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Publication DateApplied Microbiology and Biotechnology, ISSN 0175-7598, 6/2011, Volume 90, Issue 6, pp. 1847 - 1868
The photocatalytic properties of titanium dioxide are well known and have many applications including the removal of organic contaminants and production of...
Antimicrobial | Biotechnology | Chemistry | Microbiology | Microbial Genetics and Genomics | Photocatalysis | ROS | Disinfection | TiO 2 | Titania | Mechanism | TiO | PHOTOINDUCED BACTERICIDAL ACTIVITY | ELECTRIC-FIELD ENHANCEMENT | CHEMICAL-VAPOR-DEPOSITION | PLASMID DNA-DAMAGE | ESCHERICHIA-COLI SUSPENSIONS | COMPOUND PARABOLIC COLLECTORS | WATER DISINFECTION | TIO2 THIN-FILMS | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | LASER KINETIC SPECTROSCOPY | TiO2 | VISIBLE-LIGHT IRRADIATION | Cell Survival - drug effects | Fungi - drug effects | Microbial Viability - drug effects | Bacteria - drug effects | Disinfection - methods | Viruses - drug effects | Chlorophyta - drug effects | Disinfectants - metabolism | Amoebozoa - drug effects | Titanium - metabolism | Photochemical Processes | Hydrogen peroxide | Hydroxides | Catalysis | Titanium dioxide | Analysis | Infection control | Studies | Antimicrobial agents | Disinfection & disinfectants
Antimicrobial | Biotechnology | Chemistry | Microbiology | Microbial Genetics and Genomics | Photocatalysis | ROS | Disinfection | TiO 2 | Titania | Mechanism | TiO | PHOTOINDUCED BACTERICIDAL ACTIVITY | ELECTRIC-FIELD ENHANCEMENT | CHEMICAL-VAPOR-DEPOSITION | PLASMID DNA-DAMAGE | ESCHERICHIA-COLI SUSPENSIONS | COMPOUND PARABOLIC COLLECTORS | WATER DISINFECTION | TIO2 THIN-FILMS | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | LASER KINETIC SPECTROSCOPY | TiO2 | VISIBLE-LIGHT IRRADIATION | Cell Survival - drug effects | Fungi - drug effects | Microbial Viability - drug effects | Bacteria - drug effects | Disinfection - methods | Viruses - drug effects | Chlorophyta - drug effects | Disinfectants - metabolism | Amoebozoa - drug effects | Titanium - metabolism | Photochemical Processes | Hydrogen peroxide | Hydroxides | Catalysis | Titanium dioxide | Analysis | Infection control | Studies | Antimicrobial agents | Disinfection & disinfectants
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Loading RightsMolecular Ecology, ISSN 0962-1083, 07/2011, Volume 20, Issue 14, pp. 3056 - 3070
Fruiting body lectins are ubiquitous in higher fungi and characterized by being synthesized in the cytoplasm and up‐regulated during sexual development. The...
