Papers by Marie-christine Kiefer-meyer
HAL (Le Centre pour la Communication Scientifique Directe), Jul 13, 2014
HAL is a multidisciplinary open access archive for the deposit and dissemination of scientific re... more HAL is a multidisciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L'archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d'enseignement et de recherche français ou étrangers, des laboratoires publics ou privés.
Production dans des plantes transgéniques de protéines marquées 13C et 15N en vue d’une étude structurale par RMN
HAL (Le Centre pour la Communication Scientifique Directe), Jun 17, 2011
National audienc
HAL (Le Centre pour la Communication Scientifique Directe), Jun 1, 2012
HAL (Le Centre pour la Communication Scientifique Directe), Mar 23, 2012
HAL (Le Centre pour la Communication Scientifique Directe), Nov 29, 2012
Characterization of N-glycosylation pathway in the green microalgae Chlamydomonas reinhardtii
HAL (Le Centre pour la Communication Scientifique Directe), Jun 17, 2011
National audienc
N-glycosylation pathway in the Phaeodactylum tricornutum
HAL (Le Centre pour la Communication Scientifique Directe), Jun 6, 2011
International audienc
Phaeodactylum tricornutum: new source of eliciting molecules for plant defense and health
HAL (Le Centre pour la Communication Scientifique Directe), Mar 21, 2019
La protection intégrée, qui vise à réduire l’usage des pesticides, est un défi majeur pour l’agri... more La protection intégrée, qui vise à réduire l’usage des pesticides, est un défi majeur pour l’agriculture du XXIème siècle. Le développement de nouvelles approches agronomiques qui concilient environnement et agriculture est une condition indispensable pour l’agriculture de demain. Dans ce contexte, l’utilisation d’éliciteurs capables de mimer une attaque pathogène et de promouvoir un état de résistance chez les plantes face à des maladies représente une alternative naturelle à la lutte chimique. Ces éliciteurs sont nommés les stimulateurs de défense des plantes (SDP). Ils peuvent provenir de différentes sources et être extraits à partir de macroalgues comme c’est le cas des SDP à base de polysaccharides d’algues tels que la laminarine utilisée pour stimuler l’immunité de plantes agronomiques. Toutefois, l’exploitation de ces ressources dans leur milieu naturel et les difficultés de production liées à leur cycle de développement constituent des freins à leur utilisation. La valorisation des microalgues comme source de SDP pourrait permettre de s’affranchir de ces contraintes. Cependant la recherche et de molécules SDP chez les microalgues est encore peu abordée. Au cours de ce travail, le potentiel d’une culture de microalgue, Phaeodactylum tricornutum, à induire des réactions de défense chez les plantes a été évalué. Un broyat cellulaire a été appliqué sur des plantules d’Arabidopsis thaliana. Le caractère éliciteur de ce broyat a été testé et caractérisé par des approches microscopiques, physiologiques et moléculaires. Les résultats ont montré que les plantes traitées présentaient des niveaux d’expression des gènes PR-1, PAD3, ACS6 et WRKY40 et un niveau de protection contre la bactérie Pseudomonas syringae DC3000 (Pst) plus élevés que les plantes non traitées. De plus, un effet bactéricide in vitro sur la bactérie Pst a été observé. Ces résultats offrent de nouvelles perspectives pour le développement de produits SDP d’origine naturelle capables de protéger les cultures.Integrated plant protection, which aims to reduce the use of pesticide, is a major challenge for the agriculture of the 21st century. The development and application of new agronomic approaches is a prerequisite for crop protection in a sustainable agriculture system. In this context, the use of elicitors capable of mimicking a pathogenic attack and promoting a plant resistance state against diseases is a natural alternative to the use of agro-chemicals. These elicitors are also called plant defense stimulators (PDS). These can be obtained from different sources including macroalgae as it the case for the polysaccharide-based PDS laminarin that is currently used for the protection of a number of crops. However, the exploitation of these natural resources and the difficulties of their production due to their development cycle do hamper their use at a large scale. One of the possibilities to overcome these difficulties is the use of microalgae as a source of PDS. But this possibility and the potential of microalgaederived PDS for crop protection are currently under investigated. In the present work, we have used a cell extract from the microalgae Phaeodactylum tricornutum and assessed its defense response-eliciting activities on Arabidopsis thaliana seedlings by using microscopic, physiological and molecular approaches. The results show that treated plants exhibit higher levels of expression of the PR-1, PAD3, ACS6 and WRKY40 genes and a higher level of protection against the pathogenic bacterium Pseudomonas syringae DC3000 (Pst) than nontreated plants. An In vitro antibacterial activity on the Pst bacteria was also observed. Our findings suggest that P. tricornutum cell extracts are able to activate plant immune responses and offer new perspectives for the development of novel plant defense stimulators
Cells, 2021
exDNA is found in various organisms, including plants. However, plant exDNA has thus far received... more exDNA is found in various organisms, including plants. However, plant exDNA has thus far received little attention related to its origin and role in the RET (root extracellular trap). In this study, we performed the first high-throughput genomic sequencing of plant exDNA from a Fabaceae with worldwide interest: soybean (Glycine max (L.) Merr.). The origin of this exDNA was first investigated in control condition, and the results show high-coverage on organelles (mitochondria/plastid) DNA relative to nuclear DNA, as well as a mix of coding and non-coding sequences. In the second part of this study, we investigated if exDNA release was modified during an elicitation with PEP-13 (a peptide elicitor from oomycete genus Phytophthora). Our results show that treatment of roots with PEP-13 does not affect the composition of exDNA.
