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Journal 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 | Index Medicus | Research Paper | Abscisic acid, auxin, brassinosteroids, gibberellins, ripening, strawberry
Journal Article
Plant Physiology, ISSN 0032-0889, 6/2002, Volume 129, Issue 2, pp. 897 - 907
Journal Article
Plant Physiology, ISSN 0032-0889, 10/2002, Volume 130, Issue 2, pp. 887 - 894
A screen for Arabidopsis mutants that were insensitive to methyl jasmonate (MeJA) in an assay for seedling root growth yielded only alleles of previously... 
Root growth | Alleles | Auxins | Genetic loci | Cell Biology and Signal Transduction | Plants | Hormones | Genetic mutation | Seedlings | Plant cells | Insulin antibodies | PATHWAYS | DEFENSE | ACID | PROTEIN | ETHYLENE | METHYL-JASMONATE | THALIANA | MALE-STERILE | RESISTANCE | CELL-DEATH | PLANT SCIENCES | Genetic Complementation Test | Oxylipins | Plant Roots - drug effects | Arabidopsis Proteins - metabolism | Purines | Growth Substances - genetics | Seeds - growth & development | Gene Expression Regulation, Plant | Kinetin | Nucleotidyltransferases - metabolism | Plant Roots - growth & development | Germination - drug effects | Steroids, Heterocyclic - pharmacology | Arabidopsis Proteins - genetics | Adenine - analogs & derivatives | Arabidopsis - drug effects | Amino Acids, Cyclic - pharmacology | Benzyl Compounds | Seeds - drug effects | Brassinosteroids | Adenine - pharmacology | Signal Transduction - genetics | Cyclopentanes - pharmacology | Pythium - growth & development | Arabidopsis - genetics | Cholestanols - pharmacology | Abscisic Acid - pharmacology | Arabidopsis - microbiology | Indoleacetic Acids - pharmacology | Nucleotidyltransferases - genetics | Signal Transduction - physiology | Acetates - pharmacology | Mutation | Plant Growth Regulators - pharmacology | Arabidopsis Proteins - antagonists & inhibitors | Growth Substances - metabolism | Physiological aspects | Auxin | Research | Arabidopsis | Plant hormones | Index Medicus
Journal Article
The Plant Cell, ISSN 1040-4651, 4/2000, Volume 12, Issue 4, pp. 507 - 518
Leaves originate from the shoot apical meristem, a small mound of undifferentiated tissue at the tip of the stem. Leaf formation begins with the selection of a... 
Meristems | Leaves | Inflorescences | Food paste | Phyllotaxis | Auxins | Plants | Flowers | Leaf primordia | Plant cells | BIOCHEMISTRY & MOLECULAR BIOLOGY | POLAR TRANSPORT | CELL FATE | PLANT SCIENCES | CELL BIOLOGY | PATTERN-FORMATION | GIBBERELLIC-ACID | SHOOT APICAL MERISTEM | ARABIDOPSIS | MAIZE HOMEOBOX GENE | EXPRESSION | EMBRYOGENESIS | TOMATO | Meristem - cytology | Arabidopsis - growth & development | Culture Techniques | Lycopersicon esculentum - cytology | Phthalimides - pharmacology | Arabidopsis Proteins | Lycopersicon esculentum - growth & development | Meristem - metabolism | Plant Structures - drug effects | Kinetin | Biological Transport - drug effects | Plant Leaves - drug effects | Meristem - drug effects | Lycopersicon esculentum - drug effects | Steroids, Heterocyclic - pharmacology | Lycopersicon esculentum - metabolism | Adenine - analogs & derivatives | Arabidopsis - drug effects | Indoleacetic Acids - metabolism | Membrane Proteins - genetics | Plant Structures - metabolism | Arabidopsis - cytology | Brassinosteroids | Adenine - pharmacology | Plant Structures - cytology | Glycosides - pharmacology | Mutation - genetics | Plant Structures - growth & development | Cell Division - drug effects | Meristem - growth & development | Plant Leaves - cytology | Arabidopsis - genetics | Cholestanols - pharmacology | Phenotype | Plant Leaves - metabolism | Indoleacetic Acids - pharmacology | Plant Leaves - growth & development | Membrane Transport Proteins | Gibberellins - pharmacology | Morphogenesis - drug effects | Auxin | Research | Gibberellins | Meristem | Index Medicus | Space life sciences
Journal Article
Nature Cell Biology, ISSN 1465-7392, 10/2009, Volume 11, Issue 10, pp. 1254 - 1260
Brassinosteroid (BR) regulates gene expression and plant development through a receptor kinase-mediated signal transduction pathway. Despite the identification... 