toxicity | insect | glycan | amoebozoa | nematode | carbohydrate | SCLEROTIUM-ROLFSII LECTIN | CRYSTAL-STRUCTURE | BIOCHEMISTRY & MOLECULAR BIOLOGY | FUNCTIONAL-CHARACTERIZATION | ALEURIA-AURANTIA LECTIN | COPRINUS-CINEREUS | COPRINOPSIS-CINEREA | EVOLUTIONARY BIOLOGY | CAENORHABDITIS-ELEGANS | STRUCTURAL BASIS | PLANT DEFENSE | ECOLOGY | XEROCOMUS-CHRYSENTERON LECTIN | Acanthamoeba castellanii - drug effects | Cytoplasm - chemistry | Fungal Proteins - toxicity | Feeding Behavior | Aedes - drug effects | Fungi - chemistry | Polysaccharides - metabolism | Mycelium - metabolism | Animals | Caenorhabditis elegans - drug effects | Escherichia coli - genetics | Cloning, Molecular | Escherichia coli - metabolism | Fruiting Bodies, Fungal - chemistry | Lectins - toxicity | Lectins | Caenorhabditis elegans | Mosquitoes | Polysaccharides | Fungi | Insects | Toxicity | Nematodes | Biosynthesis | Ecology | Cytoplasm
toxicity | insect | glycan | amoebozoa | nematode | carbohydrate | SCLEROTIUM-ROLFSII LECTIN | CRYSTAL-STRUCTURE | BIOCHEMISTRY & MOLECULAR BIOLOGY | FUNCTIONAL-CHARACTERIZATION | ALEURIA-AURANTIA LECTIN | COPRINUS-CINEREUS | COPRINOPSIS-CINEREA | EVOLUTIONARY BIOLOGY | CAENORHABDITIS-ELEGANS | STRUCTURAL BASIS | PLANT DEFENSE | ECOLOGY | XEROCOMUS-CHRYSENTERON LECTIN | Acanthamoeba castellanii - drug effects | Cytoplasm - chemistry | Fungal Proteins - toxicity | Feeding Behavior | Aedes - drug effects | Fungi - chemistry | Polysaccharides - metabolism | Mycelium - metabolism | Animals | Caenorhabditis elegans - drug effects | Escherichia coli - genetics | Cloning, Molecular | Escherichia coli - metabolism | Fruiting Bodies, Fungal - chemistry | Lectins - toxicity | Lectins | Caenorhabditis elegans | Mosquitoes | Polysaccharides | Fungi | Insects | Toxicity | Nematodes | Biosynthesis | Ecology | Cytoplasm
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Loading RightsActa Tropica, ISSN 0001-706X, 08/2011, Volume 119, Issue 2-3, pp. 138 - 143
The efficacy of simulated solar disinfection (SODIS) against helminth and protozoan organisms in the presence and absence of 250 μM riboflavin. The table shows...
Drinking water | Giardia | Acanthamoeba | Ascaris and SODIS | RIBOFLAVIN | SURVIVAL | ESCHERICHIA-COLI | PARVUM OOCYSTS | TROPICAL MEDICINE | PLASTIC BOTTLES | INACTIVATION | POLYPHAGA | DNA | HYDROGEN-PEROXIDE | DRINKING-WATER | PARASITOLOGY | Cell Survival - drug effects | Riboflavin - toxicity | Helminths - drug effects | Amoebozoa - drug effects | Cell Survival - radiation effects | Animals | Flow Cytometry | Microscopy | Disinfection - methods | Survival Analysis | Sunlight | Amoebozoa - radiation effects | Helminths - radiation effects | Infection control
Drinking water | Giardia | Acanthamoeba | Ascaris and SODIS | RIBOFLAVIN | SURVIVAL | ESCHERICHIA-COLI | PARVUM OOCYSTS | TROPICAL MEDICINE | PLASTIC BOTTLES | INACTIVATION | POLYPHAGA | DNA | HYDROGEN-PEROXIDE | DRINKING-WATER | PARASITOLOGY | Cell Survival - drug effects | Riboflavin - toxicity | Helminths - drug effects | Amoebozoa - drug effects | Cell Survival - radiation effects | Animals | Flow Cytometry | Microscopy | Disinfection - methods | Survival Analysis | Sunlight | Amoebozoa - radiation effects | Helminths - radiation effects | Infection control
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Loading RightsParasitology Research, ISSN 0932-0113, 2/2019, Volume 118, Issue 2, pp. 641 - 651
Acanthamoeba is a widely distributed opportunistic parasite which causes a vision-threatening keratitis and a life-threatening encephalitis. The cyst stage of...
