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Publication DateNature, ISSN 0028-0836, 2013, Volume 500, Issue 7463, pp. 422 - 426
Wounded leaves communicate their damage status to one another through a poorly understood process of long-distance signalling. This stimulates the distal...
RESPONSES | DEFENSE | ARABIDOPSIS-THALIANA | ATPASE ACTIVITY | HIGHER-PLANTS | JASMONIC ACID BIOSYNTHESIS | MULTIDISCIPLINARY SCIENCES | ACCUMULATION | POTENTIALS | INDUCTION | EXPRESSION | Receptors, Glutamate - metabolism | Genes, Plant | Herbivory - physiology | Plant Diseases - etiology | Electric Conductivity | Synaptic Transmission | Arabidopsis Proteins - metabolism | Synapses - metabolism | Models, Animal | Plant Diseases - genetics | Plant Leaves - drug effects | Nuclear Proteins - genetics | Arabidopsis Proteins - genetics | Arabidopsis - drug effects | Receptors, Glutamate - genetics | Nuclear Proteins - metabolism | Signal Transduction - genetics | Transcriptome - drug effects | Transcriptome - genetics | Cyclopentanes - pharmacology | Arabidopsis - metabolism | Isoleucine - metabolism | Arabidopsis - genetics | Oxylipins - metabolism | Gene Expression Regulation, Plant - drug effects | Animals | Plant Leaves - genetics | Plant Leaves - metabolism | Signal Transduction - drug effects | Isoleucine - analogs & derivatives | Oxylipins - pharmacology | Cyclopentanes - metabolism | Electrophysiological Phenomena | Mutation | Plant Growth Regulators - metabolism | Plant Growth Regulators - pharmacology | Electrodes | Plasma | Leaves | Gene expression
RESPONSES | DEFENSE | ARABIDOPSIS-THALIANA | ATPASE ACTIVITY | HIGHER-PLANTS | JASMONIC ACID BIOSYNTHESIS | MULTIDISCIPLINARY SCIENCES | ACCUMULATION | POTENTIALS | INDUCTION | EXPRESSION | Receptors, Glutamate - metabolism | Genes, Plant | Herbivory - physiology | Plant Diseases - etiology | Electric Conductivity | Synaptic Transmission | Arabidopsis Proteins - metabolism | Synapses - metabolism | Models, Animal | Plant Diseases - genetics | Plant Leaves - drug effects | Nuclear Proteins - genetics | Arabidopsis Proteins - genetics | Arabidopsis - drug effects | Receptors, Glutamate - genetics | Nuclear Proteins - metabolism | Signal Transduction - genetics | Transcriptome - drug effects | Transcriptome - genetics | Cyclopentanes - pharmacology | Arabidopsis - metabolism | Isoleucine - metabolism | Arabidopsis - genetics | Oxylipins - metabolism | Gene Expression Regulation, Plant - drug effects | Animals | Plant Leaves - genetics | Plant Leaves - metabolism | Signal Transduction - drug effects | Isoleucine - analogs & derivatives | Oxylipins - pharmacology | Cyclopentanes - metabolism | Electrophysiological Phenomena | Mutation | Plant Growth Regulators - metabolism | Plant Growth Regulators - pharmacology | Electrodes | Plasma | Leaves | Gene expression
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Loading RightsProstaglandins and Other Lipid Mediators, ISSN 1098-8823, 05/2017, Volume 130, pp. 8 - 15
The performance of two derivatization and ionization techniques for the quantitative reversed phase liquid chromatography (LC)- mass spectrometry (MS) analysis...
