Global ETD Search

41	Etude et valorisation industrielle d'halophytes du littoral breton : biodiversité chimique et biologique / Study and industrial promotion of halophytes from the Brittany coast : chemical and biological biodiversity Bréant, Lise 17 January 2012 (has links) Quatre espèces halophyles, Silene maritima, Carpobrotus edulis, Senecio cineraria et Limonium latifolium, ont fait l’objet d’études phytochimiques en procédant par fractionnement bioguidé. Nous avons ainsi identifié une trentaine de métabolites bioactifs, capables de limiter la production d’espèces réactives de l’oxygène qui interviennent dans le stress radicalaire et/ou inflammatoire et/ou de favoriser la lipolyse adipocytaire. La visualisation de l’impact du biotope sur le métabolome de Silene maritima nous a permis d’identifier des marqueurs jouant un rôle important dans la capacité adaptative de cette halophyte sous l’effet de stress environnementaux. L’analyse de profils métaboliques montre clairement qu’un même individu, récolté à des moments différents et/ou dans des biotopes différents, possède une composition phytochimique variable. Afin de tester l’effet d’éliciteurs sur la capacité biosynthétique de suspensions cellulaires de Silene maritima, nous avons eu recours à la biotechnologie végétale. Nous avons également développé des conditions de culture in vitro permettant l’initiation de cals à partir d’une halophyte protégée, Crambe maritima. Ces cals pourront in fine servir à initier des suspensions cellulaires, valorisables industriellement. / Four halophile species, Silene maritima, Carpobrotus edulis, Senecio cineraria and Limonium latifolium have been studied phytochemically by bioguided fractionation. This work led to the discovery of thirty biologically active compounds able to reduce the production of reactive oxygen species that occur during inflammatory and/or radical stress, and to promote the adipocytary lipolysis. The visualization of the biotope’s impact on the halophyte Silene maritima metabolome helped us to identify markers playing an important role in the adaptative capacity of plants under environmental stress. Analysis of metabolite profiles clearly shows that the same individual harvested at a different moment and/or from a different biotope possesses an extremely variable chemical composition. In order to test elicitor effect, we used plant biotechnology. Finally, we were able to develop in vitro culture conditions permitting initiation of callus from the protected halophile Crambe maritima. The obtained callus could serve to initiate cell suspension, which is suitable for industrial purposes. Silene maritima Halophytes Inflammation Stress Radicaux libres Métabolome Culture cellulaire Elicitation Biodiversité Silene maritima Halophytes Inflammation Stress Free radicals Metabolome Cell culture Elicitation Biodiversity 581.9 577
42	Recherche de biomarqueurs sanguins de la plasticité lipidique chez le porc et le poulet / Blood biomarkers research of lipid plasticity in pigs and chicken Jegou, Maëva 26 January 2016 (has links) La production de viande à moindre coût nécessite de disposer d’animaux robustes, efficaces, capables de s’adapter aux contraintes d’élevage. Ceci requiert l’évaluation de la capacité de l’animal à constituer et restituer ses réserves énergétiques. Ce travail de thèse a donc pour objectif d’identifier de potentiels biomarqueurs sanguins en lien avec la composition corporelle. Pour cela, deux espèces monogastriques sont étudiées, le porc et le poulet. Au sein de chaque espèce, les animaux de deux lignées génétiques (sélection divergente sur la Consommation Moyenne Journalière Résiduelle chez le porc et sur la proportion de gras abdominal chez le poulet) ont reçu des régimes alimentaires contrastés (riches en lipides et en fibres vs. riches en amidon) mais isoprotéiques et isoénergétiques. Les paramètres plasmatiques et le transcriptome du sang ont été étudiés en réponse à ces régimes alimentaires.Les métabolites et hormones plasmatiques sont affectés par le régime chez le porc alors que ces paramètres sont affectés par le régime et la lignée chez le poulet. L’analyse du métabolome associée aux mesures ciblées des concentrations en métabolites et hormones montre que l’association de plusieurs paramètres sanguins explique entre 37 et 75% de la variabilité de la masse adipeuse chez le porc ou le poulet. Pour les deux espèces, le transcriptome du sang est plus affecté par la lignée génétique que par le régime alimentaire. Les porcs et les poulets nourris avec un régime riche en lipides et en fibres, surexpriment le gène codant la forme hépatique d’une enzyme mitochondriale : CP / Meat production at a lower cost requires robust and efficient animals able to adapt to different