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Paramecium --- Paramecium
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Paramecium. --- Paramecium. --- Paramecium. --- Paramécies.
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Paramecium --- taxonomy --- Identification --- identification --- identification. --- Ciliés.
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Endosymbiosis is a primary force in eukaryotic cell evolution. In order to understand the molecular mechanisms involved in this mutualistic relationship, experiments to reproduce endosymbiosis are indispensable. The ciliate "Paramecium" is an ideal host for performing such studies. Topics presented in this volume are: the origins of algal and bacterial symbionts in "Paramecium", the diversity of endosymbiotic bacteria, such as "Holospora" bacteria and especially "Chlorella" species, as well as the infection and maintenance processes. The metabolic control, the regulation of circadian rhythms and photobiological aspects of the mutualistic association, as well as the killer effect of "Paramecium" and its causative agents are further points discussed.
Chlorella. --- Endosymbiosis. --- Host-bacteria relationships. --- Paramecium. --- Paramecium --- Endosymbiosis --- Chlorella --- Host-bacteria relationships --- Chlorophyta --- Alphaproteobacteria --- Classification --- Biological Processes --- Biological Evolution --- Genetic Phenomena --- Microbial Interactions --- Peniculina --- Viridiplantae --- Biological Phenomena --- Phenomena and Processes --- Information Science --- Microbiological Processes --- Proteobacteria --- Hymenostomatida --- Bacteria --- Oligohymenophorea --- Microbiological Phenomena --- Plants --- Ciliophora --- Organisms --- Eukaryota --- Alveolata --- Phylogeny --- Symbiosis --- Holosporaceae --- Earth & Environmental Sciences --- Zoology --- Health & Biological Sciences --- Ecology --- Invertebrates & Protozoa --- Cytology. --- Paramaecium --- Endosymbiotic relationships --- Life sciences. --- Cell biology. --- Microbiology. --- Life Sciences. --- Cell Biology. --- Parameciidae --- Bacteria-host relationships --- Relationships, Host-bacteria --- Host-parasite relationships --- Chlorellaceae
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VIRUSES --- CELLS --- TRANSFORMATION --- PARAMECIUM --- ELECTROPHYSIOLOGY --- CELL JUNCTIONS --- AUTORADIOGRAPHY --- MYCOPLASMA --- DETECTION --- ISOLATION --- NUCLEAR ENVELOPE --- DNA --- CHROMATIN --- ENUCLEATED CELLS --- SYNCHRONIZATION --- MOLECULAR CLONING --- BATCH CULTURE --- REVERTANTS --- REPLICATE CELLS --- MUTANTS --- CELL BIOLOGY --- TRANSFORMATION --- REVERTANTS --- DETECTION --- ISOLATION --- CULTURES --- ISOLATION --- METHODS --- VIRUSES --- CELLS --- TRANSFORMATION --- PARAMECIUM --- ELECTROPHYSIOLOGY --- CELL JUNCTIONS --- AUTORADIOGRAPHY --- MYCOPLASMA --- DETECTION --- ISOLATION --- NUCLEAR ENVELOPE --- DNA --- CHROMATIN --- ENUCLEATED CELLS --- SYNCHRONIZATION --- MOLECULAR CLONING --- BATCH CULTURE --- REVERTANTS --- REPLICATE CELLS --- MUTANTS --- CELL BIOLOGY --- TRANSFORMATION --- REVERTANTS --- DETECTION --- ISOLATION --- CULTURES --- ISOLATION --- METHODS
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In the past three decades, a stream of criminological inquiry has emerged which explores, measures, and theorizes crimes and harms to the environment at the micro-, mezzo-, and macro-levels. This “green criminology”, as it has come to be known, has widened the criminological gaze to consider crimes and harms committed against air, land (from forests to wetlands), nonhuman animals, and water in local, regional, national, and international areas or arenas. Accordingly, green criminology has endeavored to understand the causes and consequences of air and water pollution, biodiversity loss, climate change, corporate environmental crime (e.g., illegal waste disposal), food production and distribution, resource extraction and exploitation, and wildlife trade and trafficking, while also exploring potential responses to these issues. This book seeks to introduce the green criminological perspective to a broader social science audience. Recognizing that green criminology is not the first social science to explore the phenomena and harms at the intersections of humanity and ecology, this book offers an introduction to some of the unique insights developed over nearly 30 years of green criminological thought and scholarship to students, professors, researchers, and practitioners working in the fields of anthropology, economics, environmental humanities, environmental sociology, geography, history, and political ecology. This book contains contributions from researchers in green criminology from around the world, including early- and mid-career scholars, as well as more established voices in the field—all of whom are dedicated to exposing, understanding, and ultimately hoping to thwart further environmental degradation and despoliation.
