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Publication DateTrends in Plant Science, ISSN 1360-1385, 2011, Volume 16, Issue 5, pp. 249 - 257
Plants have sophisticated defense systems to protect their tissues against the attack of herbivorous organisms. Many of these defenses are orchestrated by the...
PLANT IMMUNE-RESPONSES | CROSS-TALK | SHADE-AVOIDANCE | ARABIDOPSIS-THALIANA | INDUCED RESISTANCE | NICOTIANA-ATTENUATA | PHOTOSYNTHETIC ACCLIMATION | DEPENDENT DEFENSE | INTEGRATES SIGNALS | ULTRAVIOLET-B RADIATION | PLANT SCIENCES
PLANT IMMUNE-RESPONSES | CROSS-TALK | SHADE-AVOIDANCE | ARABIDOPSIS-THALIANA | INDUCED RESISTANCE | NICOTIANA-ATTENUATA | PHOTOSYNTHETIC ACCLIMATION | DEPENDENT DEFENSE | INTEGRATES SIGNALS | ULTRAVIOLET-B RADIATION | PLANT SCIENCES
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Loading RightsTrends in Plant Science, ISSN 1360-1385, 05/2012, Volume 17, Issue 5, pp. 250 - 259
The capacity to perceive and respond is integral to biological immune systems, but to what extent can plants specifically recognize and respond to insects?...
DEFENSE RESPONSES | INDUCED RESISTANCE | ORAL SECRETIONS | LARGE-SCALE CHANGES | GENE-EXPRESSION | MANDUCA-SEXTA LEPIDOPTERA | HOST NICOTIANA-ATTENUATA | ABSCISIC-ACID | JASMONIC ACID | TRYPSIN PROTEINASE-INHIBITORS | PLANT SCIENCES | Plants - metabolism | Animals | Models, Biological | Plants - parasitology | Plant Growth Regulators - physiology | Host Specificity | Insecta - physiology | Host-Parasite Interactions | Plant Growth Regulators - metabolism | Plant Diseases - parasitology | Indexing in process
DEFENSE RESPONSES | INDUCED RESISTANCE | ORAL SECRETIONS | LARGE-SCALE CHANGES | GENE-EXPRESSION | MANDUCA-SEXTA LEPIDOPTERA | HOST NICOTIANA-ATTENUATA | ABSCISIC-ACID | JASMONIC ACID | TRYPSIN PROTEINASE-INHIBITORS | PLANT SCIENCES | Plants - metabolism | Animals | Models, Biological | Plants - parasitology | Plant Growth Regulators - physiology | Host Specificity | Insecta - physiology | Host-Parasite Interactions | Plant Growth Regulators - metabolism | Plant Diseases - parasitology | Indexing in process
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Loading RightsTrends in Plant Science, ISSN 1360-1385, 05/2012, Volume 17, Issue 5, pp. 293 - 302
There has been a long-standing hypothesis that specialist and generalist insects interact with plants in distinct ways. Although many tests exist, they...
LEPTINOTARSA-DECEMLINEATA SAY | MOLECULAR-INTERACTIONS | ARABIDOPSIS-THALIANA | PYRROLIZIDINE ALKALOIDS | FEEDING GUILDS | MANDUCA-SEXTA LEPIDOPTERA | HOST NICOTIANA-ATTENUATA | GLUCOSINOLATE PROFILES | TRANSCRIPTIONAL RESPONSES | LYCOPERSICON-ESCULENTUM | PLANT SCIENCES | Herbivory - classification | Animals | Disease Resistance - physiology | Species Specificity | Herbivory - physiology | Insecta - classification | Plants - parasitology | Insecta - physiology | Signal Transduction - physiology | Host-Parasite Interactions | Plants - classification | Feeding Behavior - physiology
LEPTINOTARSA-DECEMLINEATA SAY | MOLECULAR-INTERACTIONS | ARABIDOPSIS-THALIANA | PYRROLIZIDINE ALKALOIDS | FEEDING GUILDS | MANDUCA-SEXTA LEPIDOPTERA | HOST NICOTIANA-ATTENUATA | GLUCOSINOLATE PROFILES | TRANSCRIPTIONAL RESPONSES | LYCOPERSICON-ESCULENTUM | PLANT SCIENCES | Herbivory - classification | Animals | Disease Resistance - physiology | Species Specificity | Herbivory - physiology | Insecta - classification | Plants - parasitology | Insecta - physiology | Signal Transduction - physiology | Host-Parasite Interactions | Plants - classification | Feeding Behavior - physiology
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The evolutionary context for herbivore-induced plant volatiles: beyond the ‘cry for help’
Trends in Plant Science, ISSN 1360-1385, 2010, Volume 15, Issue 3, pp. 167 - 175
Attacks by herbivores elicit changes in the bouquet of volatiles released by plants. These herbivore-induced plant volatiles (HIPVs) have been interpreted as...