rearing conditions. This requires assessing animal’s abilities to store and restore its energy reserves. The objective of the current thesis was to identify potential blood markers of body composition. Two monogastric species were studied, pig and chicken. For each species, animals of two genetic lines (divergent selection on Residual Feed Intake in pigs and abdominal fat proportion in chicken) received two diets contrasted in energy sources (high vegetable oils and fibers vs. rich in starch) but isoproteic and isoenergetic. Plasma parameters and the blood transcriptome were studied in response to those diets.Plasma metabolites and hormones were affected by the diet in pigs whereas those parameters were affected by the diet and the genetic lines in chickens. Metabolome analysis, associated with targeted measurement of metabolites and hormones concentrations, shows that the combination of several blood parameters explained between 37 and 75% of the variability of body fat in pig or chicken. For both species, the blood transcriptome was more affected by the line than by the diet. Pigs and chickens fed a diet rich in lipids and fibers, overexpressed the gene encoding the hepatic form of a mitochondrial enzyme: CPT1A. In summary, this work supports the potential use of blood transcriptome to study variations of phenotypes in a dynamic way throughout the life of the animal and to highlight biomarkers for future selection process. Porc Poulet Composition corporelle Efficacité alimentaire Sang Métabolome Hormones Transcriptome Biomarqueurs Pig Chicken Body composition Feed efficiency Blood Metabolome Hormones Transcriptome Biomarkers
43	Regulation of the nitric oxide synthesis and signaling by posttranslational modifications and N-end rule pathway-mediated proteolysis in Arabidopsis thaliana Costa Broseta, Álvaro 04 January 2019 (has links) El óxido nítrico (NO) es una molécula gaseosa altamente reactiva que regula el crecimiento y el desarrollo de las plantas así como sus respuestas de defensa. El NO se produce principalmente a partir de nitrito por las nitrato reductasas (NRs) en balance con las nitrito reductasas (NiRs), y es percibido a través de un mecanismo en el que está involucrada la proteólisis dirigida por la secuencia aminoterminal del grupo VII de los factores de transcripción ERF (ERFVIIs). El NO ejerce especialmente su función señalizadora al causar modificaciones postraduccionales en las proteínas y alterar su función, estructura y/o estabilidad. Por estos medios y en colaboración con distintas rutas de señalización fitohormonales, el NO es capaz de regular un amplio abanico de procesos celulares en plantas, incluyendo aquellos relacionados con la adquisición de tolerancia a la congelación. Utilizando Arabidopsis thaliana como planta modelo, en este trabajo se descubrió que el NO puede regular su propia biosíntesis, puesto que las enzimas NRs y NiRs fueron reguladas por tres factores principales: señalización inducida por nitrato y controlada por la función del factor de transcripción NIN-like protein 7 (NLP7), la proteólisis dirigida por la secuencia aminoterminal, y la degradación mediada por el proteasoma, probablemente ocasionada por modificaciones postraduccionales relacionadas con el NO. Adicionalmente, se descubrió que el factor de transcripción ERFVII RAP2.3 regula negativamente tanto la biosíntesis de NO como las respuestas que desencadena a través de un mecanismo similar a un reóstato en el que están involucradas ramas específicas relacionadas con el NO de las rutas de señalización de jasmonato y ácido abscísico. Por otro lado, una caracterización metabolómica y transcriptómica combinada de plantas mutantes nia1,2noa1-2 deficientes en NO y plantas fumigadas con NO permitió desentrañar una serie de mecanismos que están controlados por NO. En primer lugar, la percepción de NO en los hipocotilos requeriría varias hormonas para ser completada, como fue confirmado por los rastreos de acortamiento de hipocotilo por NO con mutantes relacionados con hormonas y la colección TRANSPLANTA de líneas transgénicas que expresan condicionalmente factores de transcripción de Arabidopsis. En segundo lugar, dosis elevadas de NO causan una reprogramación masiva aunque transitoria de los metabolismos primario y secundario, incluyendo la alteración del estado redox celular, la alteración de la permeabilidad de estructuras lipídicas y el recambio de proteínas y ácidos nucleicos. Por último, se descubrió que el NO previene el desarrollo de la tolerancia a congelación bajo condiciones no estresantes de temperatura, mientras que resulta esencial para la aclimatación a frío desencadenada por bajas temperaturas que conduce a una tolerancia mejorada a congelación. El NO conseguiría esta modulación