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Cell Proliferation
Cell Proliferation
Fumagillin and Fumarranol Interact with P. falciparum Methionine Aminopeptidase 2 and Inhibit Malaria Parasite Growth In Vitro and In Vivo
Organic Chemistry / Malaria / Saccharomyces cerevisiae / Humans / Sequence alignment / Escherichia coli / Mice / Female / Animals / Sesquiterpenes / Plasmodium falciparum / Antimalarials / Protozoan Proteins / Cell Proliferation / Amino Acid Sequence / Chemistry Biology / Recombinant Proteins / Protein Binding / Biochemistry and cell biology / Molecular Sequence Data / Escherichia coli / Mice / Female / Animals / Sesquiterpenes / Plasmodium falciparum / Antimalarials / Protozoan Proteins / Cell Proliferation / Amino Acid Sequence / Chemistry Biology / Recombinant Proteins / Protein Binding / Biochemistry and cell biology / Molecular Sequence Data
Fumagillin and Fumarranol Interact with P. falciparum Methionine Aminopeptidase 2 and Inhibit Malaria Parasite Growth In Vitro and In Vivo
Organic Chemistry / Malaria / Saccharomyces cerevisiae / Humans / Sequence alignment / Escherichia coli / Mice / Female / Animals / Sesquiterpenes / Plasmodium falciparum / Antimalarials / Protozoan Proteins / Cell Proliferation / Amino Acid Sequence / Chemistry Biology / Recombinant Proteins / Protein Binding / Biochemistry and cell biology / Molecular Sequence Data / Escherichia coli / Mice / Female / Animals / Sesquiterpenes / Plasmodium falciparum / Antimalarials / Protozoan Proteins / Cell Proliferation / Amino Acid Sequence / Chemistry Biology / Recombinant Proteins / Protein Binding / Biochemistry and cell biology / Molecular Sequence Data
Fumagillin and Fumarranol Interact with P. falciparum Methionine Aminopeptidase 2 and Inhibit Malaria Parasite Growth In Vitro and In Vivo
Organic Chemistry / Malaria / Saccharomyces cerevisiae / Humans / Sequence alignment / Escherichia coli / Mice / Female / Animals / Sesquiterpenes / Plasmodium falciparum / Antimalarials / Protozoan Proteins / Cell Proliferation / Amino Acid Sequence / Chemistry Biology / Recombinant Proteins / Protein Binding / Biochemistry and cell biology / Molecular Sequence Data / Escherichia coli / Mice / Female / Animals / Sesquiterpenes / Plasmodium falciparum / Antimalarials / Protozoan Proteins / Cell Proliferation / Amino Acid Sequence / Chemistry Biology / Recombinant Proteins / Protein Binding / Biochemistry and cell biology / Molecular Sequence Data
Fumagillin and Fumarranol Interact with P. falciparum Methionine Aminopeptidase 2 and Inhibit Malaria Parasite Growth In Vitro and In Vivo
Organic Chemistry / Malaria / Saccharomyces cerevisiae / Humans / Sequence alignment / Escherichia coli / Mice / Female / Animals / Sesquiterpenes / Plasmodium falciparum / Antimalarials / Protozoan Proteins / Cell Proliferation / Amino Acid Sequence / Chemistry Biology / Recombinant Proteins / Protein Binding / Biochemistry and cell biology / Molecular Sequence Data / Escherichia coli / Mice / Female / Animals / Sesquiterpenes / Plasmodium falciparum / Antimalarials / Protozoan Proteins / Cell Proliferation / Amino Acid Sequence / Chemistry Biology / Recombinant Proteins / Protein Binding / Biochemistry and cell biology / Molecular Sequence Data
Fumagillin and Fumarranol Interact with P. falciparum Methionine Aminopeptidase 2 and Inhibit Malaria Parasite Growth In Vitro and In Vivo