Eicosanoids | Lipidomics | AMPP | Liquid chromatography mass spectrometry | Derivatization | Oxylipins | CHARGE REVERSAL DERIVATIZATION | ACIDS | BIOCHEMISTRY & MOLECULAR BIOLOGY | SENSITIVITY | CHEMICAL-IONIZATION | SUPPRESSION | MS/MS | CELL BIOLOGY | PLASMA | Oxylipins - blood | Blood Chemical Analysis | Humans | Oxylipins - antagonists & inhibitors | Oxylipins - isolation & purification | Chromatography, Liquid - methods | Tandem Mass Spectrometry - methods | Oxylipins - chemistry | Medical colleges | Unsaturated fatty acids | Liquid chromatography | Comparative analysis | Mass spectrometry | Methods
Eicosanoids | Lipidomics | AMPP | Liquid chromatography mass spectrometry | Derivatization | Oxylipins | CHARGE REVERSAL DERIVATIZATION | ACIDS | BIOCHEMISTRY & MOLECULAR BIOLOGY | SENSITIVITY | CHEMICAL-IONIZATION | SUPPRESSION | MS/MS | CELL BIOLOGY | PLASMA | Oxylipins - blood | Blood Chemical Analysis | Humans | Oxylipins - antagonists & inhibitors | Oxylipins - isolation & purification | Chromatography, Liquid - methods | Tandem Mass Spectrometry - methods | Oxylipins - chemistry | Medical colleges | Unsaturated fatty acids | Liquid chromatography | Comparative analysis | Mass spectrometry | Methods
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Loading RightsJournal of Experimental Botany, ISSN 0022-0957, 1/2010, Volume 61, Issue 10, pp. 2589 - 2601
Arbuscular mycorrhizal (AM) symbioses are mutualistic associations between soil fungi and most vascular plants. The symbiosis significantly affects the host...
Symbiosis | Plant interaction | Microbial colonization | Genes | Plant roots | Mosses | Biosynthesis | Gene expression regulation | Plants | Hormones | RESEARCH PAPER | LC-MS/MS analysis | Jasmonates | Microarrays | Arbuscular mycorrhiza | Oxylipins | MS analysis | PHOSPHATE TRANSPORTER GENES | DEFENSE RESPONSES | hormones | PREPENETRATION APPARATUS | MEDICAGO-TRUNCATULA ROOTS | microarrays | PLANT SCIENCES | LC-MS | GLOMUS-INTRARADICES | SALICYLIC-ACID | INDUCED RESISTANCE | NICOTIANA-ATTENUATA | TOMATO PLANTS | oxylipins | jasmonates | JASMONIC ACID | Plant Roots - genetics | Gene Expression Profiling | Colony Count, Microbial | Mycorrhizae - growth & development | Glomeromycota - drug effects | Mycorrhizae - cytology | Symbiosis - genetics | Lycopersicon esculentum - genetics | Symbiosis - drug effects | Lycopersicon esculentum - immunology | Glomeromycota - metabolism | Lycopersicon esculentum - drug effects | Plant Roots - cytology | Cyclopentanes - pharmacology | Glomeromycota - cytology | Plant Roots - microbiology | Mycorrhizae - drug effects | Lycopersicon esculentum - microbiology | Oxylipins - metabolism | Gene Expression Regulation, Plant - drug effects | Host-Pathogen Interactions - genetics | Mycorrhizae - metabolism | Oxylipins - pharmacology | Acetates - pharmacology | Metabolic Networks and Pathways - drug effects | Plant Growth Regulators - metabolism | Oxylipins - chemistry | Glomeromycota - growth & development | Research Papers
Symbiosis | Plant interaction | Microbial colonization | Genes | Plant roots | Mosses | Biosynthesis | Gene expression regulation | Plants | Hormones | RESEARCH PAPER | LC-MS/MS analysis | Jasmonates | Microarrays | Arbuscular mycorrhiza | Oxylipins | MS analysis | PHOSPHATE TRANSPORTER GENES | DEFENSE RESPONSES | hormones | PREPENETRATION APPARATUS | MEDICAGO-TRUNCATULA ROOTS | microarrays | PLANT SCIENCES | LC-MS | GLOMUS-INTRARADICES | SALICYLIC-ACID | INDUCED RESISTANCE | NICOTIANA-ATTENUATA | TOMATO PLANTS | oxylipins | jasmonates | JASMONIC ACID | Plant Roots - genetics | Gene Expression Profiling | Colony Count, Microbial | Mycorrhizae - growth & development | Glomeromycota - drug effects | Mycorrhizae - cytology | Symbiosis - genetics | Lycopersicon esculentum - genetics | Symbiosis - drug effects | Lycopersicon esculentum - immunology | Glomeromycota - metabolism | Lycopersicon esculentum - drug effects | Plant Roots - cytology | Cyclopentanes - pharmacology | Glomeromycota - cytology | Plant Roots - microbiology | Mycorrhizae - drug effects | Lycopersicon esculentum - microbiology | Oxylipins - metabolism | Gene Expression Regulation, Plant - drug effects | Host-Pathogen Interactions - genetics | Mycorrhizae - metabolism | Oxylipins - pharmacology | Acetates - pharmacology | Metabolic Networks and Pathways - drug effects | Plant Growth Regulators - metabolism | Oxylipins - chemistry | Glomeromycota - growth & development | Research Papers
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Loading RightsAnalytical and Bioanalytical Chemistry, ISSN 1618-2642, 03/2015, Volume 407, Issue 10, pp. 2675 - 2683
Quantification of eicosanoids and oxylipins derived from other polyunsaturated fatty acids in biological samples is crucial for a better understanding of the...