afinada de la activación de respuestas relacionadas con frío al coordinar la acumulación de diferentes metabolitos y hormonas. En conjunto, este trabajo arroja luz sobre los mecanismos mediante los cuales, al interactuar con varias rutas señalizadoras y metabólicas, el NO puede regular distintos procesos clave de la fisiología vegetal. / L'òxid nítric (NO) és una molècula gasosa altament reactiva que regula el creixement i desenvolupament de les plantes així com les seves respostes de defensa. El NO es produeix principalment a partir de nitrit per les nitrat reductases (NRs) en balanç amb les nitrit reductases (NiRs), i és percebut a traves d'un mecanisme que inclou la proteòlisi dirigida per la seqüència aminoterminal del grup VII dels factors de transcripció ERF (ERFVII). El NO exerceix la seva funció senyalitzadora majoritàriament al provocar modificacions postraduccionals en les proteïnes i alterar la seva funció, estructura i/o estabilitat. Mitjançant aquestes modificacions i en col·laboració amb distintes rutes de senyalització fitohormonals, el NO es capaç de regular un ampli espectre de processos cel·lulars en plantes, inclosos aquells relacionats amb l'adquisició de tolerància a la congelació. Emprant Arabidopsis thaliana com a planta model, en aquest treball es va descobrir que el NO regula la seva pròpia biosíntesi, donat que els enzims NRs i NiRs foren regulades per tres factors principals: senyalització induïda per nitrat i controlada per la funció del factor de transcripció NIN-like protein 7 (NLP7), la proteòlisi dirigida per la seqüència aminoterminal, i la degradació mitjançant el proteasoma, probablement a causa de modificacions postraduccionals relacionades amb el NO. A més, es va descobrir que el factor de transcripció ERFVII RAP2.3 regula negativament tant la biosíntesi de NO com les respostes que desencadena aquest a través d'un mecanisme similar a un reòstat en el que estan involucrades branques específiques de les rutes de senyalització de jasmonat i àcid abscísic relacionades amb el NO. Per altre costat, una caracterització metabolòmica i transcriptòmica combinada de plantes mutants nia1,2noa1-2 deficients en NO i plantes fumigades amb NO va permetre desentranyar una sèrie de mecanismes que estan controlats per NO. En primer lloc, la percepció de NO en els hipocòtils requeriria de varies hormones, com fou confirmat pels rastrejos d'acurtament d'hipocòtil per NO amb mutants relacionats amb hormones i la col·lecció TRANSPLANTA de línies transgèniques d'expressió condicional de factors de transcripció d'Arabidopsis. En segon lloc, dosis elevades de NO causen una reprogramació massiva, encara que transitòria, dels metabolismes primari i secundari, incloent l'alteració de l'estat redox cel·lular, canvis en la permeabilitat de estructures lipídiques i el recanvi de proteïnes i àcids nucleics. Per últim, es va descobrir que el NO prevé el desenvolupament de la tolerància a congelació en condicions no estressants de temperatura, mentre que resulta essencial per a l'aclimatació a fred induïda per baixes temperatures que condueix a una tolerància millorada a congelació. El NO aconseguiria aquesta modulació minuciosa de l'activació de les respostes relacionades amb fred al coordinar l'acumulació de diferents metabòlits i hormones. En conjunt, aquest treball clarifica els mecanismes pels quals el NO pot regular distints processos clau de la fisiologia vegetal al interactuar amb varies rutes senyalitzadores i metabòliques. / Nitric oxide (NO) is a highly reactive gaseous molecule that regulates plant growth and development as well as defense responses. NO is mainly produced from nitrite by nitrate reductases (NRs) in balance with nitrite reductases (NiRs), and is sensed through a mechanism involving the N-end rule pathway-mediated proteolysis of the group VII of ERF transcription factors (ERFVIIs). NO especially exerts its signaling function by triggering post-translational modifications in proteins and altering their function, structure and/or stability. By these means and in collaboration with different phytohormone signaling pathways, NO is capable of regulating a wide array of cell processes in plants, including those related to the acquirement of freezing tolerance. By using Arabidopsis thaliana as model plant, during the development of this work it was found that NO can regulate its own biosynthesis, as NRs and NiR enzymes were regulated by three main factors: nitrate-induced signaling controlled by the function of the NIN-like protein 7 (NLP7) transcription factor, N-end rule proteolytic pathway, and proteasome-mediated degradation, likely triggered by NO-related post-translational modifications. In addition, the ERFVII transcription factor RAP2.3 was found to negatively