Cytochrome c | Medical Microbiology | Biomedicine | Immunology | Microbiology | G418 | Acanthamoeba | Programmed cell death | Amoebozoa | Apoptosis | STRAINS | PROTOZOAN | GENOTYPE | MECHANISMS | INDUCTION | IDENTIFICATION | STATINS | SEQUENCE ALIGNMENT | PARASITOLOGY | Cell Nucleus - metabolism | Acanthamoeba - drug effects | Amebicides - pharmacology | Apoptosis - drug effects | Calcium - metabolism | Gentamicins - pharmacology | Cytochromes c - metabolism | Humans | Mitochondria - metabolism | Cytochromes | Cell death | Health aspects | Amoeba | Protozoology - Original Paper
Cytochrome c | Medical Microbiology | Biomedicine | Immunology | Microbiology | G418 | Acanthamoeba | Programmed cell death | Amoebozoa | Apoptosis | STRAINS | PROTOZOAN | GENOTYPE | MECHANISMS | INDUCTION | IDENTIFICATION | STATINS | SEQUENCE ALIGNMENT | PARASITOLOGY | Cell Nucleus - metabolism | Acanthamoeba - drug effects | Amebicides - pharmacology | Apoptosis - drug effects | Calcium - metabolism | Gentamicins - pharmacology | Cytochromes c - metabolism | Humans | Mitochondria - metabolism | Cytochromes | Cell death | Health aspects | Amoeba | Protozoology - Original Paper
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Loading RightsACS Chemical Biology, ISSN 1554-8929, 10/2017, Volume 12, Issue 10, pp. 2498 - 2502
The class of cyclic lipopeptide natural products consists of compounds with a diverse range of bioactivities. In this study, we elucidated the structure of the...
Amebicides - pharmacology | Lipopeptides - pharmacology | Models, Molecular | Lipopeptides - biosynthesis | Peptides, Cyclic - pharmacology | Molecular Structure | Lipopeptides - chemistry | Pseudomonas fluorescens - metabolism | Amoebozoa - drug effects | Peptides, Cyclic - biosynthesis | Gene Expression Regulation, Bacterial - physiology | Peptides, Cyclic - chemistry
Amebicides - pharmacology | Lipopeptides - pharmacology | Models, Molecular | Lipopeptides - biosynthesis | Peptides, Cyclic - pharmacology | Molecular Structure | Lipopeptides - chemistry | Pseudomonas fluorescens - metabolism | Amoebozoa - drug effects | Peptides, Cyclic - biosynthesis | Gene Expression Regulation, Bacterial - physiology | Peptides, Cyclic - chemistry
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Loading RightsJournal of Fish Diseases, ISSN 0140-7775, 11/2012, Volume 35, Issue 11, pp. 839 - 848
Currently, the only effective and commercially used treatment for amoebic gill disease (AGD) in farmed Tasmanian Atlantic salmon is freshwater bathing....
amoebic gill disease | treatment | hyperplasia | parasite | gills | Neoparamoeba | Gills | Parasite | Treatment | Hyperplasia | Amoebic gill disease | MUCUS GLYCOPROTEINS | EFFICACY | LIMITED DEGRADATION | FISHERIES | REINFECTION | MARINE & FRESHWATER BIOLOGY | RESISTANCE | VETERINARY SCIENCES | SEQUENTIAL PATHOLOGY | INFECTION | TURBOT | Amebicides - pharmacology | Amebiasis - veterinary | Hydrogen Peroxide - therapeutic use | Salmo salar | Hydrogen Peroxide - pharmacology | Gills - parasitology | Immersion | Amoebozoa - drug effects | Aquaculture - methods | Amebicides - therapeutic use | Animals | Amebiasis - drug therapy | Fish Diseases - drug therapy | Gills - pathology | Seawater | Usage | Hydrogen peroxide | Salmon | Parasitic diseases
amoebic gill disease | treatment | hyperplasia | parasite | gills | Neoparamoeba | Gills | Parasite | Treatment | Hyperplasia | Amoebic gill disease | MUCUS GLYCOPROTEINS | EFFICACY | LIMITED DEGRADATION | FISHERIES | REINFECTION | MARINE & FRESHWATER BIOLOGY | RESISTANCE | VETERINARY SCIENCES | SEQUENTIAL PATHOLOGY | INFECTION | TURBOT | Amebicides - pharmacology | Amebiasis - veterinary | Hydrogen Peroxide - therapeutic use | Salmo salar | Hydrogen Peroxide - pharmacology | Gills - parasitology | Immersion | Amoebozoa - drug effects | Aquaculture - methods | Amebicides - therapeutic use | Animals | Amebiasis - drug therapy | Fish Diseases - drug therapy | Gills - pathology | Seawater | Usage | Hydrogen peroxide | Salmon | Parasitic diseases
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Loading RightsJournal of Fish Diseases, ISSN 0140-7775, 09/2018, Volume 41, Issue 9, pp. 1403 - 1410
Freshwater bathing is one of the main treatment options available against amoebic gill disease (AGD) affecting multiple fish hosts in mariculture systems....
