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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Role of transcription factors in early male gametophyte development of Arabidopsis.

REŇÁK, David January 2011 (has links)
In the presented work the relationship between transcription factors and male gametophyte development was studied. The Ph.D. Thesis covers selection of candidate genes, wide-scale screening of T-DNA mutant lines and detailed analysis of a selected transcription factor on pollen development.
2

Funkční charakterizace proteinů rodiny Alba u huseníčku rolního / Functional characterization of Alba-family genes in Arabidopsis thaliana

Kočová, Helena January 2020 (has links)
(anglicky) Alba-family proteins were identified in Archaea and Eucarya and are classified among the oldest and the most conserved nucleic acid-binding proteins. The binding preferences and roles differ among certain evolution clades. In Crenarchaea they represent chromatin-binding proteins, while their role in RNA metabolism is suggested in Euryarchaea and Eukaryotes. ALBA proteins are well characterized in human, where they play a role in the RNAse P/MRP complex and in unicellular parasites, such as Plasmodium and Trypanosoma, where an involvement in the life cycle regulation is confirmed. In plants, their role is not yet well understood. The aim of this thesis is to increase a knowledge about the Alba-family proteins in the model plant Arabidopsis thaliana. Based on a minimal changes to development and reproduction in single mutants and high sequence similarity, a functional redundancy of the proteins was assumed. For better understanding of the ALBA proteins function, three smaller members of the family were edited by the same metod. The obtained triple mutant showed delay in flowering. ALBA dimer formation was confirmed in many organisms. BiFC method was used to determine Arabidopsis ALBA homodimerization. The data analysis showed potential homodimerization in most of them.
3

Úloha fosforylace proteinů v progamické fázi vývoje samčího gametofytu tabáku / The role of protein phosphorylation during progamic phase of tobacco male gametophyte development

Fíla, Jan January 2016 (has links)
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,...
4

Využití fluorescenční mikroskopie pro bližší popis dynamiky proteinů ALBA u Arabidopsis thaliana / Dynamics of ALBA proteins in Arabidopsis thaliana evaluated by fluorescence microscopy

Popelářová, Anna January 2021 (has links)
ALBA proteins were discovered in Archaea more than 30 years ago. They were gradually identified to be well conserved in Eucaryotes as well. A functional dimeric form of these proteins with DNA and RNA-binding capability was claimed in both mentioned domains of organisms. However, their roles diversified during evolution and vary in between organisms. In Archaea, ALBAs are involved in the genome organization and RNA-protein interactions. In Eukaryotes, there are presented two different subfamilies of ALBA proteins - Rpp20 and Rpp25 subfamily. A sole protein from each subfamily was identified in some organisms though they were multiplied in plants, respectively. These proteins can interact with each other and participate in ontogenetic development and stress responses. According to several studies, ALBA proteins were found to be involved in DNA stability maintenance or pre-rRNA splicing in the nucleus of Arabidopsis thaliana. However, they have been shown to play a role in the cellular metabolism and stress responses in cytoplasm. Six ALBA proteins were identified in the genome of A. thaliana, three from each subfamily. In this study, all heterodimeric protein- protein interactions were investigated by the bimolecular fluorescence complementation (BiFC) assay which revealed positive results in...
5

Expansion d'une nouvelle famille de protéines kinases (MAPKKKs) impliquée dans le développement reproductif chez les Solanacées

