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1	Biochemical Characterization of Hydroxyproline-rich Glycoproteins in the Arabidopsis Root Cell Wall Chen, Yuning January 2012 (has links) No description available. Biochemistry RSH HRGP EXT1 extensin cross-linking
2	Extensins, Extensin Peroxidases and the Crosslink Behavior Ye, Dening 24 September 2014 (has links) No description available. Biochemistry Plant Biology Plant Sciences extensin crosslink peroxidase Arabidopsis glycoprotein
3	Improving Expression Vectors for Recombinant Protein Production in Plants January 2012 (has links) abstract: Over the past decade, several high-value proteins have been produced using plant-based transient expression systems. However, these studies exposed some limitations that must be overcome to allow plant expression systems to reach their full potential. These limitations are the low level of recombinant protein accumulation achieved in some cases, and lack of efficient co-expression vectors for the production of multi-protein complexes. This study report that tobacco Extensin (Ext) gene 3' untranslated region (UTR) can be broadly used to enhance recombinant protein expression in plants. Extensin is the hydroxyproline-rich glycoprotein that constitutes the major protein component of cell walls. Using transient expression, it was found that the Ext 3' UTR increases recombinant protein expression up to 13.5- and 6-fold in non-replicating and replicating vector systems, respectively, compared to previously established terminators. Enhanced protein accumulation was correlated with increased mRNA levels associated with reduction in read-through transcription. Regions of Ext 3' UTR essential for maximum gene expression included a poly-purine sequence used as a major poly-adenylation site. Furthermore, modified bean yellow dwarf virus (BeYDV)-based vectors designed to allow co-expression of multiple recombinant genes were constructed and tested for their performance in driving transient expression in plants. Robust co-expression and assembly of heavy and light chains of the anti-Ebola virus monoclonal antibody 6D8, as well as E. coli heat-labile toxin (LT) were achieved with the modified vectors. The simultaneous co-expression of three fluoroproteins using the single replicon, triple cassette is demonstrated by confocal microscopy. In conclusion, this study provides an excellent tool for rapid, cost-effective, large-scale manufacturing of recombinant proteins for use in medicine and industry. / Dissertation/Thesis / Ph.D. Plant Biology 2012 Biology Molecular biology Plant biology bean yellow dwarf virus extensin plant protein expression terminator vector
4	Extensin Peroxidase Identification and Characterization in <i>Solanum lycopersicum</i> Dong, Wen 24 August 2015 (has links) No description available. Biochemistry Plant Biology Hydroxyproline-rich glycoproteins plant cell wall extensin peroxidase protein crosslinking
5	Expression Profiling and Recombinant Production of TomEP, a Tomato Extensin Peroxidase Mishler-Elmore, John William 02 June 2020 (has links) No description available. Plant Sciences Plant Biology Botany Biochemistry Plant Cell Wall Extensin Extensin Peroxidase Peroxidase HRGP Tomato Agrobacterium Protein folding heterologous expression hydroxyproline rich glycoprotein Arabidopsis CRISPR GUS MUG Overexpression TomEP
6	The Expression, Identification and Biochemical Characterization of the Extracellular Domain of Arabidopsis AFH2 Cristea, Laura G. January 2014 (has links) No description available. Biochemistry Biology Chemistry Molecular Biology Plant Biology Plant Sciences plant formins formin-like protein formin extracellular domain Arabidopsis formin Hyp O-glycosylation proline-rich motif extensin arabinogalactan protein tobacco formin AGP motif extensin motif
7	Role des extensines et leur glycosylation dans la défense racinaire. / Role of extensins and their glycosylation in root defence Castilleux, Romain 21 December 2017 (has links) Les extensines sont des glycoprotéines pariétales appartenant à la famille des HRGPs (Hydroxyprolin-rich glycoproteins) impliquées dans plusieurs fonctions telles que la croissance, le développement et la défense des plantes contre les pathogènes. Toutefois, leur mode d’action dans la réponse immunitaire végétale n’est pas encore bien connu et reste à élucider. Les extensines interviennent dans le renforcement de la paroi, un des premiers remparts cellulaires contre les pathogènes, en se liant entre elles de manière intra- et intermoléculaire. Ce « cross-linking » est catalysé par des enzymes peroxydases spécifiques et nécessite une correcte conformation des extensines, laquelle est conférée par leur partie glycosylée. Dans ce projet de thèse, nous avons donc entrepris d’étudier l’impact de la glycosylation des extensines sur la défense racinaire et tenté de caractériser, de manière préliminaire, des peroxydases potentiellement impliquées dans le « cross-linking » chez Arabidopsis thaliana. Des techniques d’immunocytochimie réalisées sur une sélection de mutants affectés dans la glycosylation des extensines ont révélé une modulation de la distribution des extensines dans la racine d’A. thaliana en réponse à une élicitation avec un peptide bactérien, la flagelline 22. L’un des résultats majeurs de cette étude a été de montrer l’importance de l’arabinosylation des extensines dans la colonisation de la racine par l’oomycète pathogène Phytophthora parasitica. Ainsi, l’ensemble de ces résultats nous apermis d’élaborer un modèle proposant d’illustrer l’importance de l’arabinosylation des extensines dans l’organisation et l’architecture de la paroi, modulant ainsi l’adhésion du pathogène sur les cellules de la racine et influençant in fine la colonisation de cette dernière. / Extensins are cell wall glycoproteins involved in various biological processes including plantprotection. However, their mode of action in plant immunity response is not clearly established and remains to be elucidated. Extensins are able to strengthen the cell wall, one of the first cellular barriers against pathogens, through intra- and intermolecular cross-links. This cross-linking is catalysed by specific peroxidase enzymes and requires a correct conformation of extensins conferred by their glycan moiety. This PhD project aimed to investigate the impact of extensin glycosylation in root defence and to characterize, as a preliminary study, the peroxidases potentially involved in the extensin crosslinking in Arabidopsis thaliana. Through immunocytochemistry techniques on mutants impaired withextensin glycosylation, we have revealed that a modulation of extensin distribution occurs in A. thaliana root in response to elicitation with the bacterial peptide, flagellin 22. We have also showed that extensin arabinosylation plays a major role, although probably indirect, in the root colonization by the pathogen oomycete Phytophthora parasitica. We have therefore elaborated a model proposing to illustrate the importance of extensin arabinosylation in the cell wall organization and architecture,modulating pathogen adhesion on root cells and influencing in fine root colonization. Extensines Arabinosylation Défense Racine Paroi Glycosylation Eliciteur Arabidopsis thaliana Phytophthora parasitica Extensin Arabinosylation Defence Root Cell wall Glycosylation Elicitor Arabidopsis thaliana Phytophthora parasitica 575
8	Bioinformatic Identification and Analysis of Hydroxyproline-rich Glycoproteins in Plants Liu, Xiao 19 September 2017 (has links) No description available. Bioinformatics Plant Biology Biology Arabinogalactan-protein AGP Bioinformatics BIO OHIO Evolution Extensin Hydroxyproline-rich glycoprotein HRGP Identification Plant cell wall Plant kingdom Proline-rich proteins Protein superfamily PRP

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