regulate both the NO biosynthesis and their triggered responses through a rheostat-like mechanism that involves specific NO-related branches of jasmonate and abscisic acid signaling pathways. On the other hand, a combined metabolomic and transcriptomic characterization of NO-deficient nia1,2noa1-2 mutant plants and NO-fumigated plants allowed to unravel a number of mechanisms that are controlled by NO. First, NO perception in hypocotyls would require various hormones to be fulfilled as it was confirmed by NO-triggered hypocotyl shortening screenings with hormone-related mutants and the TRANSPLANTA collection of transgenic lines conditionally expressing Arabidopsis transcription factors. Second, high NO doses caused a massive but transient reprogramming of primary and secondary metabolism, including alteration of the cellular redox status, alteration of the permeability of lipidic structures or turnover of proteins and nucleic acids. Lastly, NO was found to prevent the development of freezing tolerance under non-stress temperature conditions, while being essential for the low temperature stress-triggered cold acclimation that leads to enhanced freezing tolerance. NO would achieve this fine-tuned modulation of the activation of the cold-related responses by coordinating the accumulation of different metabolites and hormones. Altogether, this work sheds light on the mechanisms by which, by interacting with various signaling and metabolic pathways, NO can regulate several key processes of plant physiology. / Costa Broseta, Á. (2018). Regulation of the nitric oxide synthesis and signaling by posttranslational modifications and N-end rule pathway-mediated proteolysis in Arabidopsis thaliana [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/114825 / TESIS Arabidopsis thaliana Nitric oxide Biosynthesis Nitrate reductase Nitrite reductase Post-translational modifications N-end rule pathway ERFVII RAP2.3 Freezing tolerance Cold acclimation Transcriptome Metabolome
44	Metabolome and Proteome Changes With Aging in Caenorhabditis Elegans Copes, Neil, Edwards, Clare, Chaput, Dale, Saifee, Mariam, Barjuca, Iosif, Nelson, Daniel, Paraggio, Alyssa, Saad, Patrick, Lipps, David, Stevens, Stanley M., Bradshaw, Patrick C. 01 December 2015 (has links) To expand the understanding of aging in the model organism Caenorhabditis elegans, global quantification of metabolite and protein levels in young and aged nematodes was performed using mass spectrometry. With age, there was a decreased abundance of proteins functioning in transcription termination, mRNA degradation, mRNA stability, protein synthesis, and proteasomal function. Furthermore, there was altered S-adenosyl methionine metabolism as well as a decreased abundance of the S-adenosyl methionine synthetase (SAMS-1) protein. Other aging-related changes included alterations in free fatty acid levels and composition, decreased levels of ribosomal proteins, decreased levels of NADP-dependent isocitrate dehydrogenase (IDH1), a shift in the cellular redox state, an increase in sorbitol content, alterations in free amino acid levels, and indications of altered muscle function and sarcoplasmic reticulum Ca2+ homeostasis. There were also decreases in pyrimidine and purine metabolite levels, most markedly nitrogenous bases. Supplementing the culture medium with cytidine (a pyrimidine nucleoside) or hypoxanthine (a purine base) increased lifespan slightly, suggesting that aging-induced alterations in ribonucleotide metabolism affect lifespan. An age-related increase in body size, lipotoxicity from ectopic yolk lipoprotein accumulation, a decline in NAD+ levels, and mitochondrial electron transport chain dysfunction may explain many of these changes. In addition, dietary restriction in aged worms resulting from sarcopenia of the pharyngeal pump likely decreases the abundance of SAMS-1, possibly leading to decreased phosphatidylcholine levels, larger lipid droplets, and ER and mitochondrial stress. The complementary use of proteomics and metabolomics yielded unique insights into the molecular processes altered with age in C. elegans. aging ascorbate C. elegans Caenorhabditis lifespan metabolome metabolomics methionine methylation methyltransferase nitrogenous bases proteome proteomics purine pyrimidine S-adenosyl methionine SAMS-1 SERCA sorbitol Biomedical Sciences