Daigle, Caroline 05 1900 (has links)
Les cascades de Mitogen-Activated Protein Kinases (MAPKs) sont présentes chez tous les eucaryotes et permettent la transduction des signaux de l’extérieur vers l’intérieur de la cellule. Chez les végétaux, elles sont très abondantes et actives dans une multitude de processus, autant lors de la réponse aux stress que lors du développement. Elles fonctionnent comme un système de phosphorelais, se transférant un groupement phosphate d’une protéine à l’autre, de la MAPKKK à la MAPKK (MKK), puis de la MKK à la MAPK (MPK) et finalement, de la MPK vers des facteurs de transcription ou toute autre protéine qui permettra un changement au niveau de la réponse cellulaire. Depuis quelques années, plusieurs membres de la grande famille des MAPKs ont été étudiés pour leur rôle dans la reproduction sexuée des végétaux. Des mutants ont été caractérisés, mais jusqu’à maintenant, peu de voies complètes ont été décelées. Des précédents travaux dans le laboratoire ont démontré que deux MAPKKKs, de la sous-famille des MEKKs, ScFRK1 et ScFRK2, sont importantes pour le développement normal de l’ovule et du pollen chez Solanum chacoense, une espèce de pomme de terre sauvage diploïde. Sachant que les mutants des gènes les plus orthologues chez Arabidopsis thaliana ne possèdent pas les mêmes phénotypes, nous avons émis l’hypothèse que les Solanacées, du moins S. chacoense, possèdent une famille de MAPKKKs différente, qui n’est pas présente chez A. thaliana. Nous avons donc analysé les génomes/transcriptomes/protéomes de 15 espèces issues de différents clades du règne végétal afin d’étudier les relations phylogénétiques à l’intérieur de la sous-famille des MEKKs. Cela nous a permis d’observer que ScFRK1 et ScFRK2 ne sont pas seuls, mais sont inclus dans un groupe monophylétique que nous avons nommé la classe des FRKs (FRK pour Fertilization-Related Kinase). De plus, nous avons observé une expansion considérable de cette classe chez les Solanacées, comparativement à d’autres dicotylédones comme le peuplier, la vigne ou le coton. La classe des FRKs est absente chez les monocotylédones étudiées (riz et maïs) et ne possède qu’un seul membre (une FRK primitive) chez l’angiosperme basal Amborella trichopoda. Cette analyse phylogénétique des MEKKs nous a poussés à nous poser des questions sur l’origine de la classe des FRKs ainsi que sur son rôle au sein des Solanacées. Dans un deuxième temps, nous avons fait la caractérisation fonctionnelle de ScFRK3, un troisième membre de la classe des FRKs chez S. chacoense, aussi impliqué dans le développement des gamétophytes mâle et femelle. Du patron d’expression jusqu’à l’établissement d’une voie de signalisation potentielle, en passant par la caractérisation phénotypique des mutants, plusieurs expériences ont été réalisées dans le but de comprendre le rôle de ScFRK3 au niveau de la reproduction chez S. chacoense. Dans un contexte plus global, il est important de se questionner sur les rôles semblables, mais forcément différents, des trois membres de la famille FRKs qui ont été caractérisés jusqu’à présent. / Mitogen-Activated Protein Kinases (MAPKs) signaling cascades are found in all Eucaryotes and allow signal transduction from the outside of the cell to the inside. In plants, they are particularly numerous and play roles in several signaling processes, including stress responses and response to developmental cues. Their system involves a phosphorelay: they interact with each other to transfer a phosphate group. It starts with an activated MAPKKK, which transfers the phosphate group to a MAPKK (MKK), then this MKK transfers the signal to a MAPK (MPK), which ends this relay by phosphorylating transcription factors or any other proteins that will, in a way or an other, change the cell response according to the signal. During the last few years, many MAPKs members have been studied for their role in plants sexual reproduction. Some mutants were characterized, but until now, our knowledge of complete signaling cascades is very limited. Previous studies in our lab have shown that two MAPKKKs from the MEKK subfamily, ScFRK1 and ScFRK2, are important for male and female gametophytes development in Solanum chacoense, a wild diploid potato species. Genes that are the most orthologous to ScFRK1 and ScFRK2 in Arabidopsis thaliana, AtMAPKKK19, 20 and 21, do not seem to play the same roles in reproduction, which led us to make the hypothesis that in solanaceous species, at least in S. chacoense, there is one MAPKKK family that is different and not present in A. thaliana. At first, we did analyze the genomes/transcriptomes/proteomes of 15 species from different clads of the plant kingdom to find all the members of the MEKK subfamily of MAPKKKs in order to study their phylogenetic relationship. We then observed that ScFRK1 and ScFRK2 are included in a large monophyletic group which was called the FRK class (Fertilization Related Kinase). Moreover, we also observed that this class has considerably expanded within the solanaceous species, compared to other species like A. thaliana, poplar, cotton or grape vine. The FRK class is totally absent in the monocot species studied (rice and maize) and only one member is found in the basal angiosperm Amborella trichopoda. This phylogenetic analysis led us to ask questions about the origins of the FRK class and its role inside the Solanaceae family. Secondly, we characterized ScFRK3, a third member of the FRK class in S. chacoense, which is also involved, as its two FRK sisters, in male and female gametophytes development. From its expression pattern to the establishment of a potential signaling cascade, analysis and phenotyping of ScFRK3 mutant lines, many experiments were realized in order to understand the role of ScFRK3 in S. chacoense sexual reproduction. Overall, the appearance of this new and expanded class of MEKKs questions its specific role in comparison to other species that have much lesser members, mainly when compared to the model plant A. thaliana, which harbor only a fifth of the FRKs found in solanaceous species.
6