Eicosanoids | LC-MS | Targeted metabolomics | Lipid mediators | Arachidonic acid cascade | Oxylipins | CHEMISTRY, ANALYTICAL | PLASMA | PAIN | BIOCHEMICAL RESEARCH METHODS | Lipidmediators LC-MS | FATTY-ACIDS | LIPIDS | BLOOD | Oxylipins - blood | Oxylipins - metabolism | Arachidonic Acid - metabolism | Chromatography, Reverse-Phase - methods | Stereoisomerism | Humans | Metabolomics - instrumentation | Oxylipins - analysis | Mass Spectrometry - methods | Metabolomics - methods | Esterification | Liquid chromatography | Chemical properties | Natural products | Mass spectrometry | Identification and classification | Methods | Index Medicus | Analytical chemistry | Mathematical analysis | Cascades | Monitors | Lipids | Biology | Arachidonic acid | Standards
Eicosanoids | LC-MS | Targeted metabolomics | Lipid mediators | Arachidonic acid cascade | Oxylipins | CHEMISTRY, ANALYTICAL | PLASMA | PAIN | BIOCHEMICAL RESEARCH METHODS | Lipidmediators LC-MS | FATTY-ACIDS | LIPIDS | BLOOD | Oxylipins - blood | Oxylipins - metabolism | Arachidonic Acid - metabolism | Chromatography, Reverse-Phase - methods | Stereoisomerism | Humans | Metabolomics - instrumentation | Oxylipins - analysis | Mass Spectrometry - methods | Metabolomics - methods | Esterification | Liquid chromatography | Chemical properties | Natural products | Mass spectrometry | Identification and classification | Methods | Index Medicus | Analytical chemistry | Mathematical analysis | Cascades | Monitors | Lipids | Biology | Arachidonic acid | Standards
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Loading RightsJournal of Dairy Science, ISSN 0022-0302, 06/2018, Volume 101, Issue 6, pp. 5629 - 5641
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Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 9/2015, Volume 112, Issue 36, pp. 11407 - 11412
Plant damage promotes the interaction of lipoxygenases (LOXs) with fatty acids yielding 9-hydroperoxides, 13-hydroperoxides, and complex arrays of oxylipins....
