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Publication DateBioresource Technology, ISSN 0960-8524, 05/2013, Volume 136, pp. 542 - 549
Pretreatment is a pre-requisite step in bioethanol production from lignocellulosic biomass required to remove lignin and increase the porosity of the substrate...
Acid hydrolysis | Inhibitors | Pretreatment | Lignocellulose | Prosopis juliflora | DILUTE-ACID | ENERGY & FUELS | ENZYMATIC-HYDROLYSIS | PICHIA-STIPITIS | SULFURIC-ACID | SACCHAROMYCES-CEREVISIAE | BIOETHANOL PRODUCTION | AGRICULTURAL ENGINEERING | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | FERMENTATION | ETHANOL | ACID-HYDROLYSIS | STRAW | Lignin - isolation & purification | Hydrolysis - drug effects | Sodium Chloride - pharmacology | Ammonia - pharmacology | Sodium Hydroxide - pharmacology | Prosopis - drug effects | Hydroxides - pharmacology | Prosopis - chemistry | Sulfites - pharmacology | Reducing Agents - pharmacology | Lignin - metabolism | Dithionite - pharmacology | Potassium Compounds - pharmacology | Sulfuric Acids - pharmacology | Alkalies - pharmacology | Acids - pharmacology | Hydrolysis | Prosopis | Sodium dithionite | Sugars | Hydrolysates
Acid hydrolysis | Inhibitors | Pretreatment | Lignocellulose | Prosopis juliflora | DILUTE-ACID | ENERGY & FUELS | ENZYMATIC-HYDROLYSIS | PICHIA-STIPITIS | SULFURIC-ACID | SACCHAROMYCES-CEREVISIAE | BIOETHANOL PRODUCTION | AGRICULTURAL ENGINEERING | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | FERMENTATION | ETHANOL | ACID-HYDROLYSIS | STRAW | Lignin - isolation & purification | Hydrolysis - drug effects | Sodium Chloride - pharmacology | Ammonia - pharmacology | Sodium Hydroxide - pharmacology | Prosopis - drug effects | Hydroxides - pharmacology | Prosopis - chemistry | Sulfites - pharmacology | Reducing Agents - pharmacology | Lignin - metabolism | Dithionite - pharmacology | Potassium Compounds - pharmacology | Sulfuric Acids - pharmacology | Alkalies - pharmacology | Acids - pharmacology | Hydrolysis | Prosopis | Sodium dithionite | Sugars | Hydrolysates
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Loading RightsJournal of Experimental Botany, ISSN 0022-0957, 1/2012, Volume 63, Issue 13, pp. 4741 - 4750
In contrast to climacteric fruits, where ethylene is known to be pivotal, the regulation of ripening in non-climacteric fruits is not well understood. In the...
Ripening | Achenes | Fruiting | Plant growth regulators | Developmental biology | Auxins | Gene expression regulation | Hormones | Plants | RESEARCH PAPER | Fruits | Abscisic acid | strawberry | gibberellins | auxin | brassinosteroids | ripening | CLIMACTERIC FRUIT | X ANANASSA-DUCH | BRASSINOSTEROID BIOSYNTHESIS | FRUIT-DEVELOPMENT | PHENYLALANINE AMMONIA-LYASE | PLANT SCIENCES | PLANT HORMONES | GIBBERELLIC-ACID | GENE-EXPRESSION | ABSCISIC-ACID | ENDOGENOUS GIBBERELLINS | Cholestanols - analysis | Climate | Fruit - drug effects | Indoleacetic Acids - analysis | Gibberellins - analysis | Steroids, Heterocyclic - analysis | Brassinosteroids - metabolism | Gibberellins - metabolism | Abscisic Acid - metabolism | Cholestanols - metabolism | Naphthaleneacetic Acids - pharmacology | Fruit - metabolism | Plant Growth Regulators - analysis | Steroids, Heterocyclic - metabolism | Steroids, Heterocyclic - pharmacology | Abscisic Acid - analysis | Brassinosteroids - pharmacology | Indoleacetic Acids - metabolism | Fragaria - metabolism | Fragaria - drug effects | Fragaria - growth & development | Cholestanols - pharmacology | Triazoles - pharmacology | Abscisic Acid - pharmacology | Fruit - growth & development | Indoleacetic Acids - antagonists & inhibitors | Indoleacetic Acids - pharmacology | Gibberellins - pharmacology | Brassinosteroids - analysis | Plant Growth Regulators - metabolism | Plant Growth Regulators - pharmacology | Research Paper | Abscisic acid, auxin, brassinosteroids, gibberellins, ripening, strawberry