natural enemies | phytoseiulus-persimilis | phytophagous insects | host-plant | molecular-interactions | nicotiana-attenuata | manduca-sexta lepidoptera | indirect defenses | jasmonic acid treatment | interspecific interactions | MOLECULAR-INTERACTIONS | INDIRECT DEFENSES | NATURAL ENEMIES | PHYTOSEIULUS-PERSIMILIS | NICOTIANA-ATTENUATA | JASMONIC ACID TREATMENT | INTERSPECIFIC INTERACTIONS | MANDUCA-SEXTA LEPIDOPTERA | HOST-PLANT | PHYTOPHAGOUS INSECTS | PLANT SCIENCES | Behavior, Animal | Biological Evolution | Food Chain | Plants - metabolism | Animals | Volatile Organic Compounds - metabolism | Plant Physiological Phenomena | Plants - chemistry | Volatile Organic Compounds - chemistry
natural enemies | phytoseiulus-persimilis | phytophagous insects | host-plant | molecular-interactions | nicotiana-attenuata | manduca-sexta lepidoptera | indirect defenses | jasmonic acid treatment | interspecific interactions | MOLECULAR-INTERACTIONS | INDIRECT DEFENSES | NATURAL ENEMIES | PHYTOSEIULUS-PERSIMILIS | NICOTIANA-ATTENUATA | JASMONIC ACID TREATMENT | INTERSPECIFIC INTERACTIONS | MANDUCA-SEXTA LEPIDOPTERA | HOST-PLANT | PHYTOPHAGOUS INSECTS | PLANT SCIENCES | Behavior, Animal | Biological Evolution | Food Chain | Plants - metabolism | Animals | Volatile Organic Compounds - metabolism | Plant Physiological Phenomena | Plants - chemistry | Volatile Organic Compounds - chemistry
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Loading RightsAnnual Review of Plant Biology, ISSN 1543-5008, 2008, Volume 59, Issue 1, pp. 41 - 66
Herbivorous insects use diverse feeding strategies to obtain nutrients from their host plants. Rather than acting as passive victims in these interactions,...
Plant-insect interaction | COI1 | Jasmonate | Plant defense | Secondary metabolism | MOLECULAR-INTERACTIONS | DEFENSE RESPONSES | LIMA-BEAN LEAVES | jasmonate | plant-insect interaction | HOST NICOTIANA-ATTENUATA | FEEDING SPODOPTERA-LITTORALIS | PROTEASE INHIBITORS | PLANT SCIENCES | INDUCED GENE-EXPRESSION | plant defense | secondary metabolism | LARGE-SCALE CHANGES | MANDUCA-SEXTA LEPIDOPTERA | JASMONIC ACID | Animals | Indoleacetic Acids - metabolism | Plants - genetics | Signal Transduction | Plants - parasitology | Plant Diseases - immunology | Insecta - pathogenicity | Aphids - pathogenicity | Immunity, Innate | Plant Diseases - parasitology | Plants - immunology | Mitogen-Activated Protein Kinases - metabolism | Control | Plant defenses | Research | Plant physiology | Arthropoda
Plant-insect interaction | COI1 | Jasmonate | Plant defense | Secondary metabolism | MOLECULAR-INTERACTIONS | DEFENSE RESPONSES | LIMA-BEAN LEAVES | jasmonate | plant-insect interaction | HOST NICOTIANA-ATTENUATA | FEEDING SPODOPTERA-LITTORALIS | PROTEASE INHIBITORS | PLANT SCIENCES | INDUCED GENE-EXPRESSION | plant defense | secondary metabolism | LARGE-SCALE CHANGES | MANDUCA-SEXTA LEPIDOPTERA | JASMONIC ACID | Animals | Indoleacetic Acids - metabolism | Plants - genetics | Signal Transduction | Plants - parasitology | Plant Diseases - immunology | Insecta - pathogenicity | Aphids - pathogenicity | Immunity, Innate | Plant Diseases - parasitology | Plants - immunology | Mitogen-Activated Protein Kinases - metabolism | Control | Plant defenses | Research | Plant physiology | Arthropoda
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Loading RightsAnnual Review of Genetics, ISSN 0066-4197, 12/2010, Volume 44, Issue 1, pp. 1 - 24
Plants have evolved sophisticated systems to cope with herbivore challenges. When plants perceive herbivore-derived physical and chemical cues, such as...