45	Childhood Cancers and Systems Medicine Stone, William L., Klopfenstein, Kathryn J., Hajianpour, M. J., Popescu, Marcela I., Cook, Cathleen M., Krishnan, Koymangalath 01 March 2017 (has links) Despite major advances in treatment, pediatric cancers in the 5-16 age group remain the most common cause of disease death, and one out of eight children with cancer will not survive. Among children that do survive, some 60% suffer from late effects such as cancer recurrence and increased risk of obesity. This paper will provide a broad overview of pediatric oncology in the context of systems medicine. Systems medicine utilizes an integrative approach that relies on patient information gained from omics technology. A major goal of a systems medicine is to provide personalized medicine that optimizes positive outcomes while minimizing deleterious short and long-term sideeffects. There is an ever increasing development of effective cancer drugs, but a major challenge lies in picking the most effective drug for a particular patient. As detailed below, high-throughput omics technology holds the promise of solving this problem. Omics includes genomics, epigenomics, and proteomics. System medicine integrates omics information and provides detailed insights into disease mechanisms which can then inform the optimal treatment strategy. cancer epigenomics genome wide association studies genomics kinomics metabolome omics ominostics oncology pediatric review systems medicine theranostics tumor Internal Medicine Pediatrics
46	Tumour catabolism independent of malnutrition and inflammation in upper GI cancer patients revealed by longitudinal metabolomics Renesse, Janusz von, Bechtolsheim, Felix von, Jonas, Sophie, Seifert, Lena, Alves, Tiago C., Seifert, Adrian M., Komorek, Filip, Tritchkova, Guergana, Menschikowski, Mario, Bork, Ulrich, Meisterfeld, Ronny, Distler, Marius, Chavakis, Triantafyllos, Weitz, Jürgen, Funk, Alexander M., Kahlert, Christoph, Mirtschink, Peter 19 March 2024 (has links) Background The detrimental impact of malnutrition and cachexia in cancer patients subjected to surgical resection is well established. However, how systemic and local metabolic alterations in cancer patients impact the serum metabolite signature, thereby leading to cancer-specific differences, is poorly defined. In order to implement metabolomics as a potential tool in clinical diagnostics and disease follow-up, targeted metabolite profiling based on quantitative measurements is essential. We hypothesized that the quantitative metabolic profile assessed by 1H nuclear magnetic resonance (NMR) spectroscopy can be used to identify cancer-induced catabolism and potentially distinguish between specific tumour entities. Importantly, to prove tumour dependency and assess metabolic normalization, we additionally analysed the metabolome of patients' sera longitudinally post-surgery in order to assess metabolic normalization. Methods Forty two metabolites in sera of patients with tumour entities known to cause malnutrition and cachexia, namely, upper gastrointestinal cancer and pancreatic cancer, as well as sera of healthy controls, were quantified by 1H NMR spectroscopy. Results Comparing serum metabolites of patients with gastrointestinal cancer with healthy controls and pancreatic cancer patients, we identified at least 15 significantly changed metabolites in each comparison. Principal component and pathway analysis tools showed a catabolic signature in preoperative upper gastrointestinal cancer patients. The most specifically upregulated metabolite group in gastrointestinal cancer patients was ketone bodies (3-hydroxybutyrate, P < 0.0001; acetoacetate, P < 0.0001; acetone, P < 0.0001; false discovery rate [FDR] adjusted). Increased glycerol levels (P < 0.0001), increased concentration of the ketogenic amino acid lysine (P = 0.03) and a significant correlation of 3-hydroxybutyrate levels with branched-chained amino acids (leucine, P = 0.02; isoleucine, P = 0.04 [FDR adjusted]) suggested that ketone body synthesis was driven by lipolysis and amino acid breakdown. Interestingly, the catabolic signature was independent of the body mass index, clinically assessed malnutrition using the nutritional risk screening score, and systemic inflammation assessed by CRP and leukocyte count. Longitudinal measurements and principal component analyses revealed a quick normalization of key metabolic alterations seven days post-surgery, including ketosis. Conclusions Together, the quantitative metabolic profile obtained by 1H NMR spectroscopy identified a tumour-induced catabolic signature specific to upper gastrointestinal cancer patients and enabled monitoring restoration of metabolic homeostasis after surgery. This approach was critical to identify the obtained metabolic profile as an upper gastrointestinal cancer-specific signature independent of malnutrition and inflammation. info:eu-repo/classification/ddc/610 ddc:610
47	Metabolomics studies of ALS a multivariate search for clues about a devastating disease / Wuolikainen, Anna, January 2009 (has links) Diss. (sammanfattning) Umeå : Umeå universitet, 2009. / Härtill 5 uppsatser. Även tryckt utgåva.