Ripening | Achenes | Fruiting | Plant growth regulators | Developmental biology | Auxins | Gene expression regulation | Hormones | Plants | RESEARCH PAPER | Fruits | Abscisic acid | strawberry | gibberellins | auxin | brassinosteroids | ripening | CLIMACTERIC FRUIT | X ANANASSA-DUCH | BRASSINOSTEROID BIOSYNTHESIS | FRUIT-DEVELOPMENT | PHENYLALANINE AMMONIA-LYASE | PLANT SCIENCES | PLANT HORMONES | GIBBERELLIC-ACID | GENE-EXPRESSION | ABSCISIC-ACID | ENDOGENOUS GIBBERELLINS | Cholestanols - analysis | Climate | Fruit - drug effects | Indoleacetic Acids - analysis | Gibberellins - analysis | Steroids, Heterocyclic - analysis | Brassinosteroids - metabolism | Gibberellins - metabolism | Abscisic Acid - metabolism | Cholestanols - metabolism | Naphthaleneacetic Acids - pharmacology | Fruit - metabolism | Plant Growth Regulators - analysis | Steroids, Heterocyclic - metabolism | Steroids, Heterocyclic - pharmacology | Abscisic Acid - analysis | Brassinosteroids - pharmacology | Indoleacetic Acids - metabolism | Fragaria - metabolism | Fragaria - drug effects | Fragaria - growth & development | Cholestanols - pharmacology | Triazoles - pharmacology | Abscisic Acid - pharmacology | Fruit - growth & development | Indoleacetic Acids - antagonists & inhibitors | Indoleacetic Acids - pharmacology | Gibberellins - pharmacology | Brassinosteroids - analysis | Plant Growth Regulators - metabolism | Plant Growth Regulators - pharmacology | Research Paper | Abscisic acid, auxin, brassinosteroids, gibberellins, ripening, strawberry
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Loading RightsPLoS ONE, ISSN 1932-6203, 04/2014, Volume 9, Issue 4, p. e94898
The activation of programmed cell death (PCD) is often a result of complex signalling pathways whose relationship and intersection are not well understood. We...
SALICYLIC-ACID | BIOSYNTHESIS | MULTIDISCIPLINARY SCIENCES | SENESCENCE | ARABIDOPSIS | AUTOPHAGY | INDUCTION | PHENYLALANINE AMMONIA-LYASE | ISOCHORISMATE SYNTHASE | SYSTEMIC ACQUIRED-RESISTANCE | TOBACCO | Arabidopsis - enzymology | Mitochondrial Swelling - drug effects | Sodium Chloride - pharmacology | Plant Roots - genetics | Apoptosis - genetics | Autophagy - drug effects | Phenylalanine Ammonia-Lyase - metabolism | Arabidopsis Proteins - metabolism | Salicylic Acid - pharmacology | Biological Assay | Stress, Physiological - drug effects | Fumonisins - pharmacology | Phenylalanine Ammonia-Lyase - antagonists & inhibitors | Adenine - analogs & derivatives | Arabidopsis - drug effects | Plant Roots - metabolism | Arabidopsis - cytology | Hydrogen Peroxide - pharmacology | Adenine - pharmacology | Plant Roots - cytology | Signal Transduction - genetics | Hot Temperature | Mutation - genetics | Arabidopsis - metabolism | Organophosphonates - pharmacology | Androstadienes - pharmacology | Signal Transduction - drug effects | Models, Biological | Gibberellins - pharmacology | Mycotoxins - pharmacology | Indans - pharmacology | Arabidopsis thaliana | Physiological aspects | Cellular signal transduction | Genetic aspects | Research | Apoptosis | Senescence | Pathogenesis | Crosstalk | Activation | Biosynthesis | Biology | Kinases | Assaying | Autophagy | Modulators | Defects | Proteins | Signal transduction | Cell activation | Pathways | Chemical synthesis | Pathogens | Salicylic acid | Phenylalanine | Mortality | Pharmacology | Ammonia | Signaling | Fumonisin B1 | Environmental science | Acids | Cell death | Morphology | Stem cells | Gibberellic acid | Phagocytosis