parasite control | mariculture | freshwater | moderate vs aggressive treatment | Neoparamoeba perurans | SURVIVAL | SALAR L | FISHERIES | MARINE & FRESHWATER BIOLOGY | CAGES | VETERINARY SCIENCES | HYDROGEN-PEROXIDE | SALINITY | LICE | AGD | Fish Diseases - therapy | Gills - parasitology | Amoebozoa - drug effects | Communicable Disease Control - methods | Salmo salar - parasitology | Fish Diseases - parasitology | Amebiasis - therapy | Animals | Fresh Water | Amoebozoa - physiology | Gills - pathology | Amebiasis - parasitology | Seawater | Salmon | Sea-water | Water pollution effects | Ectoparasites | Chemical analysis | Medical treatment | Fresh water | Gills | Tolerance | Duration | Gill disease | Freshwater | Substrates | Detachment | Water analysis | Cell death | Inland water environment | Fish | Freshwater fish | Marine fish | Bathing | Marine aquaculture | Sea water | Aquaculture
parasite control | mariculture | freshwater | moderate vs aggressive treatment | Neoparamoeba perurans | SURVIVAL | SALAR L | FISHERIES | MARINE & FRESHWATER BIOLOGY | CAGES | VETERINARY SCIENCES | HYDROGEN-PEROXIDE | SALINITY | LICE | AGD | Fish Diseases - therapy | Gills - parasitology | Amoebozoa - drug effects | Communicable Disease Control - methods | Salmo salar - parasitology | Fish Diseases - parasitology | Amebiasis - therapy | Animals | Fresh Water | Amoebozoa - physiology | Gills - pathology | Amebiasis - parasitology | Seawater | Salmon | Sea-water | Water pollution effects | Ectoparasites | Chemical analysis | Medical treatment | Fresh water | Gills | Tolerance | Duration | Gill disease | Freshwater | Substrates | Detachment | Water analysis | Cell death | Inland water environment | Fish | Freshwater fish | Marine fish | Bathing | Marine aquaculture | Sea water | Aquaculture
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Loading RightsNanomedicine: Nanotechnology, Biology, and Medicine, ISSN 1549-9634, 2010, Volume 6, Issue 4, pp. 597 - 603
Abstract Amphotericin B was formulated as nanosuspensions to develop a nanoparticulate brain delivery system. Nanosuspensions were produced with different...
Internal Medicine | Two-dimensional polyacrylamide gel electrophoresis | Nanosuspension | Balamuthia mandrillaris | Amphotericin B | High-pressure homogenization | In vitro–in vivo correlation | PROTEIN ADSORPTION PATTERNS | ANIMALS | HUMANS | MENINGOENCEPHALITIS | AGENT | NANOPARTICLES | In vitro-in vivo correlation | ELECTROPHORESIS | FORMULATIONS | ENCEPHALITIS | COLLOIDAL CARRIERS | MEDICINE, RESEARCH & EXPERIMENTAL | NANOSCIENCE & NANOTECHNOLOGY | Polysorbates - chemistry | Amebicides - pharmacology | Mice, Inbred C57BL | Amphotericin B - pharmacology | Amoebozoa - drug effects | Brain - drug effects | Amoebozoa - metabolism | Amebicides - chemistry | Animals | Amphotericin B - administration & dosage | Nanostructures - chemistry | Female | Mice | Amebicides - administration & dosage | Amphotericin B - chemistry | Drug Delivery Systems - methods | Amebiasis - parasitology | Brain - parasitology | Antiparasitic agents | Surface active agents | Adsorption
Internal Medicine | Two-dimensional polyacrylamide gel electrophoresis | Nanosuspension | Balamuthia mandrillaris | Amphotericin B | High-pressure homogenization | In vitro–in vivo correlation | PROTEIN ADSORPTION PATTERNS | ANIMALS | HUMANS | MENINGOENCEPHALITIS | AGENT | NANOPARTICLES | In vitro-in vivo correlation | ELECTROPHORESIS | FORMULATIONS | ENCEPHALITIS | COLLOIDAL CARRIERS | MEDICINE, RESEARCH & EXPERIMENTAL | NANOSCIENCE & NANOTECHNOLOGY | Polysorbates - chemistry | Amebicides - pharmacology | Mice, Inbred C57BL | Amphotericin B - pharmacology | Amoebozoa - drug effects | Brain - drug effects | Amoebozoa - metabolism | Amebicides - chemistry | Animals | Amphotericin B - administration & dosage | Nanostructures - chemistry | Female | Mice | Amebicides - administration & dosage | Amphotericin B - chemistry | Drug Delivery Systems - methods | Amebiasis - parasitology | Brain - parasitology | Antiparasitic agents | Surface active agents | Adsorption
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Loading RightsPLoS ONE, ISSN 1932-6203, 11/2016, Volume 11, Issue 11, p. e0167355
Presence of Burkholderia pseudomallei in soil and water is correlated with endemicity of melioidosis in Southeast Asia and northern Australia. Several...
