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Publication DateArchives of Insect Biochemistry and Physiology, ISSN 0739-4462, 02/2017, Volume 94, Issue 2, pp. np - n/a
Chitin synthase (CHS) is an important enzymatic component, which is required for chitin formation in the cuticles and cuticular linings of other tissues in...
biopesticide | Beauveria bassiana | RNA interference | chitin synthase | Spodoptera exigua | PHYSIOLOGY | BIOCHEMISTRY & MOLECULAR BIOLOGY | ENTOMOLOGY | MIDGUT | INSECTS | MOLECULAR-CLONING | CUTICLE | EXPRESSION | Biological Control Agents | Chitin Synthase - metabolism | Spodoptera - enzymology | Down-Regulation | Spodoptera - microbiology | Chitin Synthase - genetics | Beauveria - pathogenicity | Animals | RNA Interference | Biological Assay | Larva - enzymology | Larva - genetics | Larva - microbiology | Spodoptera - genetics
biopesticide | Beauveria bassiana | RNA interference | chitin synthase | Spodoptera exigua | PHYSIOLOGY | BIOCHEMISTRY & MOLECULAR BIOLOGY | ENTOMOLOGY | MIDGUT | INSECTS | MOLECULAR-CLONING | CUTICLE | EXPRESSION | Biological Control Agents | Chitin Synthase - metabolism | Spodoptera - enzymology | Down-Regulation | Spodoptera - microbiology | Chitin Synthase - genetics | Beauveria - pathogenicity | Animals | RNA Interference | Biological Assay | Larva - enzymology | Larva - genetics | Larva - microbiology | Spodoptera - genetics
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Loading RightsMicrobial Pathogenesis, ISSN 0882-4010, 08/2018, Volume 121, pp. 350 - 358
In order to find an effective and environmentally friendly biocontrol agent against , we isolated and identified a total of 15 different bacterial species...
Gut microbiota | Microbial control | Bacillus thuringiensis | Spodoptera exigua | BACILLUS-THURINGIENSIS | FLORA | MICROBIOLOGY | TOXICITY | IMMUNOLOGY | IDENTIFICATION | BIOLOGICAL-CONTROL AGENT | CRY GENES | ENHANCEMENT | DELTA-ENDOTOXINS | PROTEINS | COLEOPTERA | Bacteroidetes - isolation & purification | Pest Control, Biological | Biological Control Agents | Firmicutes - isolation & purification | Bacterial Proteins - genetics | Gastrointestinal Microbiome | Spodoptera - microbiology | Phylogeny | Biodiversity | Bacillus cereus - isolation & purification | Host-Pathogen Interactions | Pseudomonas - isolation & purification | Bacteria - isolation & purification | Animals | Paenibacillus - isolation & purification | Proteobacteria - isolation & purification | Larva - drug effects | Bacteria - classification | Larva - microbiology | Bacillaceae - isolation & purification | Bacillus thuringiensis - isolation & purification | Proteins | Microbiota (Symbiotic organisms) | Analysis | Biological control | Bacteria | Pests | Biological diversity
Gut microbiota | Microbial control | Bacillus thuringiensis | Spodoptera exigua | BACILLUS-THURINGIENSIS | FLORA | MICROBIOLOGY | TOXICITY | IMMUNOLOGY | IDENTIFICATION | BIOLOGICAL-CONTROL AGENT | CRY GENES | ENHANCEMENT | DELTA-ENDOTOXINS | PROTEINS | COLEOPTERA | Bacteroidetes - isolation & purification | Pest Control, Biological | Biological Control Agents | Firmicutes - isolation & purification | Bacterial Proteins - genetics | Gastrointestinal Microbiome | Spodoptera - microbiology | Phylogeny | Biodiversity | Bacillus cereus - isolation & purification | Host-Pathogen Interactions | Pseudomonas - isolation & purification | Bacteria - isolation & purification | Animals | Paenibacillus - isolation & purification | Proteobacteria - isolation & purification | Larva - drug effects | Bacteria - classification | Larva - microbiology | Bacillaceae - isolation & purification | Bacillus thuringiensis - isolation & purification | Proteins | Microbiota (Symbiotic organisms) | Analysis | Biological control | Bacteria | Pests | Biological diversity
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Loading RightsJournal of Asia-Pacific Entomology, ISSN 1226-8615, 12/2017, Volume 20, Issue 4, pp. 1112 - 1121
Entomopathogenic nematodes are key players for insect pest control and constitute an environmentally friendly alternative for crop protection. The insecticidal...
