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Métabolisme --- Metabolism --- Plante de culture --- Crops --- Cellule --- cells --- Racine --- Roots --- Graine --- Seeds --- Amidon --- Starch --- Protéine --- proteins --- Lipide --- Lipids --- Zea mays --- Ricinus communis --- Blé --- Wheats --- Respiration --- Plaste --- Plastids --- Plant cell compartmentation --- -Plant cells and tissues --- -Plants --- #KVIV:BB --- Flora --- Plant kingdom --- Plantae --- Vascular plants --- Vegetable kingdom --- Vegetation --- Wildlife --- Organisms --- Botany --- Plant tissues --- Cells --- Plant anatomy --- Tissues --- Compartmentation, Plant cell --- Cell compartmentation --- Congresses --- -Congresses. --- Plant cells and tissues --- Plants --- Metabolism&delete& --- PLANT CELLS --- PLANT METABOLISM --- NATURAL PRODUCTS --- MEETINGS --- COMPARTMENTATION --- STORAGE --- Tissu non-photosynthetique --- Compartimentation --- Glyoxysome

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Due to their sessile lifestyle, plants need to efficiently adapt to changing environmental conditions during their life cycle. Nutrient acquisition from the soil has to be able to adapt to considerable fluctuations in concentrations to ensure adequate distribution between tissues, cells and organelles. The storage and retrieval of nutrients, metabolites or toxic substances in vacuoles plays an important part in cellular homeostasis in plants. The long-range transport and maintenance of turgor is critically dependent on the availability of water and rate of evaporation, while at the same time photosynthetic products have to be transported to all plant parts. As a result plants contain a large number of ATP-dependent pumps and secondary transporters that, in order to adapt to the changing environment, need to be regulated by a complex network of sensing and signaling mechanisms. Plants share many basic elements of signal transduction with animals, but also contain plant-specific signaling molecules and mechanisms. In this volume, the role of transporters and pumps in the regulation of movement, long-range transport and compartmentalization of water, solutes, nutrients and classical signaling molecules is highlighted, and the function, regulation and membrane-transporter interaction and their roles in plant signaling controlling plant physiology and development are discussed.

Gene Expression Regulation, Plant. --- Plant cellular signal transduction. --- Plant molecular biology. --- Plant Physiological Phenomena. --- Plants -- growth & development. --- Signal Transduction. --- Plant cellular signal transduction --- Carrier proteins --- Plant cellular control mechanisms --- Plant cell compartmentation --- Plant physiology --- Botany --- Earth & Environmental Sciences --- Plant Physiology --- Life sciences. --- Plant biochemistry. --- Plant science. --- Botany. --- Plant physiology. --- Life Sciences. --- Plant Physiology. --- Plant Biochemistry. --- Plant Sciences. --- Cellular signal transduction --- Biochemistry. --- Botanical science --- Phytobiology --- Phytography --- Phytology --- Plant biology --- Plant science --- Biology --- Natural history --- Plants --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Chemistry --- Medical sciences --- Physiology --- Composition --- Phytochemistry --- Plant biochemistry --- Plant chemistry --- Biochemistry --- Phytochemicals --- Plant biochemical genetics --- Floristic botany