48	Processus adaptatifs des végétaux marins face au changement climatique à différentes échelles de temps et d'espace : dynamique de populations, métabolomique, écophysiologie et potentiels de valorisation / Adaptative process of marine macrophytes in a context of climatic change at several time and spatial scales : phenology, metabolomic, ecophysiology and bioinspired applications Surget, Gwladys 10 July 2017 (has links) Trois modèles invasifs à large répartition en Europe, le long d'un gradient latitudinal Norvège-Portugal, ont été choisis : Sargassum muticum, Codium fragile et Gracilaria vermiculophylla. Cette thèse a pour objectif l'étude de la phénologie, de l'écophysiologie et du métabolome de ces macrophytes invasifs face à une variation de facteurs environnementaux 1) à une échelle locale, 2) à l'échelle du gradient latitudinal (en lien avec le changement climatique global) ainsi que l'étude 3) des voies de valorisation possibles des métabolites de stress par bio-inspiration. Le gradient latitudinal, se traduisant par un gradient thermique, permet de mimer le réchauffement climatique car les conséquences de ce changement climatique sur les espèces en milieu naturel ne sont généralement appréciables qu'à l'échelle de dizaines d'années. Les suivis de l'écologie, dumétabolome ainsi que des impacts potentiels de ces espèces à une échelle locale en France, a permis d'étudier le développement et le cycle de vie des espèces. En particulier, G. vermiculophylla se caractérise par une phénologie spécifique (avec la prépondérance de petits fragments végétatifs, <3cm) en Rade de Brest et par une tolérance accrue à l'envasement jusqu'à 12 cm de profondeur en acclimatant son métabolome tout en maintenant une physiologie dormante. Cette espèce ingénieur impacte en profondeur l'écosystème vaseux de la Rade. Le suivi le long du gradient latitudinal a permis d'illustrer la plasticité phénologique des espèces et notamment un potentiel invasif contrasté de C. fragile entre les différentes latitudes. Lors de marée basse de vives eaux, les espèces présentent une acclimatation de leur photo-physiologie en fonction de la latitude avec la mise en évidence d'une photoinhibition du PSll, lié au stress engendré par les conditions environnementales.Enfin, ce travail a illustré les propriétés multifonctionnelles d'extraits enrichis en composés phénoliques, présentant des activités antioxydantes mais également photoprotectrices ou ostéogéniques, soulignant l'émergence de voies de valorisation originales par bio-inspiration pour divers secteurs tels que la cosmétologie et les biomatériaux en santé humaine. / Three model species with a large distribution along European coasts, along a latitudinal gradient from Norway to Portugal was chosen: Sargassum muticum, Codium fragile and Gracilaria vermiculophylla. The aims of this PhD thesis were to study the phenology, ecophysiology and the metabolom of these non-native marine macrophytes and their ability to cope with a variation of environmental factors 1) at a population scale, 2) along the latitudinal gradient (in relation with the global climatic change) and to propose 3) bio-inspired molecules for industrial purposes. The latitudinal gradient corresponding to a thermic gradient, allows to imitate the global warming as climatic change ¡mpacts are most of the time only visible at decennial scale.Monitorings of ecology, metabolome and potential impacts of these macroalgae, at a population scale, allowed to study the development and life cycle of these models. In particular, G. vermiculophylla exhibited a specific phenology (with a majority of small vegetative fragments, <3cm) in the Bay of Brest and a highly tolerance to burial until 12 cm depth in the sediment by acclimatizing its metabolome together with the ability to maintain a dormancy physiology. This engineer species modifies deeply muddy shores of this Bay. Latitunal gradients's monitoring highlighted the phenological plasticity and a contrasted invasive potential of C.fragile between latitudes. During low spring tides, species exhibited an acclimation of their photophysiology between latitudes with photoinhibition process related to induce environmental stress. Furthermore, this work showed the multifunctional properties of polyphenols enriched extracts with antioxidant, photoprotective or osteogenic activities, highlighting the emergence of original bio-inspired pathways for cosmetic or biomaterial applications. Gracilaria vermiculophylla Sargassum muticum Codium fragile Invasions biologiques Gradient latitudinal Phénologie Métabolome Photo-physiologie Impacts Envasement Activités biologiques Gracilaria vermiculophylla Sargassum muticum Codium fragile Biological invasions Latitudinal gradient Phenology Metabolome Photo-physiology Impacts Burial Biological activities 579.8
49	Metagenomic and Metabolomic Approaches to Determine Contributors to Residual Cardiovascular Disease Risk Ferrell, Marc 26 May 2023 (has links) No description available. Analytical Chemistry Animals Bioinformatics Biochemistry Biology Biostatistics Food Science Genetics Health Medicine Microbiology Molecular Biology Nutrition Organic Chemistry Public Policy Molecular Chemistry Molecules

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