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The role of protein phosphorylation during progamic phase of tobacco male gametophyte development
Fíla, Jan ; Honys, David (advisor) ; Paleček, Jan (referee) ; Smýkal, Petr (referee)
v angličtině (English abstract) Tobacco male gametophyte has a strongly dehydrated cytoplasm and represents a metabolically inactive stage. Upon cytoplasm rehydration, pollen grain becomes metabolically active and after the activation is finished, the pollen tube growth through a selected pollen aperture starts. The rehydration together with metabolic activation are accompanied by the regulation of translation and post-translational modifications (mainly phosphorylation) of the existing proteins. In this Ph.D. thesis, there were identified phosphopeptides from tobacco (Nicotiana tabacum) mature pollen, pollen activated in vitro 5 min and pollen activated in vitro 30 min. The total proteins from the above male gametophyte stages were extracted. The protein extract was trypsinized and the acquired peptide mixture was enriched by MOAC (metal oxide/hydroxide affinity chromatography) with titanium dioxide matrix. The enriched fraction was subjected to liquid chromatography coupled with tandem mass spectrometry (LC- MS/MS). Totally, there were identified 471 phosphopeptides, carrying 432 exactly localized phosphorylation sites. The acquired peptide identifications were mapped to 301 phosphoproteins that were placed into 13 functional categories, dominant of which were transcription, protein synthesis,...
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In search of DUSP specificity
Sladeček, Stanislava ; Novotný, Marian (advisor) ; Martínková, Natália (referee)
Dual specificity phosphatases (DUSP) are enzymes that dephosphorylate both phosphoserine/threonine and phosphotyrosine residues on one substrate. Most of them specifically dephosphorylate family mitogen-activated protein kinases (MAPK). Number of DUSPs increases with complexity of organisms and in human genome there are 25 DUSPs described. Some DUSPs can dephosphorylate only one protein while other interact with wider spectrum of substrates. Except for substrate specificity DUSPs differ in expression, subcellular localization etc. Although first DUSPs were described about 20 years ago, a clear factor responsible for their substrate specificity is not known. This works uses in silico methods to discover and describe similarities and differences between DUSPs which may be important in determining DUSP specificity. Key words: phosphatase, kinase, DUSP, MAPK, substrate specificity, conservation of residues, phylogenetic tree, in silico methods
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The role of protein phosphorylation during progamic phase of tobacco male gametophyte development
Fíla, Jan
v angličtině (English abstract) Tobacco male gametophyte has a strongly dehydrated cytoplasm and represents a metabolically inactive stage. Upon cytoplasm rehydration, pollen grain becomes metabolically active and after the activation is finished, the pollen tube growth through a selected pollen aperture starts. The rehydration together with metabolic activation are accompanied by the regulation of translation and post-translational modifications (mainly phosphorylation) of the existing proteins. In this Ph.D. thesis, there were identified phosphopeptides from tobacco (Nicotiana tabacum) mature pollen, pollen activated in vitro 5 min and pollen activated in vitro 30 min. The total proteins from the above male gametophyte stages were extracted. The protein extract was trypsinized and the acquired peptide mixture was enriched by MOAC (metal oxide/hydroxide affinity chromatography) with titanium dioxide matrix. The enriched fraction was subjected to liquid chromatography coupled with tandem mass spectrometry (LC- MS/MS). Totally, there were identified 471 phosphopeptides, carrying 432 exactly localized phosphorylation sites. The acquired peptide identifications were mapped to 301 phosphoproteins that were placed into 13 functional categories, dominant of which were transcription, protein synthesis,...
