C. burnetii cells followed by the detection of extracted molecules and ions derived from the inactivated cells by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. In the second approach, identification of the proteins extracted by ACN is accomplished after enzymatic digestion by electrospray tandem mass spectrometry coupled to a nanoscale ultra-performance liquid chromatography (LC--MS/MS). In order to observe morphological differences on the surface structures upon extraction, the inactivated and treated cells of the bacterium were examined by electron microscopy. The LC--MS/MS approach has allowed identification of 20 proteins in the ACN extracts of C. burnetii strain RSA 493 that were observed in more than 3 out of 10 experiments.

Published
2008

17. Analysis of proteomes released from in vitro cultured eight Clostridium difficile PCR ribotypes revealed specific expression in PCR ribotypes 027 and 176 confirming their genetic relatedness and clinical importance at the proteomic level

Author

Dresler, Jiri, Krutova, Marcela, Fucikova, Alena, Klimentova, Jana, Hruzova, Veronika, Duracova, Miloslava, Houdkova, Katerina, Salovska, Barbora, Matejkova, Jana, Hubalek, Martin, Pajer, Petr, Pisa, Libor, and Nyc, Otakar

Subjects
Gene expression -- Health aspects, Clostridium infections -- Genetic aspects -- Development and progression -- Care and treatment, Cellular proteins -- Health aspects, Health
Abstract

Author(s): Jiri Dresler[sup.1] , Marcela Krutova[sup.2] , Alena Fucikova[sup.3] , Jana Klimentova[sup.3] , Veronika Hruzova[sup.1] , Miloslava Duracova[sup.3] , Katerina Houdkova[sup.1] , Barbora Salovska[sup.1] , Jana Matejkova[sup.2] , Martin Hubalek[sup.4] [...]

Published
2017
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26. A community proposal to integrate proteomics activities in ELIXIR [version 1; referees: 2 approved]

Author

Vizcaíno, Juan Antonio, Walzer, Mathias, Jiménez, Rafael C., Bittremieux, Wout, Bouyssié, David, Carapito, Christine, Corrales, Fernando, Ferro, Myriam, Heck, Albert J.R., Horvatovich, Peter, Hubalek, Martin, Lane, Lydie, Laukens, Kris, Levander, Fredrik, Lisacek, Frederique, Novak, Petr, Palmblad, Magnus, Piovesan, Damiano, Pühler, Alfred, Schwämmle, Veit, Valkenborg, Dirk, van Rijswijk, Merlijn, Vondrasek, Jiri, Eisenacher, Martin, Martens, Lennart, and Kohlbacher, Oliver

Subjects
Science & Medical Policies, lcsh:R, lcsh:Medicine, lcsh:Q, Protein Chemistry & Proteomics, lcsh:Science
Abstract

Computational approaches have been major drivers behind the progress of proteomics in recent years. The aim of this white paper is to provide a framework for integrating computational proteomics into ELIXIR in the near future, and thus to broaden the portfolio of omics technologies supported by this European distributed infrastructure. This white paper is the direct result of a strategy meeting on ‘The Future of Proteomics in ELIXIR’ that took place in March 2017 in Tübingen (Germany), and involved representatives of eleven ELIXIR nodes. These discussions led to a list of priority areas in computational proteomics that would complement existing activities and close gaps in the portfolio of tools and services offered by ELIXIR so far. We provide some suggestions on how these activities could be integrated into ELIXIR’s existing platforms, and how it could lead to a new ELIXIR use case in proteomics. We also highlight connections to the related field of metabolomics, where similar activities are ongoing. This white paper could thus serve as a starting point for the integration of computational proteomics into ELIXIR. Over the next few months we will be working closely with all stakeholders involved, and in particular with other representatives of the proteomics community, to further refine this paper.