ACANTHAMOEBA-CASTELLANII | LISTERIA-MONOCYTOGENES | BACTERIAL PATHOGENS | LEGIONELLA-PNEUMOPHILA | LONG-TERM SURVIVAL | POLYPHAGA | MULTIDISCIPLINARY SCIENCES | ESCHERICHIA-COLI | VIBRIO-CHOLERAE | MELIOIDOSIS | WATER AMEBAS | Trophozoites | RNA, Ribosomal, 18S - genetics | Soil Microbiology | Burkholderia pseudomallei - isolation & purification | Thailand | Burkholderia pseudomallei - drug effects | Amoebozoa - isolation & purification | Microscopy, Confocal | Sequence Analysis, RNA | Amoebozoa - microbiology | Amoebozoa - genetics | Burkholderia pseudomallei - physiology | Amoebozoa - ultrastructure | Care and treatment | Physiological aspects | Pseudomonas infections | Burkholderia pseudomallei | Research | Risk factors | Amoeba | Bacterial infections | Cultivation | Leprosy | Confocal microscopy | Prey | Melioidosis | Soils | Biofilms | E coli | Listeria | Lymphocytes B | Microscopy | Chemical oxygen demand | Morphology | Soil water | Kanamycin | Bacteria | Burkholderia | rRNA 18S | Scanning microscopy
ACANTHAMOEBA-CASTELLANII | LISTERIA-MONOCYTOGENES | BACTERIAL PATHOGENS | LEGIONELLA-PNEUMOPHILA | LONG-TERM SURVIVAL | POLYPHAGA | MULTIDISCIPLINARY SCIENCES | ESCHERICHIA-COLI | VIBRIO-CHOLERAE | MELIOIDOSIS | WATER AMEBAS | Trophozoites | RNA, Ribosomal, 18S - genetics | Soil Microbiology | Burkholderia pseudomallei - isolation & purification | Thailand | Burkholderia pseudomallei - drug effects | Amoebozoa - isolation & purification | Microscopy, Confocal | Sequence Analysis, RNA | Amoebozoa - microbiology | Amoebozoa - genetics | Burkholderia pseudomallei - physiology | Amoebozoa - ultrastructure | Care and treatment | Physiological aspects | Pseudomonas infections | Burkholderia pseudomallei | Research | Risk factors | Amoeba | Bacterial infections | Cultivation | Leprosy | Confocal microscopy | Prey | Melioidosis | Soils | Biofilms | E coli | Listeria | Lymphocytes B | Microscopy | Chemical oxygen demand | Morphology | Soil water | Kanamycin | Bacteria | Burkholderia | rRNA 18S | Scanning microscopy
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Loading RightsProtist, ISSN 1434-4610, 08/2014, Volume 165, Issue 4, pp. 473 - 484
The diversity of microbial eukaryotes in general and amoeboid lineages in particular is poorly documented. Even though amoeboid lineages are among the most...