Organic Chemistry / Malaria / Saccharomyces cerevisiae / Humans / Sequence alignment / Escherichia coli / Mice / Female / Animals / Sesquiterpenes / Plasmodium falciparum / Antimalarials / Protozoan Proteins / Cell Proliferation / Amino Acid Sequence / Chemistry Biology / Recombinant Proteins / Protein Binding / Biochemistry and cell biology / Molecular Sequence Data / Escherichia coli / Mice / Female / Animals / Sesquiterpenes / Plasmodium falciparum / Antimalarials / Protozoan Proteins / Cell Proliferation / Amino Acid Sequence / Chemistry Biology / Recombinant Proteins / Protein Binding / Biochemistry and cell biology / Molecular Sequence Data
Fumagillin and Fumarranol Interact with P. falciparum Methionine Aminopeptidase 2 and Inhibit Malaria Parasite Growth In Vitro and In Vivo
Organic Chemistry / Malaria / Saccharomyces cerevisiae / Humans / Sequence alignment / Escherichia coli / Mice / Female / Animals / Sesquiterpenes / Plasmodium falciparum / Antimalarials / Protozoan Proteins / Cell Proliferation / Amino Acid Sequence / Chemistry Biology / Recombinant Proteins / Protein Binding / Biochemistry and cell biology / Molecular Sequence Data / Escherichia coli / Mice / Female / Animals / Sesquiterpenes / Plasmodium falciparum / Antimalarials / Protozoan Proteins / Cell Proliferation / Amino Acid Sequence / Chemistry Biology / Recombinant Proteins / Protein Binding / Biochemistry and cell biology / Molecular Sequence Data
Biocompatibilidad in vitro de superóxido dismutasa en interacción con polímero e hidrogeles de carboximetilcelulosa ensayado con fibroblastos humanos
Electron Microscopy / Cell morphology / Superoxide Dismutase / Specific Activity / Indexation / Cell Proliferation / Biological activity / Xanthine Oxidase / Cell Proliferation / Biological activity / Xanthine Oxidase
An Inhibitor of Human Asparagine Synthetase Suppresses Proliferation of an L-Asparaginase-Resistant Leukemia Cell Line
Organic Chemistry / Enzyme Inhibitors / Cell line / Humans / Drug Resistance / L-asparaginase / Tight Binding / Cell Proliferation / Chemistry Biology / Antineoplastic Agents / Biochemistry and cell biology / Molecular Structure / Fghfgh / L-asparaginase / Tight Binding / Cell Proliferation / Chemistry Biology / Antineoplastic Agents / Biochemistry and cell biology / Molecular Structure / Fghfgh
Targeting a c-Myc inhibitory polypeptide to specific intracellular compartments using cell penetrating peptides
Biomedical Engineering / Fluorescence Microscopy / Humans / Controlled release / Cancer Therapy / Female / Temperature / Peptides / Phase transition / Subcellular Localization / Cell nucleus / Time Factors / Neoplasms / Cell Proliferation / Drug Carriers / Cytoplasm / Antineoplastic Agents / Female / Temperature / Peptides / Phase transition / Subcellular Localization / Cell nucleus / Time Factors / Neoplasms / Cell Proliferation / Drug Carriers / Cytoplasm / Antineoplastic Agents
Periodo de adaptacion
Surgery / Treatment / Wound Healing / Hydrogels / Medicine / Nitric oxide / Animals / Male / Skin / Clinical Sciences / Rats / Topical Drug Administration / Donor / Phase / Wistar Rats / Cell Proliferation / Surgical / Wounds and Injuries / Nitric oxide donors / Poloxamer / Nitric oxide / Animals / Male / Skin / Clinical Sciences / Rats / Topical Drug Administration / Donor / Phase / Wistar Rats / Cell Proliferation / Surgical / Wounds and Injuries / Nitric oxide donors / Poloxamer
Vascular endothelial growth factor increases the intracellular magnesium