Published
2017

27. MOESM1 of Analysis of proteomes released from in vitro cultured eight Clostridium difficile PCR ribotypes revealed specific expression in PCR ribotypes 027 and 176 confirming their genetic relatedness and clinical importance at the proteomic level

Author

Jiri Dresler, Krutova, Marcela, Fucikova, Alena, Klimentova, Jana, Hruzova, Veronika, Duracova, Miloslava, Houdkova, Katerina, Salovska, Barbora, Matejkova, Jana, Hubalek, Martin, Pajer, Petr, Pisa, Libor, and Nyc, Otakar

Abstract

Additional file 1: Detailed description of mass spectrometry procedures and proteomic results.

Published
2017
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28. A community proposal to integrate proteomics activities in ELIXIR

Author

Vizcaíno, Juan Antonio, Walzer, Mathias, Jiménez, Rafael C, Bittremieux, Wout, Bouyssié, David, Carapito, Christine, Corrales, Fernando, Ferro, Myriam, Heck, Albert J R, Horvatovich, Peter, Hubalek, Martin, Lane, Lydie, Laukens, Kris, Levander, Fredrik, Lisacek, Frederique, Novak, Petr, Palmblad, Magnus, Piovesan, Damiano, Pühler, Alfred, Schwämmle, Veit, Valkenborg, Dirk, van Rijswijk, Merlijn, Vondrasek, Jiri, Eisenacher, Martin, Martens, Lennart, Kohlbacher, Oliver, Vizcaíno, Juan Antonio, Walzer, Mathias, Jiménez, Rafael C, Bittremieux, Wout, Bouyssié, David, Carapito, Christine, Corrales, Fernando, Ferro, Myriam, Heck, Albert J R, Horvatovich, Peter, Hubalek, Martin, Lane, Lydie, Laukens, Kris, Levander, Fredrik, Lisacek, Frederique, Novak, Petr, Palmblad, Magnus, Piovesan, Damiano, Pühler, Alfred, Schwämmle, Veit, Valkenborg, Dirk, van Rijswijk, Merlijn, Vondrasek, Jiri, Eisenacher, Martin, Martens, Lennart, and Kohlbacher, Oliver

Abstract

Computational approaches have been major drivers behind the progress of proteomics in recent years. The aim of this white paper is to provide a framework for integrating computational proteomics into ELIXIR in the near future, and thus to broaden the portfolio of omics technologies supported by this European distributed infrastructure. This white paper is the direct result of a strategy meeting on 'The Future of Proteomics in ELIXIR' that took place in March 2017 in Tübingen (Germany), and involved representatives of eleven ELIXIR nodes. These discussions led to a list of priority areas in computational proteomics that would complement existing activities and close gaps in the portfolio of tools and services offered by ELIXIR so far. We provide some suggestions on how these activities could be integrated into ELIXIR's existing platforms, and how it could lead to a new ELIXIR use case in proteomics. We also highlight connections to the related field of metabolomics, where similar activities are ongoing. This white paper could thus serve as a starting point for the integration of computational proteomics into ELIXIR. Over the next few months we will be working closely with all stakeholders involved, and in particular with other representatives of the proteomics community, to further refine this paper.

Published
2017

29. A community proposal to integrate proteomics activities in ELIXIR

Author

Afd Biomol.Mass Spect. and Proteomics, Biomolecular Mass Spectrometry and Proteomics, Vizcaíno, Juan Antonio, Walzer, Mathias, Jiménez, Rafael C, Bittremieux, Wout, Bouyssié, David, Carapito, Christine, Corrales, Fernando, Ferro, Myriam, Heck, Albert J R, Horvatovich, Peter, Hubalek, Martin, Lane, Lydie, Laukens, Kris, Levander, Fredrik, Lisacek, Frederique, Novak, Petr, Palmblad, Magnus, Piovesan, Damiano, Pühler, Alfred, Schwämmle, Veit, Valkenborg, Dirk, van Rijswijk, Merlijn, Vondrasek, Jiri, Eisenacher, Martin, Martens, Lennart, Kohlbacher, Oliver, Afd Biomol.Mass Spect. and Proteomics, Biomolecular Mass Spectrometry and Proteomics, Vizcaíno, Juan Antonio, Walzer, Mathias, Jiménez, Rafael C, Bittremieux, Wout, Bouyssié, David, Carapito, Christine, Corrales, Fernando, Ferro, Myriam, Heck, Albert J R, Horvatovich, Peter, Hubalek, Martin, Lane, Lydie, Laukens, Kris, Levander, Fredrik, Lisacek, Frederique, Novak, Petr, Palmblad, Magnus, Piovesan, Damiano, Pühler, Alfred, Schwämmle, Veit, Valkenborg, Dirk, van Rijswijk, Merlijn, Vondrasek, Jiri, Eisenacher, Martin, Martens, Lennart, and Kohlbacher, Oliver