Maize | 9-Lipoxygenase | 10-oxo-11-phytoenoic acid | Defense | Oxylipin | 12-OXO-PHYTODIENOIC ACID | OXYLIPINS | ARABIDOPSIS-THALIANA | oxylipin | LIPID-PEROXIDATION | MULTIDISCIPLINARY SCIENCES | maize | 9-lipoxygenase | TOBACCO-LEAVES | RESPONSES | HYPERSENSITIVE CELL-DEATH | defense | PLANT DEFENSE | JASMONIC ACID | CYSTEINE PROTEASES | Sesquiterpenes - metabolism | Oligonucleotide Array Sequence Analysis | Cyclopentanes - chemistry | Immunoblotting | Plant Diseases - microbiology | Gene Expression Profiling | Lipoxygenase - metabolism | Plant Diseases - genetics | Molecular Structure | Plant Proteins - metabolism | Zea mays - metabolism | Zea mays - genetics | Sesquiterpenes - chemistry | Ascomycota - physiology | Magnetic Resonance Spectroscopy | Cyclopentanes - pharmacology | Cystatins - metabolism | Reverse Transcriptase Polymerase Chain Reaction | Host-Pathogen Interactions | Oxylipins - metabolism | Plant Proteins - genetics | Gene Expression Regulation, Plant - drug effects | Cystatins - genetics | Plant Leaves - genetics | Plant Leaves - metabolism | Zea mays - microbiology | Lipoxygenase - genetics | Cyclopentanes - metabolism | Sesquiterpenes - pharmacology | Oxylipins - chemistry | Plant Leaves - microbiology | Biological Sciences
Maize | 9-Lipoxygenase | 10-oxo-11-phytoenoic acid | Defense | Oxylipin | 12-OXO-PHYTODIENOIC ACID | OXYLIPINS | ARABIDOPSIS-THALIANA | oxylipin | LIPID-PEROXIDATION | MULTIDISCIPLINARY SCIENCES | maize | 9-lipoxygenase | TOBACCO-LEAVES | RESPONSES | HYPERSENSITIVE CELL-DEATH | defense | PLANT DEFENSE | JASMONIC ACID | CYSTEINE PROTEASES | Sesquiterpenes - metabolism | Oligonucleotide Array Sequence Analysis | Cyclopentanes - chemistry | Immunoblotting | Plant Diseases - microbiology | Gene Expression Profiling | Lipoxygenase - metabolism | Plant Diseases - genetics | Molecular Structure | Plant Proteins - metabolism | Zea mays - metabolism | Zea mays - genetics | Sesquiterpenes - chemistry | Ascomycota - physiology | Magnetic Resonance Spectroscopy | Cyclopentanes - pharmacology | Cystatins - metabolism | Reverse Transcriptase Polymerase Chain Reaction | Host-Pathogen Interactions | Oxylipins - metabolism | Plant Proteins - genetics | Gene Expression Regulation, Plant - drug effects | Cystatins - genetics | Plant Leaves - genetics | Plant Leaves - metabolism | Zea mays - microbiology | Lipoxygenase - genetics | Cyclopentanes - metabolism | Sesquiterpenes - pharmacology | Oxylipins - chemistry | Plant Leaves - microbiology | Biological Sciences
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Loading RightsPhytochemistry, ISSN 0031-9422, 10/2015, Volume 118, pp. 42 - 50
Spikemoss possesses an array of oxylipins derived from the 13-lipoxygenase pathway, including the divinyl ethers and 12-oxo-10,15-phytodienoic acid isomers....
Lipoxygenase pathway | Divinyl ethers | Selaginella martensii Spring | Oxylipins | 12-Oxophytodienoic acid | BIOCHEMISTRY & MOLECULAR BIOLOGY | ALLENE OXIDE CYCLASE | FATTY-ACIDS | IDENTIFICATION | MOSS PHYSCOMITRELLA-PATENS | PLANT SCIENCES | SYNTHASE | GARLIC BULBS | BIOSYNTHESIS | PLANT DEFENSE | MOLECULAR-CLONING | Selaginellaceae - chemistry | Cytochrome P-450 Enzyme System - metabolism | Oxylipins - analysis | Selaginellaceae - metabolism | Linoleic Acid - analysis | Oxylipins - metabolism | Fatty Acids, Unsaturated - chemistry | Cyclopentanes - analysis | Vinyl Compounds - analysis | alpha-Linolenic Acid - metabolism | Nuclear Magnetic Resonance, Biomolecular | Plant Proteins - metabolism | Fatty Acids, Unsaturated - analysis | Intramolecular Oxidoreductases - metabolism | Lipoxygenase | Oxylipins - chemistry
Lipoxygenase pathway | Divinyl ethers | Selaginella martensii Spring | Oxylipins | 12-Oxophytodienoic acid | BIOCHEMISTRY & MOLECULAR BIOLOGY | ALLENE OXIDE CYCLASE | FATTY-ACIDS | IDENTIFICATION | MOSS PHYSCOMITRELLA-PATENS | PLANT SCIENCES | SYNTHASE | GARLIC BULBS | BIOSYNTHESIS | PLANT DEFENSE | MOLECULAR-CLONING | Selaginellaceae - chemistry | Cytochrome P-450 Enzyme System - metabolism | Oxylipins - analysis | Selaginellaceae - metabolism | Linoleic Acid - analysis | Oxylipins - metabolism | Fatty Acids, Unsaturated - chemistry | Cyclopentanes - analysis | Vinyl Compounds - analysis | alpha-Linolenic Acid - metabolism | Nuclear Magnetic Resonance, Biomolecular | Plant Proteins - metabolism | Fatty Acids, Unsaturated - analysis | Intramolecular Oxidoreductases - metabolism | Lipoxygenase | Oxylipins - chemistry
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Loading RightsThe New Phytologist, ISSN 0028-646X, 9/2009, Volume 183, Issue 4, pp. 1064 - 1071
In recent years, oxylipins (lipoxygenase-derived oxygenated fatty acid products) have been reported in several bloom-forming marine diatoms. Despite increasing...