TYROSINE PHOSPHORYLATION | GSK3 | PROTEIN-KINASE | BRI1 | BZR1 | MECHANISMS | ARABIDOPSIS | PLASMA-MEMBRANE | PLANT-GROWTH | FAMILY | CELL BIOLOGY | Genes, Plant | Recombinant Fusion Proteins - metabolism | Phytosterols - pharmacology | Cell Nucleus - metabolism | Plant Proteins - chemistry | Plants, Genetically Modified | Gene Expression Regulation, Plant | Plant Proteins - metabolism | Phosphorylation - drug effects | Nuclear Proteins - genetics | Steroids, Heterocyclic - metabolism | Steroids, Heterocyclic - pharmacology | Amino Acid Sequence | Glycogen Synthase Kinase 3 - chemistry | Glutathione Transferase - metabolism | Receptors, Cell Surface - metabolism | Brassinosteroids | Nuclear Proteins - metabolism | Signal Transduction - genetics | Binding Sites - genetics | Recombinant Fusion Proteins - chemistry | Glycogen Synthase Kinase 3 - metabolism | Nuclear Proteins - chemistry | Subcellular Fractions - metabolism | Cholestanols - pharmacology | Plant Proteins - genetics | Cell Nucleus - genetics | Glycogen Synthase Kinase 3 - genetics | Phytosterols - metabolism | Protein Binding | Signal Transduction - physiology | Mutation | Plant Growth Regulators - pharmacology | Receptors, Cell Surface - genetics | Development | Physiological aspects | Genetic aspects | Cellular signal transduction | Plants | Research | DNA binding proteins | Gene expression | Index Medicus
Journal Article
Cell Research, ISSN 1001-0602, 02/2004, Volume 14, Issue 1, pp. 8 - 15
RAV1 is a novel DNA-binding protein with two distinct DNA-binding domains unique in higher plants, but its role in plant growth and development remains... 
Arabidopsis thaliana | Signal transduction | Brassinosteroid | RAV1 | APETALA2 | DOMAIN | signal transduction | PROTEIN-KINASE | SEEDLING GROWTH | BRI1 | RECEPTOR | CELL BIOLOGY | SIGNAL-TRANSDUCTION | THALIANA | GENE-EXPRESSION | brassinosteroid | BINDING | Protein Kinases - metabolism | Blotting, Southern | Okadaic Acid - pharmacology | Arabidopsis - physiology | Oligonucleotide Array Sequence Analysis | Arabidopsis - growth & development | DNA, Antisense - genetics | Arabidopsis Proteins - metabolism | Plants, Genetically Modified | Plant Roots - growth & development | Steroids, Heterocyclic - pharmacology | Arabidopsis Proteins - genetics | Arabidopsis Proteins - physiology | DNA-Binding Proteins - physiology | 2,4-Dichlorophenoxyacetic Acid - pharmacology | Gene Expression Regulation, Developmental - drug effects | Brassinosteroids | Gene Dosage | DNA-Binding Proteins - genetics | Down-Regulation - drug effects | Mutation - genetics | Blotting, Western | Cycloheximide - pharmacology | Flowers - growth & development | Rhizobium - genetics | Arabidopsis - genetics | Cholestanols - pharmacology | Transformation, Genetic - genetics | Blotting, Northern | Gene Expression Regulation, Plant - drug effects | Signal Transduction - drug effects | Models, Biological | Plant Leaves - growth & development | Zeatin - pharmacology | Plant Growth Regulators - pharmacology | Staurosporine - pharmacology | Index Medicus
Journal Article
Plant and Cell Physiology, ISSN 0032-0781, 10/2002, Volume 43, Issue 10, pp. 1229 - 1237
Journal Article
The Plant Cell, ISSN 1040-4651, 5/2002, Volume 14, Issue 5, pp. 1109 - 1120
The signal transduction pathways that control cytokinesis in plants are largely uncharacterized. Here, we provide genetic evidence that mitogen-activated... 
Phenotypes | Hypocotyls | Cell walls | Genes | Gene expression regulation | Plants | Cytokinesis | Genetic mutation | Genotypes | Plant cells | SIGNAL-TRANSDUCTION | YEAST | CELL-DIVISION | KNOLLE | MAP KINASE | PLANT CYTOKINESIS | DNA | BIOCHEMISTRY & MOLECULAR BIOLOGY | CASCADES | NPK1 | PLANT SCIENCES | CELL BIOLOGY | Multigene Family | Arabidopsis - enzymology | Arabidopsis - growth & development | Cytokinins - pharmacology | Plant Epidermis - ultrastructure | Genetic Complementation Test | Plant Stems - ultrastructure | Plants, Genetically Modified | Ethylenes - pharmacology | Plant Stems - growth & development | Cell Division - genetics | Plant Epidermis - growth & development | Steroids, Heterocyclic - pharmacology | Hypocotyl - ultrastructure | MAP Kinase Kinase Kinases - genetics | Hypocotyl - growth & development | Brassinosteroids | MAP Kinase Kinase Kinases - metabolism | Signal Transduction - genetics | Plant Epidermis - drug effects | Microscopy, Electron | Arabidopsis - genetics | Cholestanols - pharmacology | Abscisic Acid - pharmacology | Gene Expression Regulation, Plant - drug effects | Phenotype | Plant Stems - drug effects | Indoleacetic Acids - pharmacology | Alleles | Gibberellins - pharmacology | Hypocotyl - drug effects | Mutation | Plant Growth Regulators - pharmacology | Research | Arabidopsis | Protein kinases | Index Medicus
Journal Article
Plant Physiology, ISSN 0032-0889, 4/2004, Volume 134, Issue 4, pp. 1439 - 1449
Abscisic acid (ABA) is involved in a number of critical processes in normal growth and development as well as in adaptive responses to environmental stresses.... 