Biological Reviews, 2021
ABSTRACTN‐glycosylation is an important post‐translational modification of proteins that has been... more ABSTRACTN‐glycosylation is an important post‐translational modification of proteins that has been highly conserved during evolution and is found in Eukaryota, Bacteria and Archaea. In eukaryotes, N‐glycan processing is sequential, involving multiple specific steps within the secretory pathway as proteins travel through the endoplasmic reticulum and the Golgi apparatus. In this review, we first summarize the different steps of the N‐glycan processing and further describe recent findings regarding the diversity of N‐glycan structures in eukaryotic clades. This comparison allows us to explore the different regulation mechanisms of N‐glycan processing among eukaryotic clades. Recent findings regarding the regulation of protein N‐glycosylation are highlighted, especially the regulation of the biosynthesis of complex‐type N‐glycans through manganese and calcium homeostasis and the specific role of transmembrane protein 165 (TMEM165) for which homologous sequences have been identified in s...
Frontiers in Plant Science, 2021
To date, it is widely accepted by the scientific community that many agricultural regions will ex... more To date, it is widely accepted by the scientific community that many agricultural regions will experience more extreme temperature fluctuations. These stresses will undoubtedly impact crop production, particularly fruit and seed yields. In fact, pollination is considered as one of the most temperature-sensitive phases of plant development and until now, except for the time-consuming and costly processes of genetic breeding, there is no immediate alternative to address this issue. In this work, we used a multidisciplinary approach using physiological, biochemical, and molecular techniques for studying the effects of two carbohydrate-based natural activators on in vitro tomato pollen germination and pollen tube growth cultured in vitro under cold conditions. Under mild and strong cold temperatures, these two carbohydrate-based compounds significantly enhanced pollen germination and pollen tube growth. The two biostimulants did not induce significant changes in the classical molecular ...
Frontiers in Plant Science, 2019
During evolution of land plants, the first colonizing species presented leafy-dominant gametophyt... more During evolution of land plants, the first colonizing species presented leafy-dominant gametophytes, found in non-vascular plants (bryophytes). Today, bryophytes include liverworts, mosses, and hornworts. In the first seedless vascular plants (lycophytes), the sporophytic stage of life started to be predominant. In the seed producing plants, gymnosperms and angiosperms , the gametophytic stage is restricted to reproduction. In mosses and ferns, the haploid spores germinate and form a protonema, which develops into a leafy gametophyte producing rhizoids for anchorage, water and nutrient uptakes. The basal gymnosperms (cycads and Ginkgo) reproduce by zooidogamy. Their pollen grains develop a multi-branched pollen tube that penetrates the nucellus and releases flagellated sperm cells that swim to the egg cell. The pollen grain of other gymnosperms (conifers and gnetophytes) as well as angiosperms germinates and produces a pollen tube that directly delivers the sperm cells to the ovule (siphonogamy). These different gametophytes, which are short or long-lived structures, share a common tip-growing mode of cell expansion. Tip-growth requires a massive cell wall deposition to promote cell elongation, but also a tight spatial and temporal control of the cell wall remodeling in order to modulate the mechanical properties of the cell wall. The growth rate of these cells is very variable depending on the structure and the species, ranging from very slow (protonemata, rhizoids, and some gymnosperm pollen tubes), to a slow to fast-growth in other gymnosperms and angiosperms. In addition, the structural diversity of the female counterparts in angiosperms (dry, semi-dry vs wet stigmas, short vs long, solid vs hollow styles) will impact the speed and efficiency of sperm delivery. As the evolution and diversity of the cell wall polysaccharides accompanied the diversification of cell wall structural proteins and remodeling enzymes, this review focuses on our current knowledge on the biochemistry, the distribution and remodeling of the main cell wall polymers (including cellulose, hemicelluloses, pectins, callose, arabinogalactan-proteins and extensins), during the tip-expansion of gametophytes from bryophytes, pteridophytes (lycophytes and monilophytes), gymnosperms and the monocot and eudicot angiosperms.
