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The central nervous system represents the organ with the highest structural and functional complexity. Uncovering the mechanisms leading to cell diversity, patterning and connectivity in the CNS is one of the major challenges in developmental biology. This book provides an overview of some major facets of research on Drosophila brain development.
Biomedicine. --- Biomedicine general. --- Medicine. --- Médecine --- Brain --- Developmental neurobiology. --- Drosophila melanogaster --- Growth. --- Development. --- embryology. --- growth & development. --- Brain -- Embryology. --- Brain -- Growth. --- Drosophila melanogaster -- Development. --- Drosophila melanogaster -- Growth & development. --- Developmental neurobiology --- Physiological Processes --- Anatomy --- Central Nervous System --- Drosophila --- Nervous System --- Drosophilidae --- Physiological Phenomena --- Biological Science Disciplines --- Phenomena and Processes --- Natural Science Disciplines --- Diptera --- Insects --- Disciplines and Occupations --- Arthropods --- Invertebrates --- Animals --- Eukaryota --- Organisms --- Growth and Development --- Embryology --- Zoology --- Health & Biological Sciences --- Invertebrates & Protozoa --- Development --- Growth --- Developmental neurology --- Neurogenesis --- Drosophila ampelophila --- Clinical sciences --- Medical profession --- Human biology --- Life sciences --- Medical sciences --- Pathology --- Physicians --- Developmental biology --- Neurobiology --- Nervous system --- Neuroplasticity --- Evolution --- Health Workforce --- Embryology. --- Growth & development. --- Biomedicine, general.
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Microalgae have been largely cultured and commercialized as food and feed additives, and their potential as source of high-added value compounds is well known. But, in contrast to the large number of genetically modified bacteria, yeast and even higher plants, only a few species of microalgae have been genetically transformed with efficiency. Initial difficulties in the expression of foreign genes in microalgae have been progressively overcome, and powerful molecular tools for their genetic engineering are now on hand. A considerable collection of promoters and selectable marker genes and an increasing number of genomic or cDNA sequences have become available in recent years. More work is needed to transform new species of microalgae, specially those that have commercial value, so that it would be possible to increase the productivity of traditional compounds or synthesize novel ones. Silencing transgenes remains as an important limitation for stable expression of foreign genes. This problem is not unique to microalgae since it has also been observed in plants, animals and fungi. A better understanding of the mechanisms that control the regulation of gene expression in eukaryotes is therefore needed. In this book a group of outstanding researchers working on different areas of microalgae biotechnology offer a global vision of the genetic manipulation of microalgae and their applications.
Algae --- Biological Factors --- Bioreactors. --- Biotechnology --- Genetic transformation. --- Microalgae --- Transformation, Genetic. --- physiology. --- biosynthesis. --- methods. --- Biotechnology. --- Physiology. --- Plant science. --- Botany. --- Cell biology. --- Microbial ecology. --- Plant Sciences. --- Cell Biology. --- Microbial Ecology. --- Environmental microbiology --- Microorganisms --- Ecology --- Microbiology --- Botanical science --- Floristic botany --- Phytobiology --- Phytography --- Phytology --- Plant biology --- Plant science --- Biology --- Natural history --- Plants --- Cell biology --- Cellular biology --- Cells --- Physiology
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