SALICYLIC-ACID | BIOSYNTHESIS | MULTIDISCIPLINARY SCIENCES | SENESCENCE | ARABIDOPSIS | AUTOPHAGY | INDUCTION | PHENYLALANINE AMMONIA-LYASE | ISOCHORISMATE SYNTHASE | SYSTEMIC ACQUIRED-RESISTANCE | TOBACCO | Arabidopsis - enzymology | Mitochondrial Swelling - drug effects | Sodium Chloride - pharmacology | Plant Roots - genetics | Apoptosis - genetics | Autophagy - drug effects | Phenylalanine Ammonia-Lyase - metabolism | Arabidopsis Proteins - metabolism | Salicylic Acid - pharmacology | Biological Assay | Stress, Physiological - drug effects | Fumonisins - pharmacology | Phenylalanine Ammonia-Lyase - antagonists & inhibitors | Adenine - analogs & derivatives | Arabidopsis - drug effects | Plant Roots - metabolism | Arabidopsis - cytology | Hydrogen Peroxide - pharmacology | Adenine - pharmacology | Plant Roots - cytology | Signal Transduction - genetics | Hot Temperature | Mutation - genetics | Arabidopsis - metabolism | Organophosphonates - pharmacology | Androstadienes - pharmacology | Signal Transduction - drug effects | Models, Biological | Gibberellins - pharmacology | Mycotoxins - pharmacology | Indans - pharmacology | Arabidopsis thaliana | Physiological aspects | Cellular signal transduction | Genetic aspects | Research | Apoptosis | Senescence | Pathogenesis | Crosstalk | Activation | Biosynthesis | Biology | Kinases | Assaying | Autophagy | Modulators | Defects | Proteins | Signal transduction | Cell activation | Pathways | Chemical synthesis | Pathogens | Salicylic acid | Phenylalanine | Mortality | Pharmacology | Ammonia | Signaling | Fumonisin B1 | Environmental science | Acids | Cell death | Morphology | Stem cells | Gibberellic acid | Phagocytosis
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Loading RightsBioresource Technology, ISSN 0960-8524, 2011, Volume 102, Issue 24, pp. 11105 - 11114
► Conceptual process design of switchgrass ethanol production process using six different pretreatment methods. ► All costing and analysis data are compared in...
Process economics | Pretreatment | Biomass | Enzymatic hydrolysis | Switchgrass | AGRICULTURAL ENGINEERING | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | ENERGY & FUELS | CORN STOVER | FIBER EXPANSION AFEX | LIME PRETREATMENT | Ethanol - metabolism | Ethanol - economics | Ammonia - pharmacology | Hot Temperature | Panicum - drug effects | Panicum - metabolism | Water - pharmacology | Biotechnology - methods | Oxides - pharmacology | Sulfur Dioxide - pharmacology | Lignin - metabolism | Biotechnology - economics | Carbohydrates - analysis | Sulfuric Acids - pharmacology | Calcium Compounds - pharmacology | Hydrolysis | Enzymes | Usage | Alcohol, Denatured | Biomass energy | Analysis | Alcohol | Universities and colleges | Production processes | Production data | Economics | Design engineering | Ammonia | Ethanol | Ethyl alcohol | Sugars | biomass | BASIC BIOLOGICAL SCIENCES | pretreatment | 09 BIOMASS FUELS | switchgrass | enzymatic hydrolysis | process economics
Process economics | Pretreatment | Biomass | Enzymatic hydrolysis | Switchgrass | AGRICULTURAL ENGINEERING | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | ENERGY & FUELS | CORN STOVER | FIBER EXPANSION AFEX | LIME PRETREATMENT | Ethanol - metabolism | Ethanol - economics | Ammonia - pharmacology | Hot Temperature | Panicum - drug effects | Panicum - metabolism | Water - pharmacology | Biotechnology - methods | Oxides - pharmacology | Sulfur Dioxide - pharmacology | Lignin - metabolism | Biotechnology - economics | Carbohydrates - analysis | Sulfuric Acids - pharmacology | Calcium Compounds - pharmacology | Hydrolysis | Enzymes | Usage | Alcohol, Denatured | Biomass energy | Analysis | Alcohol | Universities and colleges | Production processes | Production data | Economics | Design engineering | Ammonia | Ethanol | Ethyl alcohol | Sugars | biomass | BASIC BIOLOGICAL SCIENCES | pretreatment | 09 BIOMASS FUELS | switchgrass | enzymatic hydrolysis | process economics
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Loading RightsFEMS Microbiology Letters, ISSN 0378-1097, 07/2013, Volume 344, Issue 2, pp. 121 - 129
Abstract Nitrification inhibitors have been used for decades to improve nitrogen fertilizer utilization in farmland. However, their effect on ammonia-oxidizing...