Frontiers in Plant Science, 2019
Although Phaeodactylum tricornutum is gaining importance in plant molecular farming for the produ... more Although Phaeodactylum tricornutum is gaining importance in plant molecular farming for the production of high-value molecules such as monoclonal antibodies, little is currently known about key cell metabolism occurring in this diatom such as protein glycosylation. For example, incorporation of fucose residues in the glycans N-linked to protein in P. tricornutum is questionable. Indeed, such epitope has previously been found on N-glycans of endogenous glycoproteins in P. tricornutum. Meanwhile, the potential immunogenicity of the α(1,3)-fucose epitope present on plant-derived biopharmaceuticals is still a matter of debate. In this paper, we have studied molecular actors potentially involved in the fucosylation of the glycoproteins in P. tricornutum. Based on sequence similarities, we have identified a putative P. tricornutum GDP-L-fucose transporter and three fucosyltransferase (FuT) candidates. The putative P. tricornutum GDP-L-fucose transporter coding sequence was expressed in the Chinese Hamster Ovary (CHO)-gmt5 mutant lacking its endogenous GDP-L-fucose transporter activity. We show that the P. tricornutum transporter is able to rescue the fucosylation of proteins in this CHO-gmt5 mutant cell line, thus demonstrating the functional activity of the diatom transporter and its appropriate Golgi localization. In addition, we overexpressed one of the three FuT candidates, namely the FuT54599, in P. tricornutum and investigated its localization within Golgi stacks of the diatom. Our findings show that overexpression of the FuT54599 leads to a significant increase of the α(1,3)-fucosylation of the diatom endogenous glycoproteins.
Scientific reports, Jan 25, 2018
Phaeodactylum tricornutum is the most studied diatom encountered principally in coastal unstable ... more Phaeodactylum tricornutum is the most studied diatom encountered principally in coastal unstable environments. It has been hypothesized that the great adaptability of P. tricornutum is probably due to its pleomorphism. Indeed, P. tricornutum is an atypical diatom since it can display three morphotypes: fusiform, triradiate and oval. Currently, little information is available regarding the physiological significance of this morphogenesis. In this study, we adapted P. tricornutum Pt3 strain to obtain algal culture particularly enriched in one dominant morphotype: fusiform, triradiate or oval. These cultures were used to run high-throughput RNA-Sequencing. The whole mRNA transcriptome of each morphotype was determined. Pairwise comparisons highlighted biological processes and molecular functions which are up- and down-regulated. Finally, intersection analysis allowed us to identify the specific features from the oval morphotype which is of particular interest as it is often described t...
The Plant Genome, 2016
Endoplasmic reticulum (ER) bodies are important organelles for root defense. However, little is k... more Endoplasmic reticulum (ER) bodies are important organelles for root defense. However, little is known regarding the genetic control of their formation in root tissues. In the present study, Arabidopsis thaliana (L.) Heynh. roots were dissected using laser-assisted microdissection (LAM) with minimal sample preparation (no fixation or embedding steps) and the expression of genes associated with ER body formation and function was assessed by real-time quantitative reverse-transcription polymerase chain reaction (RT-qRT-PCR) in the presence and absence of the defense phytohormone methyl jasmonate (MeJA). Zones of interest were identified in plants overexpressing a SP-GFP-HDEL fluorescent construct; these being the root cap zone, meristematic zone, elongation zone, and differentiation zone. Given their role in ER body formation, the expression of the genes NAI1, NAI2, BGLU21, BGLU22, and BGLU23 was evaluated in the whole root and in the four dissected root zones using RT-qRT-PCR. Our data show that the expression level of all five genes differs in a root-zone-specific manner in untreated roots. They also reveal that all of them are overexpressed in response to MeJA with the two NAI genes being the most highly overexpressed in the EZ. Finally, the NAI1 gene, encoding for a transcription factor that regulates the expression of the four other genes, is the first to respond to MeJA, supporting its central role in ER body formation and function in root defense. P l ants are constantly confronted with a range of biotic and abiotic stresses, and they respond using a variety of strategies to ensure maintenance of homeostasis and survival. Such responses begin by the perception of the stress source (Jones and Dangl, 2006; Boller and Felix, 2009), this is followed by an appropriate hormone-related induced response (Verhage et al., 2010), which, in turn, controls the expression of the appropriate
Annals of botany, 2014
Rhamnogalacturonan-II (RG-II) is one of the pectin motifs found in the cell wall of all land plan... more Rhamnogalacturonan-II (RG-II) is one of the pectin motifs found in the cell wall of all land plants. It contains sugars such as 2-keto-3-deoxy-d-lyxo-heptulosaric acid (Dha) and 2-keto-3-deoxy-d-manno-octulosonic acid (Kdo), and within the wall RG-II is mostly found as a dimer via a borate diester cross-link. To date, little is known regarding the biosynthesis of this motif. Here, after a brief review of our current knowledge on RG-II structure, biosynthesis and function in plants, this study explores the implications of the presence of a Golgi-localized sialyltransferase-like 2 (SIA2) protein that is possibly involved in the transfer of Dha or Kdo in the RG-II of Arabidopsis thaliana pollen tubes, a fast-growing cell type used as a model for the study of cell elongation. Two heterozygous mutant lines of arabidopsis (sia2-1+/- and qrt1 × sia2-2+/-) were investigated. sia2-2+/- was in a quartet1 background and the inserted T-DNA contained the reporter gene β-glucuronidase (GUS) under...