Published
2017

30. Discovery and Biological Evaluation of Potent and Selective N-Methylene Saccharin-Derived Inhibitors for Rhomboid Intramembrane Proteases

Author

Goel, Parul, primary, Jumpertz, Thorsten, additional, Mikles, David C., additional, Tichá, Anežka, additional, Nguyen, Minh T. N., additional, Verhelst, Steven, additional, Hubalek, Martin, additional, Johnson, Darren C., additional, Bachovchin, Daniel A., additional, Ogorek, Isabella, additional, Pietrzik, Claus U., additional, Strisovsky, Kvido, additional, Schmidt, Boris, additional, and Weggen, Sascha, additional

Published
2017
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32. Human histone deacetylase 6 shows strong preference for tubulin dimers over assembled microtubules

Author

Skultetyova, Lubica, primary, Ustinova, Kseniya, additional, Kutil, Zsofia, additional, Novakova, Zora, additional, Pavlicek, Jiri, additional, Mikesova, Jana, additional, Trapl, Dalibor, additional, Baranova, Petra, additional, Havlinova, Barbora, additional, Hubalek, Martin, additional, Lansky, Zdenek, additional, and Barinka, Cyril, additional

Published
2017
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33. Characterization of Two Historic Smallpox Specimens from a Czech Museum

Author

Pajer, Petr, primary, Dresler, Jiri, additional, Kabíckova, Hana, additional, Písa, Libor, additional, Aganov, Pavel, additional, Fucik, Karel, additional, Elleder, Daniel, additional, Hron, Tomas, additional, Kuzelka, Vitezslav, additional, Velemínsky, Petr, additional, Klimentova, Jana, additional, Fucikova, Alena, additional, Pejchal, Jaroslav, additional, Hrabakova, Rita, additional, Benes, Vladimir, additional, Rausch, Tobias, additional, Dundr, Pavel, additional, Pilin, Alexander, additional, Cabala, Radomir, additional, Hubalek, Martin, additional, Stríbrny, Jan, additional, Antwerpen, Markus, additional, and Meyer, Hermann, additional

Published
2017
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34. Discovery and Biological Evaluation of Potent and Selective N-Methylene Saccharin-Derived Inhibitors for Rhomboid Intramembrane Proteases

Author

Goel, Parul, Jumpertz, Thorsten, Mikles, David C., Tichá, Anežka, Nguyen, Minh T. N., Verhelst, Steven, Hubalek, Martin, Johnson, Darren C., Bachovchin, Daniel A., Ogorek, Isabella, Pietrzik, Claus U., Strisovsky, Kvido, Schmidt, Boris, and Weggen, Sascha

Abstract

Rhomboids are intramembrane serine proteases and belong to the group of structurally and biochemically most comprehensively characterized membrane proteins. They are highly conserved and ubiquitously distributed in all kingdoms of life and function in a wide range of biological processes, including epidermal growth factor signaling, mitochondrial dynamics, and apoptosis. Importantly, rhomboids have been associated with multiple diseases, including Parkinson’s disease, type 2 diabetes, and malaria. However, despite a thorough understanding of many structural and functional aspects of rhomboids, potent and selective inhibitors of these intramembrane proteases are still not available. In this study, we describe the computer-based rational design, chemical synthesis, and biological evaluation of novel N-methylene saccharin-based rhomboid protease inhibitors. Saccharin inhibitors displayed inhibitory potency in the submicromolar range, effectiveness against rhomboids both in vitroand in live Escherichia colicells, and substantially improved selectivity against human serine hydrolases compared to those of previously known rhomboid inhibitors. Consequently, N-methylene saccharins are promising new templates for the development of rhomboid inhibitors, providing novel tools for probing rhomboid functions in physiology and disease.