Endocrinology / Neuroscience / Neurology / Electrophysiology / Animal Behavior / Stem Cells / Traumatic Brain Injury / Neurogenesis / Migration / Microcirculation / Calcium / Enzyme Inhibitors / Biological Chemistry / Flavonoids / Stem Cell / Gene expression / Extracellular Matrix / Animal Production / Cell Culture / Cell Division / Signal Transduction / Pathophysiology / Biological Sciences / Transplantation / Microvascular Physiology / In Vitro / Cell Differentiation / Neurovascular / Humans / Brain Circulation / Mice / VEGF / Animals / Male / Polymerase Chain Reaction / Statistical Significance / Astrocyte / Vascular endothelium / Perfusion / Skin / Acute Pancreatitis / Chemotaxis / Matrix metalloproteinases (MMPs) / Nickel / Fibroblast Growth Factor / Clinical Sciences / CHEMICAL SCIENCES / Middle Aged / mRna expression levels / Cerebral / Adult / Endothelial cell / Protease Inhibitors / Time Factors / Myocyte / Veterinary Sciences / Cell Proliferation / Surgical / Growth Factor / Vascular Permeability / Cell Survival / Subventricular Zone / Neurosciences / Rana temporaria / islets of Langerhans / Vascular Endothelial Growth Factor / Adenosine Triphosphate / Matrix Metalloproteinase / Vascular Resistance / Transforming Growth Factor / Brain injuries / Neuropsychological Tests / Stem Cells / Traumatic Brain Injury / Neurogenesis / Migration / Microcirculation / Calcium / Enzyme Inhibitors / Biological Chemistry / Flavonoids / Stem Cell / Gene expression / Extracellular Matrix / Animal Production / Cell Culture / Cell Division / Signal Transduction / Pathophysiology / Biological Sciences / Transplantation / Microvascular Physiology / In Vitro / Cell Differentiation / Neurovascular / Humans / Brain Circulation / Mice / VEGF / Animals / Male / Polymerase Chain Reaction / Statistical Significance / Astrocyte / Vascular endothelium / Perfusion / Skin / Acute Pancreatitis / Chemotaxis / Matrix metalloproteinases (MMPs) / Nickel / Fibroblast Growth Factor / Clinical Sciences / CHEMICAL SCIENCES / Middle Aged / mRna expression levels / Cerebral / Adult / Endothelial cell / Protease Inhibitors / Time Factors / Myocyte / Veterinary Sciences / Cell Proliferation / Surgical / Growth Factor / Vascular Permeability / Cell Survival / Subventricular Zone / Neurosciences / Rana temporaria / islets of Langerhans / Vascular Endothelial Growth Factor / Adenosine Triphosphate / Matrix Metalloproteinase / Vascular Resistance / Transforming Growth Factor / Brain injuries / Neuropsychological Tests
Survival and Differential Development of Entomophaga maimaiga and Entomophaga aulicae (Zygomycetes: Entomophthorales) in Lymantria dispar Hemolymph
Zoology / Life history / Lepidoptera / Cell Culture / Parasite / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta
Survival and Differential Development of Entomophaga maimaiga and Entomophaga aulicae (Zygomycetes: Entomophthorales) in Lymantria dispar Hemolymph
Zoology / Life history / Lepidoptera / Cell Culture / Parasite / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta
Survival and Differential Development of Entomophaga maimaiga and Entomophaga aulicae (Zygomycetes: Entomophthorales) in Lymantria dispar Hemolymph
Zoology / Life history / Lepidoptera / Cell Culture / Parasite / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta
Survival and Differential Development of Entomophaga maimaiga and Entomophaga aulicae (Zygomycetes: Entomophthorales) in Lymantria dispar Hemolymph
Zoology / Life history / Lepidoptera / Cell Culture / Parasite / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta
Survival and Differential Development of Entomophaga maimaiga and Entomophaga aulicae (Zygomycetes: Entomophthorales) in Lymantria dispar Hemolymph
Zoology / Life history / Lepidoptera / Cell Culture / Parasite / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta / Animals / Insects / Invertebrate Pathology / PEST / Hemocytes / Immune system / Moths / Hemolymph / Host Specificity / Lymantria Dispar / Host Range / Cell Proliferation / Cell Wall / Invertebrate / Culture Media / Entomopathogenic Fungi / Thallophyta
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