ammonia oxidation | soil | nitrite | Archaea | PTIO | Soil | Nitrite | Ammonia oxidation | NO-CENTER-DOT | NITROGEN-CYCLE | AGRICULTURAL SOIL | MICROBIOLOGY | NITROSOPUMILUS-MARITIMUS | FRANCISCO BAY ESTUARY | COMMUNITY STRUCTURE | GENOME SEQUENCE | ACIDIC SOILS | NITROSOMONAS-EUROPAEA | 16S RIBOSOMAL-RNA | Picolines - pharmacology | Ammonia - metabolism | Sulfathiazoles - pharmacology | Fertilizers - analysis | Guanidines - pharmacology | Imidazoles - pharmacology | Nitrification - drug effects | Archaea - drug effects | Fertilizers - microbiology | Thiourea - pharmacology | Archaea - metabolism | Oxidation-Reduction - drug effects | Benzoates - pharmacology | Thiourea - analogs & derivatives | Nitrosomonadaceae - metabolism | Ammonia | Bacteria | Nitrogen fertilizers | Nitrification
ammonia oxidation | soil | nitrite | Archaea | PTIO | Soil | Nitrite | Ammonia oxidation | NO-CENTER-DOT | NITROGEN-CYCLE | AGRICULTURAL SOIL | MICROBIOLOGY | NITROSOPUMILUS-MARITIMUS | FRANCISCO BAY ESTUARY | COMMUNITY STRUCTURE | GENOME SEQUENCE | ACIDIC SOILS | NITROSOMONAS-EUROPAEA | 16S RIBOSOMAL-RNA | Picolines - pharmacology | Ammonia - metabolism | Sulfathiazoles - pharmacology | Fertilizers - analysis | Guanidines - pharmacology | Imidazoles - pharmacology | Nitrification - drug effects | Archaea - drug effects | Fertilizers - microbiology | Thiourea - pharmacology | Archaea - metabolism | Oxidation-Reduction - drug effects | Benzoates - pharmacology | Thiourea - analogs & derivatives | Nitrosomonadaceae - metabolism | Ammonia | Bacteria | Nitrogen fertilizers | Nitrification
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Loading RightsDrug and Alcohol Dependence, ISSN 0376-8716, 09/2017, Volume 178, pp. 391 - 398
To describe the effect of e-liquid flavors on nicotine intake and pharmacology of e-cigarettes. 11 males and 3 females participated in a 3-day inpatient...
Nicotine pharmacokinetics | Flavors | E-cigarettes | E-cigarette pharmacology | Nicotine delivery | AMMONIA | PSYCHIATRY | WORKERS | SUBSTANCE ABUSE | DELIVERY | BRONCHIOLITIS OBLITERANS | SAMPLE | ELECTRONIC CIGARETTES | ADOLESCENTS | PRODUCT | ADULT SMOKERS | DIACETYL | Cross-Over Studies | Heart Rate - drug effects | Taste - drug effects | Tobacco Products | Electronic Nicotine Delivery Systems | Flavoring Agents - pharmacology | Humans | Nicotine - pharmacology | Electronic cigarettes | Pharmacology | flavors | nicotine delivery | nicotine pharmacokinetics | e-cigarette pharmacology
Nicotine pharmacokinetics | Flavors | E-cigarettes | E-cigarette pharmacology | Nicotine delivery | AMMONIA | PSYCHIATRY | WORKERS | SUBSTANCE ABUSE | DELIVERY | BRONCHIOLITIS OBLITERANS | SAMPLE | ELECTRONIC CIGARETTES | ADOLESCENTS | PRODUCT | ADULT SMOKERS | DIACETYL | Cross-Over Studies | Heart Rate - drug effects | Taste - drug effects | Tobacco Products | Electronic Nicotine Delivery Systems | Flavoring Agents - pharmacology | Humans | Nicotine - pharmacology | Electronic cigarettes | Pharmacology | flavors | nicotine delivery | nicotine pharmacokinetics | e-cigarette pharmacology
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Loading RightsBioMed Research International, ISSN 2314-6133, 2014, Volume 2014, pp. 196754 - 19
L-amino acid oxidases are enzymes found in several organisms, including venoms of snakes, where they contribute to the toxicity of ophidian envenomation. Their...