Published
2024
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35. Human DNA-Damage-Inducible 2 Protein Is Structurally and Functionally Distinct from Its Yeast Ortholog

Author

Siva, Monika, Svoboda, Michal, Veverka, Vaclav, Trempe, Jean-Francois, Hofmann, Kay, Kozisek, Milan, Hexnerova, Rozalie, Sedlak, Frantisek, Belza, Jan, Brynda, Jiri, Sacha, Pavel, Hubalek, Martin, Starkova, Jana, Flaisigova, Iva, Konvalinka, Jan, Saskova, Klara Grantz, Siva, Monika, Svoboda, Michal, Veverka, Vaclav, Trempe, Jean-Francois, Hofmann, Kay, Kozisek, Milan, Hexnerova, Rozalie, Sedlak, Frantisek, Belza, Jan, Brynda, Jiri, Sacha, Pavel, Hubalek, Martin, Starkova, Jana, Flaisigova, Iva, Konvalinka, Jan, and Saskova, Klara Grantz

Abstract

Although Ddi1-like proteins are conserved among eukaryotes, their biological functions remain poorly characterized. Yeast Ddi1 has been implicated in cell cycle regulation, DNA-damage response, and exocytosis. By virtue of its ubiquitin-like (UBL) and ubiquitin-associated (UBA) domains, it has been proposed to serve as a proteasomal shuttle factor. All Ddi1-like family members also contain a highly conserved retroviral protease-like (RVP) domain with unknown substrate specificity. While the structure and biological function of yeast Ddi1 have been investigated, no such analysis is available for the human homologs. To address this, we solved the 3D structures of the human Ddi2 UBL and RVP domains and identified a new helical domain that extends on either side of the RVP dimer. While Ddi1-like proteins from all vertebrates lack a UBA domain, we identify a novel ubiquitin-interacting motif (UIM) located at the C-terminus of the protein. The UIM showed a weak yet specific affinity towards ubiquitin, as did the Ddi2 UBL domain. However, the full-length Ddi2 protein is unable to bind to di-ubiquitin chains. While proteomic analysis revealed no activity, implying that the protease requires other factors for activation, our structural characterization of all domains of human Ddi2 sets the stage for further characterization.

Published
2016

44. Power Function for Tests of Null Hypotheses on Mutual Linear Regression Functions' Relations.

Author

Knizek, Jiri, Sindelar, Jan, Beranek, Ladislav, Vojtesek, Borivoj, Nenutil, Rudolf, Brozkova, Kristyna, Drazan, Viktor, Hubalek, Martin, and Kubacek, Lubomir

Subjects
MATHEMATICAL functions, HYPOTHESIS, REGRESSION analysis, GENOMICS, PROTEOMICS, BIOMETRY
Abstract

The main purpose of this work is the derivation of relations for calculation of „power function for tests of null hypotheses on mutual relation of linear regression functions”. The normality of error disturbances of processed data is the condition for power function validity. Presented regression model can be widely applied for sophisticated data processing, e.g. in genomics and proteomics. [ABSTRACT FROM AUTHOR]

Published
2008

45. Insights into the oxidative stress response in Francisella tularensis LVS and its mutant iglC1+2 by proteomics analysis.

