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GAMETOGENESIS --- HIGHER PLANTS --- REPRODUCTION --- CYTOLOGY --- SEX --- MONOGRAPHS --- SEEDS --- EMBRYOGENESIS --- FECUNDATION --- CYTOLOGY --- GAMETOGENESIS --- HIGHER PLANTS --- REPRODUCTION --- CYTOLOGY --- SEX --- MONOGRAPHS --- SEEDS --- EMBRYOGENESIS --- FECUNDATION --- CYTOLOGY
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REPRODUCTION FISHES --- SEX BEHAVIOR, ANIMAL --- FISHES --- FISHES --- FISHES --- FISHES --- REPRODUCTION --- BIOLOGICAL DEVELOPMENT --- FISHES --- FISHES --- FISHES --- REPRODUCTION --- GAMETOGENESIS --- FECUNDATION --- DIVERSITY --- DIVERSITY --- BIODIVERSITY --- SEXUALITY --- EGGS --- REPRODUCTION FISHES --- SEX BEHAVIOR, ANIMAL --- FISHES --- FISHES --- FISHES --- FISHES --- REPRODUCTION --- BIOLOGICAL DEVELOPMENT --- FISHES --- FISHES --- FISHES --- REPRODUCTION --- GAMETOGENESIS --- FECUNDATION --- DIVERSITY --- DIVERSITY --- BIODIVERSITY --- SEXUALITY --- EGGS
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Developmental biology --- Embryology --- Biologie du développement --- Embryologie --- Developmental Biology --- Biologie du développement. --- Embryologie. --- Biologie du développement --- Monograph --- Gametogenesis --- Biological development --- Morphogenesis --- Fecundation --- Embryonic development --- Organogenesis --- Animals --- Development --- Cleavage stage, Ovum --- Cell differentiation --- Fertility --- Cells --- Cell recognition --- Interactions --- Genetics
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Comment le spermatozoïde et l'œuf interagissent-ils pour former un nouvel organisme? Comment une seule cellule donne-t-elle naissance à tous les types cellulaires d'un organisme adulte? Comment les neurones arrivent-t-ils à établir leurs connexions avec les autres neurones et les tissus périphériques? Comment se forment les organes? Autant de questions qui montrent le rôle éminent de la biologie du développement car elle intègre toutes les facettes de la biologie et joue le rôle crucial d'établir une relation entre génotype et phénotype. On peut étudier ainsi le développement à partir de n'importe quel organisme et à n'importe quel niveau d'organisation, de la molécule à l'espèce. La nouvelle édition de Biologie du développement a été profondément remaniée pour intégrer les acquis de la révolution génétique. Elle comporte notamment trois chapitres d'introduction qui exposent les données de base sur l'analyse génétique et sur les membranes cellulaires. les chapitres consacrés à la génétique du développement précèdent ceux qui examinent la spécification des axes de l'organisme et la détermination des premiers types cellulaires. En outre, pour respecter les approches biologiques et moléculaires, certaines frontières séparant la biologie du développement et ses disciplines connexes, comme la biologie de l'évolution et la génétique, ont été abolies.
Biologie --- Developmental Biology --- Embryology --- Developmental biology --- Biologie du développement --- Embryologie --- ontwikkelingsbiologie --- biologie du développement --- Biologie du développement --- Developmental Biology. --- Embryology. --- Gametogenesis --- Biological development --- Morphogenesis --- Fecundation --- Embryonic development --- Organogenesis --- Animals --- Development --- Cleavage stage, Ovum --- Cell differentiation --- Fertility --- Cells --- Cell recognition --- Genetics --- Interactions
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Biological Agents --- Structure cellulaire --- cell structure --- Morphogénèse --- Différenciation cellulaire --- Botany --- Pharmacognosy --- Plants --- Biology --- plants --- Évolution --- evolution --- Morphogenesis --- Cell differentiation --- Plantes --- Composition --- Chemistry --- evolution. --- Chemistry. --- PLANT REPRODUCTION --- VEGETATIVE PROPAGATION --- SEXUAL REPRODUCTION --- DEVELOPMENTAL STAGES --- PHANEROGAMS --- GAMETOPHYTE --- GAMETES --- FECUNDATION --- TEXTBOOKS --- FLOWERS --- PLANTS --- CELL BIOLOGY --- SECONDARY EDUCATION --- EVOLUTION --- TRACHEOPHYTA --- THALLOPHYTA --- PROTOPHYTA --- VEGETATIVE DEVELOPMENT --- COMPARATIVE ANATOMY --- COMPARATIVE MORPHOLOGY
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General embryology. Developmental biology --- Developmental biology. --- Embryology. --- Biologie du développement --- Embryologie --- Embryology --- Developmental biology --- Developmental Biology. --- 591.16 --- 591.16 Generation. Procreation. Reproduction. Breeding. Biogenesis --- Generation. Procreation. Reproduction. Breeding. Biogenesis --- Biologie du développement --- Animal embryology --- Animals --- Development, Embryological --- Development, Embryonic --- Development, Zygotic --- Embryogenesis --- Embryogeny --- Embryological development --- Embryonic development --- Zoology --- Zygote development --- Zygotes --- Zygotic development --- Zygotic embryogenesis --- Morphology (Animals) --- Embryos --- Reproduction --- Development (Biology) --- Biology --- Growth --- Ontogeny --- Development --- Developmental Biology --- Gametogenesis --- Biological development --- Morphogenesis --- Fecundation --- Organogenesis --- Cleavage stage, Ovum --- Cell differentiation --- Fertility --- Cells --- Cell recognition --- Genetics --- Interactions
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In this Special Issue, we have published papers on the health-promoting effects of nutraceuticals from different sources, and their effects in different pathologies. Extracts from plants have been analyzed, for example, extracts from olive leaves, Mikania micrantha, the devil’s claw, raspberries and others, alongside marine phytoplankton, egg-yolk and marketed dietary supplements. The effects of these extracts and dietary supplements have been studied in diseases associated with obesity, and in diseases where inflammation pathways are involved. The effectiveness of resveratrol and curcumin to support the anticancer activity of cisplatin has also been reported, as well as the ability of devil’s claw root extract to stimulate the CB2 receptors in synoviocytes in osteoarthritis patients. The anti-oxidant effect of marine phytoplankton has been studied on muscle damage, both in humans and in an animal model, and the effects of the metabolite of antocianin were analyzed in a mouse model of amyotrophic lateral sclerosis. Finally, reviews on the use of lactoferrin, ω3 and ω6 and abscisic acid have been reported, in addition to the crosstalk between prostate cancer and microbiota inflammation. Although it is not yet possible to draw definitive conclusions on the use of nutraceuticals, several mechanisms of action for many of them have been further clarified.