MOLECULAR CHARACTERIZATION | MEDICINE, RESEARCH & EXPERIMENTAL | VIPER CALLOSELASMA-RHODOSTOMA | BOTHROPS-JARARACA | PLATELET-AGGREGATION | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | OXIDATIVE DEAMINATION | AGKISTRODON-HALYS-BLOMHOFFII | STRUCTURAL-CHARACTERIZATION | BIOLOGICAL-ACTIVITIES | FUNCTIONAL-CHARACTERIZATION | COMPARATIVE SEQUENCE-ANALYSIS | Snake Venoms - pharmacology | L-Amino Acid Oxidase - chemistry | Humans | Biological Factors - chemistry | Snake Venoms - chemistry | Structure-Activity Relationship | Biological Factors - pharmacology | L-Amino Acid Oxidase - pharmacology | Oxidases | Medicine, Experimental | Medical research | Research | Properties | Structure-activity relationships (Biochemistry) | Enzymes | Hydrogen peroxide | Amino acids | Chemical reactions | Cytotoxicity | Biochemistry | Snakes | Molecular weight | Proteins | Ammonia | Venom | Trends | Apoptosis | Review
MOLECULAR CHARACTERIZATION | MEDICINE, RESEARCH & EXPERIMENTAL | VIPER CALLOSELASMA-RHODOSTOMA | BOTHROPS-JARARACA | PLATELET-AGGREGATION | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | OXIDATIVE DEAMINATION | AGKISTRODON-HALYS-BLOMHOFFII | STRUCTURAL-CHARACTERIZATION | BIOLOGICAL-ACTIVITIES | FUNCTIONAL-CHARACTERIZATION | COMPARATIVE SEQUENCE-ANALYSIS | Snake Venoms - pharmacology | L-Amino Acid Oxidase - chemistry | Humans | Biological Factors - chemistry | Snake Venoms - chemistry | Structure-Activity Relationship | Biological Factors - pharmacology | L-Amino Acid Oxidase - pharmacology | Oxidases | Medicine, Experimental | Medical research | Research | Properties | Structure-activity relationships (Biochemistry) | Enzymes | Hydrogen peroxide | Amino acids | Chemical reactions | Cytotoxicity | Biochemistry | Snakes | Molecular weight | Proteins | Ammonia | Venom | Trends | Apoptosis | Review
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Loading RightsPLoS ONE, ISSN 1932-6203, 03/2016, Volume 11, Issue 3, p. e0150469
The air-breathing singhi catfish (Heteropneustes fossilis) is frequently being challenged by bacterial contaminants, and different environmental insults like...
CHANNEL CATFISH | GENE | BIOSYNTHESIS | MULTIDISCIPLINARY SCIENCES | IN-VIVO | ENDOTOXIN | UREOGENESIS | ADENOSINE RELEASE | EXPRESSION | FRESH-WATER | EXERCISE | Norepinephrine - pharmacology | Nitric Oxide Synthase Type II - biosynthesis | Sodium Chloride - pharmacology | Transcriptional Activation - drug effects | Protein Transport - drug effects | RNA, Messenger - metabolism | Mannitol - pharmacology | Drug Interactions | Liver - drug effects | Catfishes - genetics | Catfishes - physiology | Glutamine - pharmacology | Hormones - pharmacology | Nitric Oxide - biosynthesis | Cell Size - drug effects | Liver - metabolism | RNA, Messenger - genetics | Catfishes - metabolism | Adenosine - pharmacology | Air | Animals | Glycine - pharmacology | Nitric Oxide Synthase Type II - genetics | Perfusion | Lipopolysaccharides - pharmacology | Liver - cytology | Osmotic Pressure - drug effects | Oxidative Stress - drug effects | Nitric Oxide - metabolism | Respiration | Epinephrine - pharmacology | Nitric Oxide Synthase Type II - metabolism | Physiological aspects | Oxidative stress | Research | Mitogens | Health aspects | Nitric oxide | Adaptations | Hydrogen peroxide | Butyl hydroperoxide | Laboratories | Liver | Zoology | Genes | Homeostasis | Smooth muscle | Biosynthesis | Hormones | Dehydration | Glycine | Tissues | Lipopolysaccharides | Atrophy | Infusion | Metabolites | Catfish | Rodents | Bacteria | Fish | Physiology | Epinephrine | Efflux | Adenosine | Bacterial infections | Hydration | Shrinkage | Injection | Metabolism | Mammals | Gene expression | Nitric-oxide synthase | Ammonia | Hypotonicity | Hypertonicity | Contaminants | Regulation | Norepinephrine | Cell size | Breathing | Peritoneum | Glutamine
CHANNEL CATFISH | GENE | BIOSYNTHESIS | MULTIDISCIPLINARY SCIENCES | IN-VIVO | ENDOTOXIN | UREOGENESIS | ADENOSINE RELEASE | EXPRESSION | FRESH-WATER | EXERCISE | Norepinephrine - pharmacology | Nitric Oxide Synthase Type II - biosynthesis | Sodium Chloride - pharmacology | Transcriptional Activation - drug effects | Protein Transport - drug effects | RNA, Messenger - metabolism | Mannitol - pharmacology | Drug Interactions | Liver - drug effects | Catfishes - genetics | Catfishes - physiology | Glutamine - pharmacology | Hormones - pharmacology | Nitric Oxide - biosynthesis | Cell Size - drug effects | Liver - metabolism | RNA, Messenger - genetics | Catfishes - metabolism | Adenosine - pharmacology | Air | Animals | Glycine - pharmacology | Nitric Oxide Synthase Type II - genetics | Perfusion | Lipopolysaccharides - pharmacology | Liver - cytology | Osmotic Pressure - drug effects | Oxidative Stress - drug effects | Nitric Oxide - metabolism | Respiration | Epinephrine - pharmacology | Nitric Oxide Synthase Type II - metabolism | Physiological aspects | Oxidative stress | Research | Mitogens | Health aspects | Nitric oxide | Adaptations | Hydrogen peroxide | Butyl hydroperoxide | Laboratories | Liver | Zoology | Genes | Homeostasis | Smooth muscle | Biosynthesis | Hormones | Dehydration | Glycine | Tissues | Lipopolysaccharides | Atrophy | Infusion | Metabolites | Catfish | Rodents | Bacteria | Fish | Physiology | Epinephrine | Efflux | Adenosine | Bacterial infections | Hydration | Shrinkage | Injection | Metabolism | Mammals | Gene expression | Nitric-oxide synthase | Ammonia | Hypotonicity | Hypertonicity | Contaminants | Regulation | Norepinephrine | Cell size | Breathing | Peritoneum | Glutamine
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Loading RightsJournal of Endodontics, ISSN 0099-2399, 2012, Volume 38, Issue 4, pp. 475 - 480
Abstract Introduction We have previously differentiated hepatocyte like cells from deciduous tooth pulp stem and extracted third molar pulp stem cells with a...