Author

Lenco, Juraj, Pavkova, Ivona, Hubalek, Martin, and Stulik, Jiri

Subjects
CELLULAR control mechanisms, ELECTROPHORESIS, BLOOD protein electrophoresis, DIELECTROPHORESIS
Abstract

Abstract: Francisella tularensis is a facultative intracellular pathogen. Its capacity to induce disease depends on the ability to invade and multiply within a wide range of eukaryotic cells, such as professional phagocytes. The comparative disinterest in tularemia in the past relative to other human bacterial pathogens is reflected in the paucity of information concerning the mechanisms of pathogenesis. Only a few genes and gene products associated with Francisella virulence are known to date. The aim of this study was to find and identify proteins of F. tularensis live vaccine strain induced in the presence of hydrogen peroxide, and to investigate the role of the IglC protein in the regulation of genes expressed upon peroxide stress. The [35S]-radiolabelled protein patterns were examined for both the wild live vaccine strain and its ¿iglC1+2 mutant defective in synthesis of the IglC protein that was found to be strongly up-regulated during intracellular growth in murine macrophages in vitro and upon exposure to hydrogen peroxide. Globally, we found 21 protein spots whose levels were significantly altered in the presence of hydrogen peroxide in both the wild-type and mutant strains. [Copyright &y& Elsevier]

Published
2005
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46. Comparative Proteome Analysis of Fractions Enriched for Membrane-Associated Proteins from Francisella tularensisSubsp. tularensisand F. tularensisSubsp. holarcticaStrains

Author

Pavkova, Ivona, Reichelova, Marketa, Larsson, Pär, Hubalek, Martin, Vackova, Jana, Forsberg, Ake, and Stulik, Jiri

Abstract

The facultative intracellular pathogen Francisella tularensisis the causative agent of the serious infectious disease tularemia. Despite intensive research, the virulence factors and pathogenetic mechanisms remain largely unknown. To identify novel putative virulence factors, we carried out a comparative proteome analysis of fractions enriched for membrane-associated proteins isolated from the highly virulent subspecies tularensisstrain SCHU S4 and three representatives of subspecies holarcticaof different virulence including the live vaccine strain. We identified six proteins uniquely expressed and four proteins expressed at significantly higher levels by SCHU S4 compared to the ssp. holarcticastrains. Four other protein spots represented mass and charge variants and seven spots were charge variants of proteins occurring in the ssp. holarcticastrains. The genes encoding proteins of particular interest were examined by sequencing in order to confirm and explain the findings of the proteome analysis. Our studies suggest that the subspecies tularensis-specific proteins represent novel potential virulence factors.

Published
2006
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47. Insights into the oxidative stress response in Francisella tularensis LVS and its mutant DeltaiglC1+2 by proteomics analysis.

Author

Lenco J, Pavkova I, Hubalek M, and Stulik J

Subjects
Adaptation, Physiological, Anti-Bacterial Agents pharmacology, Bacterial Proteins isolation & purification, Electrophoresis, Gel, Two-Dimensional, Francisella tularensis genetics, Francisella tularensis metabolism, Gene Expression Regulation, Bacterial, Hydrogen Peroxide pharmacology, Proteome, Bacterial Proteins analysis, Francisella tularensis physiology, Gene Deletion, Genes, Bacterial, Oxidative Stress, Proteomics
Abstract

Francisella tularensis is a facultative intracellular pathogen. Its capacity to induce disease depends on the ability to invade and multiply within a wide range of eukaryotic cells, such as professional phagocytes. The comparative disinterest in tularemia in the past relative to other human bacterial pathogens is reflected in the paucity of information concerning the mechanisms of pathogenesis. Only a few genes and gene products associated with Francisella virulence are known to date. The aim of this study was to find and identify proteins of F. tularensis live vaccine strain induced in the presence of hydrogen peroxide, and to investigate the role of the IglC protein in the regulation of genes expressed upon peroxide stress. The [(35)S]-radiolabelled protein patterns were examined for both the wild live vaccine strain and its DeltaiglC1+2 mutant defective in synthesis of the IglC protein that was found to be strongly up-regulated during intracellular growth in murine macrophages in vitro and upon exposure to hydrogen peroxide. Globally, we found 21 protein spots whose levels were significantly altered in the presence of hydrogen peroxide in both the wild-type and mutant strains.

Published
2005
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