Humanities --- Social interaction --- fertility --- ingredients --- male reproduction --- semen parameters --- supplements --- allithiamine --- garlic --- hyperglycaemia --- advanced glycation end-products --- cytokines --- abscisic acid --- prediabetes --- type 2 diabetes mellitus --- metabolic syndrome --- insulin resistance --- adipocyte browning --- AMP-activated protein kinase --- food supplement --- frambinone --- meal frequency --- open-field test --- elevated plus maze --- sensory motor gating --- pre-pulse inhibition --- c-Fos --- amyotrophic lateral sclerosis --- anti-inflammatory --- antioxidant --- phenolic acid --- neuroprotective --- neurodegeneration --- obesity --- overweight --- beta-glucans --- chitosan --- follow up study --- weight loss programs --- weight gain --- weight loss --- body weight changes --- phytoplankton --- antioxidants --- muscle damage --- muscle recovery --- muscle soreness --- Viburnum opulus --- phenolic compounds --- adipogenesis --- PPARγ --- lipase inhibition --- green tea --- epigallocatechin --- lipid profile --- high-fat diet --- fast food --- osteoarthritis --- nutraceuticals --- polyphenols --- volatile compounds --- β-caryophyllene --- eugenol --- FAAH --- cannabinoid receptors --- phospholipases --- lactoferrin --- bovine milk --- nutraceutical --- human health --- resveratrol --- curcumin --- cisplatin --- head and neck cancer --- cell cycle --- apoptosis --- prostate cancer --- microbiota --- nutraceutical compounds --- fecundation --- inflammation --- cytokine --- growth factors --- metabolomics --- lipidomics --- ω-3PUFAs --- ω-6PUFAs --- endocannabinoids --- CRC --- fatty acids --- Gymnema inodorum --- gymnemic acid --- Mikania micrantha --- anti-hypercholesterolemia --- steatosis --- olive leaf --- macrophages --- fertility --- ingredients --- male reproduction --- semen parameters --- supplements --- allithiamine --- garlic --- hyperglycaemia --- advanced glycation end-products --- cytokines --- abscisic acid --- prediabetes --- type 2 diabetes mellitus --- metabolic syndrome --- insulin resistance --- adipocyte browning --- AMP-activated protein kinase --- food supplement --- frambinone --- meal frequency --- open-field test --- elevated plus maze --- sensory motor gating --- pre-pulse inhibition --- c-Fos --- amyotrophic lateral sclerosis --- anti-inflammatory --- antioxidant --- phenolic acid --- neuroprotective --- neurodegeneration --- obesity --- overweight --- beta-glucans --- chitosan --- follow up study --- weight loss programs --- weight gain --- weight loss --- body weight changes --- phytoplankton --- antioxidants --- muscle damage --- muscle recovery --- muscle soreness --- Viburnum opulus --- phenolic compounds --- adipogenesis --- PPARγ --- lipase inhibition --- green tea --- epigallocatechin --- lipid profile --- high-fat diet --- fast food --- osteoarthritis --- nutraceuticals --- polyphenols --- volatile compounds --- β-caryophyllene --- eugenol --- FAAH --- cannabinoid receptors --- phospholipases --- lactoferrin --- bovine milk --- nutraceutical --- human health --- resveratrol --- curcumin --- cisplatin --- head and neck cancer --- cell cycle --- apoptosis --- prostate cancer --- microbiota --- nutraceutical compounds --- fecundation --- inflammation --- cytokine --- growth factors --- metabolomics --- lipidomics --- ω-3PUFAs --- ω-6PUFAs --- endocannabinoids --- CRC --- fatty acids --- Gymnema inodorum --- gymnemic acid --- Mikania micrantha --- anti-hypercholesterolemia --- steatosis --- olive leaf --- macrophages
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