Molecules | Hydroxy acids | Steepest descent method | Algae | Biosynthesis | Biochemistry | Plants | Diatoms | Aldehydes | Chemicals | cell regulation | lipoxygenase | oxylipin | marine diatoms | biosynthesis | mass spectrometry | lipid profiling | bloom control | Cell regulation | Lipid profiling | Bloom control | Lipoxygenase | Mass spectrometry | Marine diatoms | Oxylipin | OXYLIPINS | CATALYSIS | MECHANISM | ACIDS | CELL-DEATH | PLANT SCIENCES | ACTIVATED CHEMICAL DEFENSE | ALDEHYDE BIOSYNTHESIS | CHEMISTRY | Diatoms - growth & development | Oxylipins - metabolism | Lipoxygenase - metabolism | Eicosapentaenoic Acid - metabolism | Oxylipins - isolation & purification | Cell Culture Techniques | Fatty Acids, Unsaturated - biosynthesis | Oxylipins - chemistry | Diatoms - metabolism | Physiological aspects | Enzymes | Unsaturated fatty acids | Ecology | Omega-3 fatty acids
Molecules | Hydroxy acids | Steepest descent method | Algae | Biosynthesis | Biochemistry | Plants | Diatoms | Aldehydes | Chemicals | cell regulation | lipoxygenase | oxylipin | marine diatoms | biosynthesis | mass spectrometry | lipid profiling | bloom control | Cell regulation | Lipid profiling | Bloom control | Lipoxygenase | Mass spectrometry | Marine diatoms | Oxylipin | OXYLIPINS | CATALYSIS | MECHANISM | ACIDS | CELL-DEATH | PLANT SCIENCES | ACTIVATED CHEMICAL DEFENSE | ALDEHYDE BIOSYNTHESIS | CHEMISTRY | Diatoms - growth & development | Oxylipins - metabolism | Lipoxygenase - metabolism | Eicosapentaenoic Acid - metabolism | Oxylipins - isolation & purification | Cell Culture Techniques | Fatty Acids, Unsaturated - biosynthesis | Oxylipins - chemistry | Diatoms - metabolism | Physiological aspects | Enzymes | Unsaturated fatty acids | Ecology | Omega-3 fatty acids
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Loading RightsMolecules, ISSN 1420-3049, 02/2016, Volume 21, Issue 2, p. 254
Nine oxylipin mimics were designed and synthesized starting from d-mannose. Their antifungal activity against three citrus postharvest pathogens was evaluated...