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The Role of Lck Kinase in T-cell Antigen Receptor Signaling
Němec, Dušan ; Štěpánek, Ondřej (advisor) ; Rösel, Daniel (referee)
LCK activity is crucial for the triggering of the entire T cell activation process. The primary function of LCK is to convert the signal of TCR:pMHC ligation into the intracellular environment. The outcome of the LCK-triggered pathway is T cell activation, cytokine production, differentiation, and clonal expansion. This thesis provides a summary of recent knowledge about the unique position of LCK in the T cell signaling machinery as well as an overview of molecules and interacting partners that regulate LCK activity. It describes the importance of the LCK-coreceptor association for optimal TCR signaling and physiological thymocyte development and mentions discussed adaptor role of LCK in the T cells. Keywords: LCK, T-cell, antigen, kinase, enzyme
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Counterbalances: antagonistic regulation of fission yeast growth and proliferation under favourable conditions and stress
Hohoš, Patrik ; Převorovský, Martin (advisor) ; Groušl, Tomáš (referee)
Microorganisms come across dramatically changing conditions in the environment. It is important for them to be agile for a quick and effective response. Signal transduction pathways are essential for this ability. They can sense a broad spectrum of extracellular and intracellular stimuli and regulate a great number of processes in the cell. For unicellular microorganisms, the most essential ability is to sense environmental conditions for proliferation or abnormal stress conditions. One of the most popular model microorganisms, the fission yeast Schizosaccharomyces pombe, is used for the signal transduction pathways research. Findings obtained by research on the fission yeast are applicable to other eukaryotic organisms, thanks to the high conservation of the signal transduction pathways between the fission yeast and other eukaryotic organisms. Proliferation-promoting signal transduction pathways promote cell proliferation, growth and mitotic cell cycle in fission yeast. The stress-response signal transduction pathways play an opposite role. They promote cellular defence against stress stimuli and promote the sexual differentiation process alongside meiotic cell cycle. At first sight, the whole machinery may look like a switch mechanism. There is, however, a more complex crosstalk mechanism...
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In search of DUSP specificity
Sladeček, Stanislava ; Novotný, Marian (advisor) ; Martínková, Natália (referee)
Dual specificity phosphatases (DUSP) are enzymes that dephosphorylate both phosphoserine/threonine and phosphotyrosine residues on one substrate. Most of them specifically dephosphorylate family mitogen-activated protein kinases (MAPK). Number of DUSPs increases with complexity of organisms and in human genome there are 25 DUSPs described. Some DUSPs can dephosphorylate only one protein while other interact with wider spectrum of substrates. Except for substrate specificity DUSPs differ in expression, subcellular localization etc. Although first DUSPs were described about 20 years ago, a clear factor responsible for their substrate specificity is not known. This works uses in silico methods to discover and describe similarities and differences between DUSPs which may be important in determining DUSP specificity. Key words: phosphatase, kinase, DUSP, MAPK, substrate specificity, conservation of residues, phylogenetic tree, in silico methods
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The role of protein phosphorylation during progamic phase of tobacco male gametophyte development
Fíla, Jan
v angličtině (English abstract) Tobacco male gametophyte has a strongly dehydrated cytoplasm and represents a metabolically inactive stage. Upon cytoplasm rehydration, pollen grain becomes metabolically active and after the activation is finished, the pollen tube growth through a selected pollen aperture starts. The rehydration together with metabolic activation are accompanied by the regulation of translation and post-translational modifications (mainly phosphorylation) of the existing proteins. In this Ph.D. thesis, there were identified phosphopeptides from tobacco (Nicotiana tabacum) mature pollen, pollen activated in vitro 5 min and pollen activated in vitro 30 min. The total proteins from the above male gametophyte stages were extracted. The protein extract was trypsinized and the acquired peptide mixture was enriched by MOAC (metal oxide/hydroxide affinity chromatography) with titanium dioxide matrix. The enriched fraction was subjected to liquid chromatography coupled with tandem mass spectrometry (LC- MS/MS). Totally, there were identified 471 phosphopeptides, carrying 432 exactly localized phosphorylation sites. The acquired peptide identifications were mapped to 301 phosphoproteins that were placed into 13 functional categories, dominant of which were transcription, protein synthesis,...