Enzymes | Biochemical Processes and Macromolecular Structures | Complementary DNA | Genes | Isomerization | Insect viruses | Cultured cells | Cytochromes | Biosynthesis | Catabolism | Microsomes | RETINOIC ACID | GENE | METABOLISM | THALIANA | CULTURED MAIZE CELLS | BIOLOGICAL-ACTIVITY | BRASSINOSTEROID BIOSYNTHESIS | BEAN SEEDLINGS | EXPRESSION | CYTOCHROME P450-DEPENDENT MONOOXYGENASE | PLANT SCIENCES | Gene Expression Regulation, Enzymologic - drug effects | Multigene Family | Protein Binding - genetics | Arabidopsis - enzymology | DNA, Complementary - genetics | Cytochrome P-450 Enzyme System - metabolism | Molecular Sequence Data | Mixed Function Oxygenases - metabolism | Phylogeny | Arabidopsis Proteins - metabolism | Isoenzymes - metabolism | Protein Binding - drug effects | Cloning, Molecular | Oxidation-Reduction - drug effects | Abscisic Acid - metabolism | Binding Sites - drug effects | Steroids, Heterocyclic - pharmacology | Arabidopsis Proteins - genetics | Isoenzymes - genetics | Brassinosteroids | Microsomes - enzymology | Binding Sites - genetics | Insecta - genetics | Insecta - metabolism | Arabidopsis - genetics | Cholestanols - pharmacology | Abscisic Acid - pharmacology | Gene Expression Regulation, Plant - drug effects | Animals | Cytochrome P-450 Enzyme System - genetics | Gibberellins - pharmacology | DNA, Complementary - chemistry | Mixed Function Oxygenases - genetics | Plant Growth Regulators - pharmacology | Abscisic acid | Physiological aspects | Research | Arabidopsis | Cytochrome P-450 | Index Medicus
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European Neuropsychopharmacology, ISSN 0924-977X, 2016, Volume 26, Issue 8, pp. 1297 - 1309
Abstract The control of the secretory activity of serotonergic neurons has been pointed out to reduce motor and non-motor side effects of the antiparkinsonian... 
Internal Medicine | Psychiatry | Electrophysiology | Prefrontal cortex | Intracerebral microdialysis | Exocytosis | Tissue measurement | Hippocampus | EXTRACELLULAR DOPAMINE | NEURONAL-ACTIVITY | Intracerebral micro dialysis | PSYCHIATRY | BASAL GANGLIA | HIGH-FREQUENCY STIMULATION | UPTAKE SITES | SUBSTANTIA-NIGRA | NEUROSCIENCES | CLINICAL NEUROLOGY | EXOGENOUS L-DOPA | SUBTHALAMIC NUCLEUS | Tissue measurement Electrophysiology | PHARMACOLOGY & PHARMACY | INDUCED DYSKINESIA | PARKINSONS-DISEASE | Antiparkinson Agents - pharmacology | Citalopram - pharmacology | Serotonergic Neurons - secretion | Prefrontal Cortex - physiopathology | Male | Parkinson Disease - drug therapy | Hippocampus - drug effects | Dopamine Agents - therapeutic use | Antiparkinson Agents - therapeutic use | Dose-Response Relationship, Drug | Hippocampus - secretion | Prefrontal Cortex - drug effects | Levodopa - administration & dosage | Dopamine Agents - pharmacology | Cholestanols | Dopaminergic Neurons - drug effects | Synaptic Transmission - drug effects | Dopamine Agents - administration & dosage | Single-Cell Analysis | Dopaminergic Neurons - secretion | Action Potentials - drug effects | Disease Models, Animal | Levodopa - pharmacology | Serotonergic Neurons - drug effects | Levodopa - secretion | Levodopa - therapeutic use | Hydroxyindoleacetic Acid - metabolism | Organ Specificity | Parkinson Disease - physiopathology | Rats, Sprague-Dawley | Animals | Prefrontal Cortex - secretion | Serotonin - secretion | Antiparkinson Agents - administration & dosage | Serotonin Uptake Inhibitors - pharmacology | Hippocampus - physiopathology | Phenols | Serotonin | Neurons | Antidepressants | Antiparkinsonian agents | Index Medicus
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