species delimitation | DNA barcode | morphology | species identification | amoeba | COI | Cochliopodium | Morphology | Species delimitation | Species identification | Amoeba | MICROBIOLOGY | MOLECULAR PHYLOGENY | FRESH-WATER | REVISED CLASSIFICATION | SSU-RDNA | LOBOSE AMEBAS | PHYLOGENETIC-RELATIONSHIPS | DIVERSITY | MULTIGENE ANALYSES | N. SP | Amoebozoa - enzymology | Amoebozoa - genetics | Genetic Variation - genetics | Retrospective Studies | Electron Transport Complex IV - genetics | Amoebozoa - drug effects | DNA Barcoding, Taxonomic | Genetic research | Cytochrome oxidase | Analysis | Bar codes | DNA
species delimitation | DNA barcode | morphology | species identification | amoeba | COI | Cochliopodium | Morphology | Species delimitation | Species identification | Amoeba | MICROBIOLOGY | MOLECULAR PHYLOGENY | FRESH-WATER | REVISED CLASSIFICATION | SSU-RDNA | LOBOSE AMEBAS | PHYLOGENETIC-RELATIONSHIPS | DIVERSITY | MULTIGENE ANALYSES | N. SP | Amoebozoa - enzymology | Amoebozoa - genetics | Genetic Variation - genetics | Retrospective Studies | Electron Transport Complex IV - genetics | Amoebozoa - drug effects | DNA Barcoding, Taxonomic | Genetic research | Cytochrome oxidase | Analysis | Bar codes | DNA
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Loading RightsFish and Shellfish Immunology, ISSN 1050-4648, 06/2014, Volume 38, Issue 2, pp. 294 - 302
This study investigated the use of a recombinant protein of , the causative agent of Amoebic gill disease (AGD), as an immunogen to generate systemic and...
N. perurans | Recombinant protein | Systemic and mucosal antibodies | Amoebic gill disease | N.perurans | CHANNEL CATFISH | RAINBOW-TROUT | MUCOSAL | IMMUNOLOGY | MANNOSE-BINDING PROTEIN | FISHERIES | MARINE & FRESHWATER BIOLOGY | VETERINARY SCIENCES | N. perurans | INFECTION | PARAMOEBA SP | AMEBIC-GILL-DISEASE | TROUT ONCORHYNCHUS-MYKISS | AGD | Lectins, C-Type - administration & dosage | Microscopy, Fluorescence - veterinary | Fish Diseases - therapy | Lectins, C-Type - immunology | Vaccines, Synthetic - immunology | Lectins, C-Type - genetics | Protozoan Proteins - genetics | Amoebozoa - drug effects | Fish Diseases - parasitology | Lectins, C-Type - metabolism | Vaccines, Synthetic - metabolism | Protozoan Proteins - chemistry | Protozoan Proteins - administration & dosage | Amino Acid Sequence | Amebiasis - veterinary | Salmo salar | Vaccines, Synthetic - genetics | Recombinant Proteins - pharmacology | Amebiasis - therapy | Animals | Immunity, Humoral - drug effects | Vaccines, Synthetic - administration & dosage | Amebiasis - parasitology | Protozoan Proteins - immunology | Antibodies, Protozoan - metabolism | Immune response | Salmon | Binding proteins | Recombinant proteins | Enzyme-linked immunosorbent assay | Formaldehyde | Protein binding
N. perurans | Recombinant protein | Systemic and mucosal antibodies | Amoebic gill disease | N.perurans | CHANNEL CATFISH | RAINBOW-TROUT | MUCOSAL | IMMUNOLOGY | MANNOSE-BINDING PROTEIN | FISHERIES | MARINE & FRESHWATER BIOLOGY | VETERINARY SCIENCES | N. perurans | INFECTION | PARAMOEBA SP | AMEBIC-GILL-DISEASE | TROUT ONCORHYNCHUS-MYKISS | AGD | Lectins, C-Type - administration & dosage | Microscopy, Fluorescence - veterinary | Fish Diseases - therapy | Lectins, C-Type - immunology | Vaccines, Synthetic - immunology | Lectins, C-Type - genetics | Protozoan Proteins - genetics | Amoebozoa - drug effects | Fish Diseases - parasitology | Lectins, C-Type - metabolism | Vaccines, Synthetic - metabolism | Protozoan Proteins - chemistry | Protozoan Proteins - administration & dosage | Amino Acid Sequence | Amebiasis - veterinary | Salmo salar | Vaccines, Synthetic - genetics | Recombinant Proteins - pharmacology | Amebiasis - therapy | Animals | Immunity, Humoral - drug effects | Vaccines, Synthetic - administration & dosage | Amebiasis - parasitology | Protozoan Proteins - immunology | Antibodies, Protozoan - metabolism | Immune response | Salmon | Binding proteins | Recombinant proteins | Enzyme-linked immunosorbent assay | Formaldehyde | Protein binding
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Loading RightsExperimental Parasitology, ISSN 0014-4894, 2010, Volume 126, Issue 1, pp. 22 - 27
is a causative agent of granulomatous encephalitis that almost always proves fatal. A major concern during the course of therapy is that can transform into...
