Implication du peptide ScRALF3 dans le développement du gamétophyte femelle chez Solanum chacoense

Loubert-Hudon, Audrey

08 1900

La coordination du développement par les communications intercellulaires est essentielle pour assurer la reproduction chez les plantes. Plusieurs études démontrent qu’une communication entre le sac embryonnaire et le tissu maternel, le sporophyte, est essentielle au bon développement des gamètes. Les molécules, peptides ou autres protagonistes impliqués dans ces voies de signalisation ainsi que leur mode d’action restent toutefois nébuleux. Les gènes de type RALF codent pour des petits peptides sécrétés retrouvés de manière spécifique ou ubiquitaire dans la plante. Leur structure en font de parfaits candidats pour permettre ces communications cellule-cellule entre les différents tissus. Treize gènes de type RALF ont été isolés actuellement chez la pomme de terre sauvage Solanum chacoense. Maintenant, nous montrons qu’un de ceux-ci, ScRALF3, est impliqué dans la polarisation du sac embryonnaire et dans la synchronicité des divisions mitotiques assurant la formation d’un gamétophyte femelle mature fonctionnel. Étant exprimé de manière spécifique au niveau des téguments de l’ovule, ScRALF3 est un candidat idéal pour réguler les communications cellule-cellule entre le sporophyte et le sac embryonnaire. / Development coordination through intercellular communication is essential for plant reproduction. Several studies show that communication between embryo sac and maternal tissue, the sporophyte, is essential to the development of gametes. These molecules, peptides or other actors involved in these signaling pathways and their mode of action remains unclear. Genes encoding small secreted RALF peptides specifically or ubiquitously expressed throughout the plant are good candidates to allow these cell-cell communications. Thirteen RALF-like genes have been isolated at present from the wild potato Solanum chacoense. Now, we show that one of these, ScRALF3, is involved in the polarization of the embryo sac and the synchronicity of mitotic divisions to ensure the formation of a functional mature female gametophyte. Since it is specifically expressed in the integument of the ovule, ScRALF3 is an ideal candidate to regulate cell-cell communication between the sporophyte and the gametophyte, e.g., the embryo sac.

Rapid alkalinisation factors (RALF)

Communication cellule-cellule

Développement végétal

Gamétophyte femelle

Sac embryonnaire

Division cellulaire

Synchronicité

Polarité

Solanum chacoense

Cell-cell communication

Development

Female gametophyte

Embryo sac

Cell division

Synchronicity

Polarity

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

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...

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

No description available.

Cellular Biology

Molecular Biology

Biochemistry

Genetics

Plant Biology

Arabidopsis

Hydroxyproline-galactosyltransferases

Hyp-GALT

Arabinogalactan proteins

AGP

galt25789

galt23456789

Hyp-O-glycans

plant growth

development

vegetative phenotypes

reproduction

fertilization

male-gametophyte

embryo development

type-II AGs

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

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...

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

Fíla, Jan

January 2012

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...