Endocrinology & Metabolism | Dentistry | dental pulp | stem cell pluripotency | Adult stem cells | serum-free medium | hepatic differentiation | PROGENITOR CELLS | MARROW | VIVO | IN-VITRO | LIVER-REGENERATION | DENTISTRY, ORAL SURGERY & MEDICINE | EXPANSION | GROWTH-FACTOR | TISSUES | SEPARATION | EXPRESSION | Selenium - pharmacology | Humans | Culture Media, Serum-Free | Urea - analysis | Hepatocyte Growth Factor - pharmacology | Oncostatin M - pharmacology | Cell Culture Techniques - methods | alpha-Fetoproteins - analysis | Dexamethasone - pharmacology | Flow Cytometry | Hepatocyte Nuclear Factor 4 - analysis | Cell Differentiation | Glycogen - analysis | Growth Inhibitors - pharmacology | Hepatocytes - physiology | Insulin - pharmacology | Biomarkers - analysis | Carbamoyl-Phosphate Synthase (Ammonia) - analysis | Dental Pulp - cytology | Insulin-Like Growth Factor I - analysis | Serum Albumin - analysis | Proto-Oncogene Proteins c-kit - analysis | Cell Lineage | Fluorescent Antibody Technique | Glucocorticoids - pharmacology | Stem Cells - physiology | Transferrin - pharmacology | Stem cells
Endocrinology & Metabolism | Dentistry | dental pulp | stem cell pluripotency | Adult stem cells | serum-free medium | hepatic differentiation | PROGENITOR CELLS | MARROW | VIVO | IN-VITRO | LIVER-REGENERATION | DENTISTRY, ORAL SURGERY & MEDICINE | EXPANSION | GROWTH-FACTOR | TISSUES | SEPARATION | EXPRESSION | Selenium - pharmacology | Humans | Culture Media, Serum-Free | Urea - analysis | Hepatocyte Growth Factor - pharmacology | Oncostatin M - pharmacology | Cell Culture Techniques - methods | alpha-Fetoproteins - analysis | Dexamethasone - pharmacology | Flow Cytometry | Hepatocyte Nuclear Factor 4 - analysis | Cell Differentiation | Glycogen - analysis | Growth Inhibitors - pharmacology | Hepatocytes - physiology | Insulin - pharmacology | Biomarkers - analysis | Carbamoyl-Phosphate Synthase (Ammonia) - analysis | Dental Pulp - cytology | Insulin-Like Growth Factor I - analysis | Serum Albumin - analysis | Proto-Oncogene Proteins c-kit - analysis | Cell Lineage | Fluorescent Antibody Technique | Glucocorticoids - pharmacology | Stem Cells - physiology | Transferrin - pharmacology | Stem cells
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Loading RightsGlia, ISSN 0894-1491, 05/2012, Volume 60, Issue 6, pp. 965 - 978
Increased ammonium (NH4 +) concentration in the brain is the prime candidate responsible for hepatic encephalopathy (HE), a serious neurological disorder...
glutamate uptake | glia | extracellular potassium | hepatic encephalopathy | Extracellular potassium | Glia | Glutamate uptake | Hepatic encephalopathy | RAT CORTICAL ASTROCYTES | RECTIFYING K+ CHANNEL | KNOCK-OUT | NEUROSCIENCES | CENTRAL-NERVOUS-SYSTEM | RETINAL GLIAL-CELLS | INTRACELLULAR ACIDIFICATION | AMMONIUM-IONS | BRAIN | Potassium - metabolism | Tetraethylammonium - pharmacology | Membrane Potentials - genetics | Electric Stimulation | Age Factors | Sodium Potassium Chloride Symporter Inhibitors - pharmacology | Glial Fibrillary Acidic Protein - metabolism | Dose-Response Relationship, Drug | Tetrodotoxin - pharmacology | Potassium Channel Blockers - pharmacology | Animals, Newborn | Membrane Potentials - drug effects | Astrocytes - drug effects | Ammonia - metabolism | Mice, Inbred C57BL | Sodium Channel Blockers - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | Biophysics | Hippocampus - cytology | Bumetanide - pharmacology | Mice, Knockout | Astrocytes - physiology | Patch-Clamp Techniques | Animals | Potassium Channels, Inwardly Rectifying - deficiency | Mice | Mice, Inbred BALB C | Furosemide - pharmacology | In Vitro Techniques | Potassium Channels, Inwardly Rectifying - metabolism | Quaternary Ammonium Compounds - pharmacology
glutamate uptake | glia | extracellular potassium | hepatic encephalopathy | Extracellular potassium | Glia | Glutamate uptake | Hepatic encephalopathy | RAT CORTICAL ASTROCYTES | RECTIFYING K+ CHANNEL | KNOCK-OUT | NEUROSCIENCES | CENTRAL-NERVOUS-SYSTEM | RETINAL GLIAL-CELLS | INTRACELLULAR ACIDIFICATION | AMMONIUM-IONS | BRAIN | Potassium - metabolism | Tetraethylammonium - pharmacology | Membrane Potentials - genetics | Electric Stimulation | Age Factors | Sodium Potassium Chloride Symporter Inhibitors - pharmacology | Glial Fibrillary Acidic Protein - metabolism | Dose-Response Relationship, Drug | Tetrodotoxin - pharmacology | Potassium Channel Blockers - pharmacology | Animals, Newborn | Membrane Potentials - drug effects | Astrocytes - drug effects | Ammonia - metabolism | Mice, Inbred C57BL | Sodium Channel Blockers - pharmacology | Excitatory Amino Acid Antagonists - pharmacology | Biophysics | Hippocampus - cytology | Bumetanide - pharmacology | Mice, Knockout | Astrocytes - physiology | Patch-Clamp Techniques | Animals | Potassium Channels, Inwardly Rectifying - deficiency | Mice | Mice, Inbred BALB C | Furosemide - pharmacology | In Vitro Techniques | Potassium Channels, Inwardly Rectifying - metabolism | Quaternary Ammonium Compounds - pharmacology
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Loading RightsScience, ISSN 0036-8075, 9/2005, Volume 309, Issue 5741, pp. 1735 - 1739
Lymphocyte egress from the thymus and from peripheral lymphoid organs depends on sphingosine 1-phosphate (S1P) receptor-1 and is thought to occur in response...