Encystment | Balamuthia mandrillaris | Phosphatidylinositol 3-kinase | Galactose-binding protein | ANIMALS | HUMANS | AGENT | LECTIN | AMEBIC MENINGOENCEPHALITIS | ENTAMOEBA-INVADENS | ENCYSTATION | CELL-CYCLE | PARASITOLOGY | Galactose - metabolism | Galactose - pharmacology | Protein-Tyrosine Kinases - metabolism | Humans | Phosphatidylinositol 3-Kinases - metabolism | Cytochalasin D - pharmacology | Phosphatidylinositol 3-Kinases - antagonists & inhibitors | Amoebozoa - drug effects | Endothelial Cells - parasitology | rho-Associated Kinases - antagonists & inhibitors | Periplasmic Binding Proteins - physiology | Brain - blood supply | Protein Tyrosine Phosphatases - antagonists & inhibitors | Vanadates - pharmacology | Amoebozoa - physiology | Chromones - pharmacology | Amides - pharmacology | Brain - cytology | Cells, Cultured | Enzyme Inhibitors - pharmacology | Monosaccharide Transport Proteins - physiology | Morpholines - pharmacology | Signal Transduction - drug effects | Calcium-Binding Proteins - physiology | Genistein - pharmacology | Signal Transduction - physiology | Cytoskeleton - physiology | Protein Kinase Inhibitors - pharmacology | Pyridines - pharmacology | Cytoskeleton - drug effects | Protein-Tyrosine Kinases - antagonists & inhibitors | Chemotherapy | Phospholipids | Galactose | Cancer
Encystment | Balamuthia mandrillaris | Phosphatidylinositol 3-kinase | Galactose-binding protein | ANIMALS | HUMANS | AGENT | LECTIN | AMEBIC MENINGOENCEPHALITIS | ENTAMOEBA-INVADENS | ENCYSTATION | CELL-CYCLE | PARASITOLOGY | Galactose - metabolism | Galactose - pharmacology | Protein-Tyrosine Kinases - metabolism | Humans | Phosphatidylinositol 3-Kinases - metabolism | Cytochalasin D - pharmacology | Phosphatidylinositol 3-Kinases - antagonists & inhibitors | Amoebozoa - drug effects | Endothelial Cells - parasitology | rho-Associated Kinases - antagonists & inhibitors | Periplasmic Binding Proteins - physiology | Brain - blood supply | Protein Tyrosine Phosphatases - antagonists & inhibitors | Vanadates - pharmacology | Amoebozoa - physiology | Chromones - pharmacology | Amides - pharmacology | Brain - cytology | Cells, Cultured | Enzyme Inhibitors - pharmacology | Monosaccharide Transport Proteins - physiology | Morpholines - pharmacology | Signal Transduction - drug effects | Calcium-Binding Proteins - physiology | Genistein - pharmacology | Signal Transduction - physiology | Cytoskeleton - physiology | Protein Kinase Inhibitors - pharmacology | Pyridines - pharmacology | Cytoskeleton - drug effects | Protein-Tyrosine Kinases - antagonists & inhibitors | Chemotherapy | Phospholipids | Galactose | Cancer
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