biogeography --- ciliates --- Paramecium quindecaurelia --- cytochrome C oxidase subunit I gene --- sibling species --- species concept in protists --- bacterial symbionts --- symbiosis --- intranuclear bacteria --- Holospora --- Gortzia --- Paramecium --- Micractinium tetrahymenae --- Tetrahymena --- Utricularia --- facultative endosymbiosis --- ciliate-algae symbiosis --- Chlorella variabilis --- Micractinium conductrix --- diagnostic PCR --- ciliate–algae symbiosis --- Holospora-like bacteria --- host–parasite interactions --- 16S rRNA gene --- full-cycle rRNA approach --- TEM --- fluorescence in situ hybridization --- algal-ciliate symbiosis --- mycosporine-like amino acids --- Pelagodileptus trachelioides --- planktonic freshwater ciliates --- Stokesia vernalis --- Vorticella chlorellata --- Chlorella --- endosymbiosis --- intracellular algae --- Micractinium --- photobiont --- infection --- syngen --- n/a --- host-parasite interactions
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In the past three decades, a stream of criminological inquiry has emerged which explores, measures, and theorizes crimes and harms to the environment at the micro-, mezzo-, and macro-levels. This “green criminology”, as it has come to be known, has widened the criminological gaze to consider crimes and harms committed against air, land (from forests to wetlands), nonhuman animals, and water in local, regional, national, and international areas or arenas. Accordingly, green criminology has endeavored to understand the causes and consequences of air and water pollution, biodiversity loss, climate change, corporate environmental crime (e.g., illegal waste disposal), food production and distribution, resource extraction and exploitation, and wildlife trade and trafficking, while also exploring potential responses to these issues. This book seeks to introduce the green criminological perspective to a broader social science audience. Recognizing that green criminology is not the first social science to explore the phenomena and harms at the intersections of humanity and ecology, this book offers an introduction to some of the unique insights developed over nearly 30 years of green criminological thought and scholarship to students, professors, researchers, and practitioners working in the fields of anthropology, economics, environmental humanities, environmental sociology, geography, history, and political ecology. This book contains contributions from researchers in green criminology from around the world, including early- and mid-career scholars, as well as more established voices in the field—all of whom are dedicated to exposing, understanding, and ultimately hoping to thwart further environmental degradation and despoliation.
Law --- Drugs trade / drug trafficking --- biogeography --- ciliates --- Paramecium quindecaurelia --- cytochrome C oxidase subunit I gene --- sibling species --- species concept in protists --- bacterial symbionts --- symbiosis --- intranuclear bacteria --- Holospora --- Gortzia --- Paramecium --- Micractinium tetrahymenae --- Tetrahymena --- Utricularia --- facultative endosymbiosis --- ciliate-algae symbiosis --- Chlorella variabilis --- Micractinium conductrix --- diagnostic PCR --- ciliate-algae symbiosis --- Holospora-like bacteria --- host-parasite interactions --- 16S rRNA gene --- full-cycle rRNA approach --- TEM --- fluorescence in situ hybridization --- algal-ciliate symbiosis --- mycosporine-like amino acids --- Pelagodileptus trachelioides --- planktonic freshwater ciliates --- Stokesia vernalis --- Vorticella chlorellata --- Chlorella --- endosymbiosis --- intracellular algae --- Micractinium --- photobiont --- infection --- syngen --- biogeography --- ciliates --- Paramecium quindecaurelia --- cytochrome C oxidase subunit I gene --- sibling species --- species concept in protists --- bacterial symbionts --- symbiosis --- intranuclear bacteria --- Holospora --- Gortzia --- Paramecium --- Micractinium tetrahymenae --- Tetrahymena --- Utricularia --- facultative endosymbiosis --- ciliate-algae symbiosis --- Chlorella variabilis --- Micractinium conductrix --- diagnostic PCR --- ciliate-algae symbiosis --- Holospora-like bacteria --- host-parasite interactions --- 16S rRNA gene --- full-cycle rRNA approach --- TEM --- fluorescence in situ hybridization --- algal-ciliate symbiosis --- mycosporine-like amino acids --- Pelagodileptus trachelioides --- planktonic freshwater ciliates --- Stokesia vernalis --- Vorticella chlorellata --- Chlorella --- endosymbiosis --- intracellular algae --- Micractinium --- photobiont --- infection --- syngen
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Cytoplasmic inheritance --- Mitochondria --- Chloroplasts --- Chloroplasts. --- Cytogenetics. --- Mitochondria. --- Cytogenetics --- Chondriosomes --- Cell organelles --- Protoplasm --- Cytoplasmic heredity --- Heredity --- Cytology --- Genetics --- Chloroplastids --- Chromatophores --- Plastids --- Mitochondrion --- Mitochondrial Contraction --- Contraction, Mitochondrial --- Contractions, Mitochondrial --- Mitochondrial Contractions --- Cytogenetic --- Cytogenetic Analysis --- Chromosome Disorders --- Sex Chromosome Disorders --- Chloroplast --- Etioplasts --- Etioplast --- Cytoplasmic inheritance. --- Genetics. --- BIOGENESIS --- ORGANELLES --- PROTEIN SYNTHESIS --- MITOCHONDRIA --- CHLOROPLASTS --- HIGHER PLANTS --- EUGLENA --- CHLAMYDOMONAS --- ANIMAL CELLS --- TISSUE CULTURE --- HORSES --- TOADS --- PARAMECIUM --- NEUROSPORA --- YEASTS --- CYTOGENETICS --- HEREDITY --- CYTOPLASM
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