signaling | defense | Plant-herbivore interaction | elicitor | systemic response | natural variation | ACTIVATED PROTEIN-KINASE | LIMA-BEAN LEAVES | FEEDING SPODOPTERA-LITTORALIS | HOST NICOTIANA-ATTENUATA | 1-AMINOCYCLOPROPANE-1-CARBOXYLIC ACID SYNTHASE | plant-herbivore interaction | GENETICS & HEREDITY | PLASMA-MEMBRANE PROTEIN | GENE-EXPRESSION | MANDUCA-SEXTA LEPIDOPTERA | DEFENSE-SIGNALING PATHWAYS | FURCIFERA HORVATH HOMOPTERA | Food Chain | Animals | Plant Physiological Phenomena | Plants - chemistry | Signal Transduction | Insecta | Insect resistance | Analysis | Physiological aspects | Genetic aspects | Chemical properties | Plants | Phytophagous insects | Phosphotransferases
signaling | defense | Plant-herbivore interaction | elicitor | systemic response | natural variation | ACTIVATED PROTEIN-KINASE | LIMA-BEAN LEAVES | FEEDING SPODOPTERA-LITTORALIS | HOST NICOTIANA-ATTENUATA | 1-AMINOCYCLOPROPANE-1-CARBOXYLIC ACID SYNTHASE | plant-herbivore interaction | GENETICS & HEREDITY | PLASMA-MEMBRANE PROTEIN | GENE-EXPRESSION | MANDUCA-SEXTA LEPIDOPTERA | DEFENSE-SIGNALING PATHWAYS | FURCIFERA HORVATH HOMOPTERA | Food Chain | Animals | Plant Physiological Phenomena | Plants - chemistry | Signal Transduction | Insecta | Insect resistance | Analysis | Physiological aspects | Genetic aspects | Chemical properties | Plants | Phytophagous insects | Phosphotransferases
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Loading RightsAnnual Review of Entomology, ISSN 0066-4170, 01/2011, Volume 56, Issue 1, pp. 161 - 180
Plants often release a blend of volatile organic compounds in response to damage by herbivorous insects that may serve as cues to locate those herbivores by...
natural enemies | HIPVs | tritrophic interactions | evolution | habitat location | indirect defenses | variation | NONHOST HERBIVORE | PSEUDALETIA-SEPARATA | ENTOMOLOGY | PARASITOID COTESIA-MARGINIVENTRIS | SPODOPTERA-LITTORALIS | NICOTIANA-ATTENUATA | HEADSPACE VOLATILES | JASMONIC ACID | Food Chain | Animals | Genetic Fitness | Plants - genetics | Insecta | Volatile Organic Compounds - analysis | Plants - chemistry | Biogenic volatile organic compounds | Plant defenses | Insect-plant relationships | Botany | Physiological aspects | Environmental aspects | Research | Properties | Health aspects
natural enemies | HIPVs | tritrophic interactions | evolution | habitat location | indirect defenses | variation | NONHOST HERBIVORE | PSEUDALETIA-SEPARATA | ENTOMOLOGY | PARASITOID COTESIA-MARGINIVENTRIS | SPODOPTERA-LITTORALIS | NICOTIANA-ATTENUATA | HEADSPACE VOLATILES | JASMONIC ACID | Food Chain | Animals | Genetic Fitness | Plants - genetics | Insecta | Volatile Organic Compounds - analysis | Plants - chemistry | Biogenic volatile organic compounds | Plant defenses | Insect-plant relationships | Botany | Physiological aspects | Environmental aspects | Research | Properties | Health aspects
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Loading RightsFunctional Ecology, ISSN 0269-8463, 4/2011, Volume 25, Issue 2, pp. 339 - 347
1. Induced resistance is now widely accepted as a potent and widespread ecological force although several pieces of the story remain very poorly known. Theory...