Spleen | T lymphocytes | Thymocytes | Lymphocytes | B lymphocytes | Reports | Lymphoid tissue | Blood | Lymph nodes | Lymph | Blood plasma | EMIGRATION | MIGRATION | THYMUS | PYRIDOXINE | AMMONIA PROCESS | METABOLISM | MULTIDISCIPLINARY SCIENCES | SPHINGOSINE-1-PHOSPHATE | RECEPTOR | T-CELLS | SPHINGOSINE 1-PHOSPHATE | Chemotaxis, Leukocyte | Lysophospholipids - metabolism | T-Lymphocytes - physiology | Vitamin B 6 - pharmacology | Lymph - immunology | Pyridoxine - analogs & derivatives | Lymphoid Tissue - immunology | RNA Interference | Lymph - metabolism | Hematopoietic Stem Cells - physiology | Sphingosine - metabolism | Aldehyde-Lyases - genetics | Receptors, Lysosphingolipid - metabolism | Thymus Gland - metabolism | Immunosuppressive Agents - pharmacology | Pyridoxine - pharmacology | Mice, Inbred C57BL | Enzyme Inhibitors - pharmacology | B-Lymphocytes - physiology | Lymphoid Tissue - metabolism | Food Coloring Agents - pharmacology | Aldehyde-Lyases - antagonists & inhibitors | Imidazoles - pharmacology | Lysophospholipids - blood | Lymph Nodes - immunology | Sphingosine - analogs & derivatives | Animals | B-Lymphocytes - immunology | Aldehyde-Lyases - metabolism | Sphingosine - blood | T-Lymphocytes - immunology | Thymus Gland - immunology | Mice | Lymphopenia - chemically induced | Lyases | Research | Observations | Lymphocyte receptors | Enzymes | Lymphatic system | Rodents
Spleen | T lymphocytes | Thymocytes | Lymphocytes | B lymphocytes | Reports | Lymphoid tissue | Blood | Lymph nodes | Lymph | Blood plasma | EMIGRATION | MIGRATION | THYMUS | PYRIDOXINE | AMMONIA PROCESS | METABOLISM | MULTIDISCIPLINARY SCIENCES | SPHINGOSINE-1-PHOSPHATE | RECEPTOR | T-CELLS | SPHINGOSINE 1-PHOSPHATE | Chemotaxis, Leukocyte | Lysophospholipids - metabolism | T-Lymphocytes - physiology | Vitamin B 6 - pharmacology | Lymph - immunology | Pyridoxine - analogs & derivatives | Lymphoid Tissue - immunology | RNA Interference | Lymph - metabolism | Hematopoietic Stem Cells - physiology | Sphingosine - metabolism | Aldehyde-Lyases - genetics | Receptors, Lysosphingolipid - metabolism | Thymus Gland - metabolism | Immunosuppressive Agents - pharmacology | Pyridoxine - pharmacology | Mice, Inbred C57BL | Enzyme Inhibitors - pharmacology | B-Lymphocytes - physiology | Lymphoid Tissue - metabolism | Food Coloring Agents - pharmacology | Aldehyde-Lyases - antagonists & inhibitors | Imidazoles - pharmacology | Lysophospholipids - blood | Lymph Nodes - immunology | Sphingosine - analogs & derivatives | Animals | B-Lymphocytes - immunology | Aldehyde-Lyases - metabolism | Sphingosine - blood | T-Lymphocytes - immunology | Thymus Gland - immunology | Mice | Lymphopenia - chemically induced | Lyases | Research | Observations | Lymphocyte receptors | Enzymes | Lymphatic system | Rodents
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