Studie tvorby dimerů komplexu asociovaného s nascentním polypeptidem a jeho efektorů v huseníčku rolním / Studying dimer formation and effectors of Arabidopsis thaliana nascent polypeptide-associated complex

Klodová, Božena January 2019 (has links)
The development of plant flowers represents a complex process controlled by numerous mechanisms. The creation of double homozygous mutant of both β subunits (sometimes also referred to as basic transcription factor 3) of nascent polypeptide associated complex in Arabidopsis thaliana (further referred to as nacβ1 nacβ2) caused quite a strong defective phenotype including abnormal number of flower organs, shorter siliques with a reduced seed set, and inferior pollen germination rate together with a lower ovule targeting efficiency. Previously, NAC complex was described to be formed as a heterodimer composed of an α- and β-subunit, which binds ribosome and acts as a chaperone in Saccharomyces cerevisiae. In plants, NACβ is connected to stress tolerance and to plant development as a transcription regulator. However, little is known of NAC heterodimer function in plants. In this thesis, yeast two hybrid system (Y2H) and bimolecular fluorescence complementation (BiFC) assays were used to verify the NAC heterodimer formation in A. thaliana and to establish any potential interaction preferences between both NACβ paralogues and five NACα paralogues. To deepen the understanding about molecular mechanisms behind the nacβ1 nacβ2 phenotype, flower bud transcriptome of the nacβ1 nacβ2 double homozygous mutants...
7

Production and Characterization of Higher-Order Genetic Mutants for the Hydroxyproline-Galactosyltransferase Genes Encoding the Enzymes for O-Galactosylation of Cell Wall Arabinogalactan-Proteins in Arabidopsis

Kaur, Dasmeet 16 September 2022 (has links)
No description available.
8

Hledání fosfoproteinů účastnících se aktivace pylu tabáku in vitro / Revealing phosphoproteins playing role in tobacco pollen activated in vitro

Fíla, Jan January 2012 (has links)
5 Abstract Tobacco mature pollen rehydrates in vivo on a stigma tissue, and develops into the rapidly-growing pollen tube. This rehydration process is accompanied by the de-repression of stored mRNA transcripts, resulting in the synthesis of novel proteins. Furthermore, such metabolic switch is also likely to be regulated on the level of post-translational modifications of the already-present proteins, namely via phosphorylation, since it was shown to play a significant regulatory role in numerous cellular processes. Since only a minor part of proteins is phosphorylated in a cell at a time, the employment of various enrichment techniques is usually of key importance. In this diploma project, metal oxide/hydroxide affinity chromatography (MOAC) with aluminium hydroxide matrix was applied in order to enrich phosphoproteins from the mature pollen and the 30-minute in vitro activated pollen crude protein extracts. The enriched fraction was separated by both 2D-GE and gel-free liquid chromatography (LC) approaches with subsequent mass spectrometric analyses. Collectively, 139 phosphoprotein candidates were identified. Additionally, to broaden the number of phosphorylation sites identified, titanium dioxide phosphopeptide enrichment of trypsin-digested mature pollen crude extract was performed. Thanks to the...
9

Charakterizace podjednotek eukaryotického translačního iniciačního faktoru 3 (eIF3) u samčího gametofytu A. thaliana / Characterization of eukaryotic translation initiation factor 3 subunits (eIF3) in A. thaliana male gametophyte

Linhart, Filip January 2017 (has links)
From RNA-to-protein, translation initiation and protein synthesis is mediated by trans-acting factors that recognize mRNA features common to almost all eukaryotes. Eukaryotic translation initiation factor 3 complex (eIF3) is a highly conserved protein complex that recognizes 5'-CAP elements of the mRNA to initiate translation. eIF3 consists of nine subunits, three of them having two isoforms: eIF3A, eIF2B1, eIF3B2, eIF3C1, eIF3C2, eIF3D, eIF3E, eIF3F, eIF3G1, eIF3G2, eIF3H and eIF3K. This work deals with functional characterization, expression and subcellular localization of eIF3B1, eIF3B2 and eIF3E in Arabidopsis thaliana male gametophyte and interaction of eIF3E with the Constitutive photomorphogenesis 9 (COP9) complex as a regulatory complex of eIF3E post-translational control. Here we show that depletion of eif3b1 or eif3b2 is not gametophytic lethal and that the two protein might function redundantly, whereas, knockout of eIF3E causes male gametophyte lethality. Interestingly, eif3b1 show post-fertilization defects during embryogenesis, suggesting that its redundancy with eIF3B2 is restricted to the gametophyte. Gene expression studies revealed high expression of eIF3 subunits in actively dividing zones of leaf primordia, root meristem and root elongation zones as well as in the vegetative...

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