Population ecology | Ecological genetics | Evolutionary ecology of plant defences | Caterpillars | Evolution | Herbivores | Plants | Insect ecology | Chemical ecology | Induced resistance | Human ecology | costs | priming | communication | defence | heterogeneity | volatiles | Heterogeneity | Priming | Costs | Volatiles | Defence | Communication | AIRBORNE SIGNALS | PHENOTYPIC PLASTICITY | ACACIA-DREPANOLOBIUM | PROTEINASE-INHIBITOR | INDUCED PLANT-RESPONSES | NICOTIANA-ATTENUATA | INDUCED DEFENSES | VASCULAR ARCHITECTURE | ECOLOGY | POPULATION-DYNAMICS | SPATIAL-DISTRIBUTION | Hypotheses | Allelochemicals
Population ecology | Ecological genetics | Evolutionary ecology of plant defences | Caterpillars | Evolution | Herbivores | Plants | Insect ecology | Chemical ecology | Induced resistance | Human ecology | costs | priming | communication | defence | heterogeneity | volatiles | Heterogeneity | Priming | Costs | Volatiles | Defence | Communication | AIRBORNE SIGNALS | PHENOTYPIC PLASTICITY | ACACIA-DREPANOLOBIUM | PROTEINASE-INHIBITOR | INDUCED PLANT-RESPONSES | NICOTIANA-ATTENUATA | INDUCED DEFENSES | VASCULAR ARCHITECTURE | ECOLOGY | POPULATION-DYNAMICS | SPATIAL-DISTRIBUTION | Hypotheses | Allelochemicals
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Loading RightsPlant Physiology, ISSN 0032-0889, 8/2009, Volume 150, Issue 4, pp. 1648 - 1655
Pathogens | Disease resistance | Transcription factors | MicroRNA | Genes | DNA | Gene expression regulation | Plants | Update on WRKY Transcription Factors in Plant Defense | Rice | Plant cells | ENHANCES DISEASE RESISTANCE | ARABIDOPSIS-THALIANA | DNA-BINDING | RALSTONIA-SOLANACEARUM | SALICYLIC-ACID | NICOTIANA-ATTENUATA | GENE-EXPRESSION | PSEUDOMONAS-SYRINGAE | BASAL DEFENSE | NECROTROPHIC FUNGAL PATHOGENS | PLANT SCIENCES | Transcription Factors - metabolism | Plants - metabolism | Plants - genetics | Genomics | Plant Diseases - immunology | Immunity, Innate - genetics | Plant Diseases - genetics | Gene Regulatory Networks | Plants - immunology | Arabidopsis thaliana | Plant immunology | Physiological aspects | Genetic aspects | Research | Properties | Focus Issue on Plant Interactions with Bacterial Pathogens
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Loading RightsAnnual Review of Plant Biology, ISSN 1543-5008, 4/2017, Volume 68, Issue 1, pp. 513 - 534
Costs of defense are central to our understanding of interactions between organisms and their environment, and defensive phenotypes of plants have long been...
induced plant defense | resource allocation | growth rate estimation | signal transduction networks | plant-insect interactions | leaf economics spectrum | Induced plant defense | Growth rate estimation | Leaf economics spectrum | Signal transduction networks | Plant-insect interactions | Resource allocation | ARABIDOPSIS-THALIANA | SIGNALING PATHWAYS | MILKWEED ASCLEPIAS-SYRIACA | PLANT SCIENCES | BRASSICA-RAPA | INDUCED RESISTANCE | INDUCED RESPONSES | NICOTIANA-ATTENUATA | GLUCOSINOLATE CONTENT | JASMONIC ACID | FITNESS COSTS | Biological Evolution | Animals | Signal Transduction | Stress, Physiological | Insecta - physiology | Herbivory | Plant Physiological Phenomena | Plant Development - physiology | Plant defenses | Growth (Plants) | Observations | Health aspects | Insect-plant relationships
induced plant defense | resource allocation | growth rate estimation | signal transduction networks | plant-insect interactions | leaf economics spectrum | Induced plant defense | Growth rate estimation | Leaf economics spectrum | Signal transduction networks | Plant-insect interactions | Resource allocation | ARABIDOPSIS-THALIANA | SIGNALING PATHWAYS | MILKWEED ASCLEPIAS-SYRIACA | PLANT SCIENCES | BRASSICA-RAPA | INDUCED RESISTANCE | INDUCED RESPONSES | NICOTIANA-ATTENUATA | GLUCOSINOLATE CONTENT | JASMONIC ACID | FITNESS COSTS | Biological Evolution | Animals | Signal Transduction | Stress, Physiological | Insecta - physiology | Herbivory | Plant Physiological Phenomena | Plant Development - physiology | Plant defenses | Growth (Plants) | Observations | Health aspects | Insect-plant relationships
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