Citrus | Antifungal activity | Synthesis | Pathogen | Oxylipin | synthesis | DEFENSE | oxylipin | PLANT OXYLIPINS | CHEMISTRY, ORGANIC | FATTY-ACIDS | GERMINATION | antifungal activity | citrus | ASPERGILLUS | FRUIT | BIOSYNTHESIS | RESISTANCE | pathogen | STRESS | METHYL-ESTERS | Antifungal Agents - pharmacology | Aspergillus niger - pathogenicity | Mannose - chemical synthesis | Antifungal Agents - chemical synthesis | Antifungal Agents - chemistry | Penicillium - drug effects | Food Preservation | Citrus - microbiology | Penicillium - pathogenicity | Fruit - microbiology | Oxylipins - chemical synthesis | Oxylipins - pharmacology | Aspergillus niger - drug effects | Oxylipins - chemistry | Mannose - chemistry | Pathogens | Fungicides | Spore germination | Penicillium | Germination | Penicillium digitatum | Mannose | Inhibition | Blue mold
Citrus | Antifungal activity | Synthesis | Pathogen | Oxylipin | synthesis | DEFENSE | oxylipin | PLANT OXYLIPINS | CHEMISTRY, ORGANIC | FATTY-ACIDS | GERMINATION | antifungal activity | citrus | ASPERGILLUS | FRUIT | BIOSYNTHESIS | RESISTANCE | pathogen | STRESS | METHYL-ESTERS | Antifungal Agents - pharmacology | Aspergillus niger - pathogenicity | Mannose - chemical synthesis | Antifungal Agents - chemical synthesis | Antifungal Agents - chemistry | Penicillium - drug effects | Food Preservation | Citrus - microbiology | Penicillium - pathogenicity | Fruit - microbiology | Oxylipins - chemical synthesis | Oxylipins - pharmacology | Aspergillus niger - drug effects | Oxylipins - chemistry | Mannose - chemistry | Pathogens | Fungicides | Spore germination | Penicillium | Germination | Penicillium digitatum | Mannose | Inhibition | Blue mold
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Loading RightsAnnals of Botany, ISSN 0305-7364, 6/2013, Volume 111, Issue 6, pp. 1021 - 1058
• Background Jasmonates are important regulators in plant responses to biotic and abiotic stresses as well as in development. Synthesized from...
Plant physiology | Genes | Plant roots | Botany | Auxins | Biosynthesis | Gene expression regulation | Plants | Herbivores | INVITED REVIEW | Plant cells | JAZ | JA signalling | light regulation | SCF | oxylipins | JA in development | COI1 | enzymes in biosynthesis and metabolism | responses to herbivores and pathogens | symbiotic interaction | Jasmonic acid | perception | ARTEMISIA-ANNUA L | JASMONOYL-L-ISOLEUCINE | SALICYLIC-ACID ACCUMULATION | SYSTEMIC ACQUIRED-RESISTANCE | REGULATE ALKALOID BIOSYNTHESIS | PLANT SCIENCES | ARABIDOPSIS JAZ PROTEINS | ALLENE-OXIDE-CYCLASE | FUNGUS PIRIFORMOSPORA-INDICA | TOBACCO TRANSCRIPTION FACTORS | LONG-DISTANCE TRANSPORT | Host-Pathogen Interactions | Symbiosis | Oxylipins - metabolism | Plants - metabolism | Animals | Plant Development | Signal Transduction | Light | Stress, Physiological | Cyclopentanes - metabolism | Herbivory | Invited Review
Plant physiology | Genes | Plant roots | Botany | Auxins | Biosynthesis | Gene expression regulation | Plants | Herbivores | INVITED REVIEW | Plant cells | JAZ | JA signalling | light regulation | SCF | oxylipins | JA in development | COI1 | enzymes in biosynthesis and metabolism | responses to herbivores and pathogens | symbiotic interaction | Jasmonic acid | perception | ARTEMISIA-ANNUA L | JASMONOYL-L-ISOLEUCINE | SALICYLIC-ACID ACCUMULATION | SYSTEMIC ACQUIRED-RESISTANCE | REGULATE ALKALOID BIOSYNTHESIS | PLANT SCIENCES | ARABIDOPSIS JAZ PROTEINS | ALLENE-OXIDE-CYCLASE | FUNGUS PIRIFORMOSPORA-INDICA | TOBACCO TRANSCRIPTION FACTORS | LONG-DISTANCE TRANSPORT | Host-Pathogen Interactions | Symbiosis | Oxylipins - metabolism | Plants - metabolism | Animals | Plant Development | Signal Transduction | Light | Stress, Physiological | Cyclopentanes - metabolism | Herbivory | Invited Review
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