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Elucidation of ERK1 and ERK2 protein kinases effect on cap-independent translation initiation
Přibyl, Miroslav ; Vopálenský, Václav (advisor) ; Vomastek, Tomáš (referee)
Protein kinases ERK1 and ERK2 are one of the most studied proteins in cell signalling. Both proteins are involved in a plethora of processes, such as phosphorylation and activation of kinases as part of signalling pathways. Enzymes ERK1 and ERK2 are part of MAPK/ERK signalling cascade, connected to many cellular including cell proliferation, cell growth or differentiation. The MAPK/ERK signalling cascade is often activated in different types of tumors, making it a candidate for developing new chemical inhibitors. One of the important questions in fundamental research of ERK1 and ERK2 protein kinases is the search for difference between these proteins. Current knowledge points to redundancy of both proteins, howver several examples suggest otherwise. Recently, the work presented in Casanova et al. 2012 indirectly suggests divergent effect of ERK1 and ERK2 on cap-independent translation initiation. In the Laboratory of RNA biochemistry we focus on HCV IRES (Hepatitis C Virus Internal Ribosome Entry Site) dependent translation initiation. This diploma thesis lead to establish RNA interference method in our laboratory and to establish reporter system to study ERK1 and ERK2 effect on HCV IRES dependent translation initiation. Based on our data acquired during our research, we present in this work...
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The role of protein phosphorylation during progamic phase of tobacco male gametophyte development
Fíla, Jan ; Honys, David (advisor) ; Paleček, Jan (referee) ; Smýkal, Petr (referee)
v angličtině (English abstract) Tobacco male gametophyte has a strongly dehydrated cytoplasm and represents a metabolically inactive stage. Upon cytoplasm rehydration, pollen grain becomes metabolically active and after the activation is finished, the pollen tube growth through a selected pollen aperture starts. The rehydration together with metabolic activation are accompanied by the regulation of translation and post-translational modifications (mainly phosphorylation) of the existing proteins. In this Ph.D. thesis, there were identified phosphopeptides from tobacco (Nicotiana tabacum) mature pollen, pollen activated in vitro 5 min and pollen activated in vitro 30 min. The total proteins from the above male gametophyte stages were extracted. The protein extract was trypsinized and the acquired peptide mixture was enriched by MOAC (metal oxide/hydroxide affinity chromatography) with titanium dioxide matrix. The enriched fraction was subjected to liquid chromatography coupled with tandem mass spectrometry (LC- MS/MS). Totally, there were identified 471 phosphopeptides, carrying 432 exactly localized phosphorylation sites. The acquired peptide identifications were mapped to 301 phosphoproteins that were placed into 13 functional categories, dominant of which were transcription, protein synthesis,...
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ERK1/2 MAP kinase - Structure and Interaction Partners
Přibyl, Miroslav ; Vopálenský, Václav (advisor) ; Žíla, Vojtěch (referee)
Extracellular signal molecules are recognized by membrane receptors on the surface of eukaryotic cells. Receptors transmit the signal into the intracellular space where activation of the concrete enzymes occurs. Activated enzymes may be protein kinases that phosphorylate the substrate proteins corresponding to the requirements for specific recognition by a protein kinase. Substrate proteins may be structural proteins and enzymes, which in turn transmit the signal or directly affect the physiological processes of the cell. The protein kinase family accounts for ERK1 and ERK2 (Extracellular signal-regulated kinase 1 and 2), enzymes which affect cell growth, cell cycle and numerous other physiological processes of the cell. Protein kinases are dynamic molecules, which undergo a series of conformational changes during their catalytic cycle and whose stability and function are affected by conformational changes. Conserved amino acid residues carry out the function of protein kinases. These factors are also involved in interactions with protein substrates and regulatory proteins, and are responsible for specific function of protein kinase.
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