Plant physiology, 2013
Plant pathogens including fungi and bacteria cause many of the most serious crop diseases. The pl... more Plant pathogens including fungi and bacteria cause many of the most serious crop diseases. The plant innate immune response is triggered upon recognition of microbe-associated molecular patterns (MAMPs) such as flagellin22 and peptidoglycan. To date, very little is known of MAMP-mediated responses in roots. Root border cells are cells that originate from root caps and are released individually into the rhizosphere. Root tips of Arabidopsis (Arabidopsis thaliana) and flax (Linum usitatissimum) release cells known as "border-like cells." Whereas root border cells of pea (Pisum sativum) are clearly involved in defense against fungal pathogens, the function of border-like cells remains to be established. In this study, we have investigated the responses of root border-like cells of Arabidopsis and flax to flagellin22 and peptidoglycan. We found that both MAMPs triggered a rapid oxidative burst in root border-like cells of both species. The production of reactive oxygen species...
Frontiers in Plant Science, 2014
Microalgae are currently used for the production of food compounds. Recently, few microalgae spec... more Microalgae are currently used for the production of food compounds. Recently, few microalgae species have been investigated as potential biofactories for the production of biopharmaceuticals. Indeed in this context, microalgae are cheap, classified as Generally Recognized As Safe (GRAS) organisms and can be grown easily. However, problems remain to be solved before any industrial production of microalgae-made biopharmaceuticals. Among them, post-translational modifications of the proteins need to be considered. Especially, N-glycosylation acquired by the secreted recombinant proteins is of major concern since most of the biopharmaceuticals are N-glycosylated and it is well recognized that glycosylation represent one of their critical quality attribute. Therefore, the evaluation of microalgae as alternative cell factory for biopharmaceutical productions thus requires to investigate their N-glycosylation capability in order to determine to what extend it differs from their human counterpart and to determine appropriate strategies for remodeling the microalgae glycosylation into human-compatible oligosaccharides. Here, we review the secreted recombinant proteins which have been successfully produced in microalgae. We also report on recent bioinformatics and biochemical data concerning the structure of glycans N-linked to proteins from various microalgae phyla and comment the consequences on the glycan engineering strategies that may be necessary to render those microalgae-made biopharmaceuticals compatible with human therapy.
Plant Physiology, 2014
Germination of pollen grains is a crucial step in plant reproduction. However, the molecular mech... more Germination of pollen grains is a crucial step in plant reproduction. However, the molecular mechanisms involved remain unclear. We investigated the role of PECTIN METHYLESTERASE48 (PME48), an enzyme implicated in the remodeling of pectins in Arabidopsis (Arabidopsis thaliana) pollen. A combination of functional genomics, gene expression, in vivo and in vitro pollen germination, immunolabeling, and biochemical analyses was used on wild-type and Atpme48 mutant plants. We showed that AtPME48 is specifically expressed in the male gametophyte and is the second most expressed PME in dry and imbibed pollen grains. Pollen grains from homozygous mutant lines displayed a significant delay in imbibition and germination in vitro and in vivo. Moreover, numerous pollen grains showed two tips emerging instead of one in the wild type. Immunolabeling and Fourier transform infrared analyses showed that the degree of methylesterification of the homogalacturonan was higher in pme48−/− pollen grains. I...
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Papers by Marie-christine Kiefer-meyer