Pathogenicity factors | Spodoptera frugiperda | Entomopathogenic nematodes | Photorhabdus luminescens | Heterorhabditis | PHYLOGENY | SEQUENCES | SP NOV | IDENTIFICATION | ENTOMOLOGY | GENOME | GAMMA-PROTEOBACTERIA | SYMBIONT | XENORHABDUS | HETERORHABDITIS-BACTERIOPHORA | Microbial insecticides | Microbiological research | Enterobacter | Insect pests | Bacteria, Pathogenic | Biological control | Observations | Methods | Enterobacteriaceae | 농수해양학
Pathogenicity factors | Spodoptera frugiperda | Entomopathogenic nematodes | Photorhabdus luminescens | Heterorhabditis | PHYLOGENY | SEQUENCES | SP NOV | IDENTIFICATION | ENTOMOLOGY | GENOME | GAMMA-PROTEOBACTERIA | SYMBIONT | XENORHABDUS | HETERORHABDITIS-BACTERIOPHORA | Microbial insecticides | Microbiological research | Enterobacter | Insect pests | Bacteria, Pathogenic | Biological control | Observations | Methods | Enterobacteriaceae | 농수해양학
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Loading RightsJournal of Economic Entomology, ISSN 0022-0493, 08/2019, Volume 112, Issue 4, pp. 1598 - 1603
Abstract Metarhizium rileyi, a well-known entomopathogenic fungus, could open up new vistas in biological control of insect pests; however, due to its...
Metarhizium rileyi | INSECT PATHOGENS | MANAGEMENT | INCREASES | SILKWORM | immunity | VIRULENCE | ENTOMOLOGY | FARLOW | pathogenicity | Spodoptera litura | lethal effect | ENTOMOPATHOGENIC FUNGUS | NOMURAEA-RILEYI | COMPATIBILITY | BIOLOGICAL-CONTROL AGENTS | Index Medicus
Metarhizium rileyi | INSECT PATHOGENS | MANAGEMENT | INCREASES | SILKWORM | immunity | VIRULENCE | ENTOMOLOGY | FARLOW | pathogenicity | Spodoptera litura | lethal effect | ENTOMOPATHOGENIC FUNGUS | NOMURAEA-RILEYI | COMPATIBILITY | BIOLOGICAL-CONTROL AGENTS | Index Medicus
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Loading RightsProceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 5/2011, Volume 108, Issue 19, pp. 7855 - 7859
Plant glandular trichomes exude secondary metabolites with defensive functions, but these epidermal protuberances are surprisingly the first meal of...
Larvae | Insect larvae | Ants | Caterpillars | Insect colonies | Trichomes | Frass | Phytophagous insects | Fatty acids | Sugars | Indirect defenses | Dangerous body odors | PLANT | SEXTA | dangerous body odors | VOLATILE EMISSIONS | MULTIDISCIPLINARY SCIENCES | LYCOPERSICON | DEFENSIVE FUNCTION | NICOTIANA-ATTENUATA | ESTERS | indirect defenses | GLANDULAR TRICHOMES | LEPIDOPTERA | TOMATO | Plant Leaves - chemistry | Predatory Behavior - physiology | Spodoptera - physiology | Hemiptera - physiology | Ants - physiology | Lepidoptera - physiology | Lepidoptera - pathogenicity | Odorants - analysis | Hemiptera - pathogenicity | Host-Pathogen Interactions | Manduca - pathogenicity | Animals | Carbohydrates - chemistry | Diet | Larva - pathogenicity | Tobacco - chemistry | Ants - pathogenicity | Larva - physiology | Manduca - physiology | Spodoptera - pathogenicity | Plant Leaves - physiology | Tobacco - physiology | Physiological aspects | Carbohydrates | Predation (Biology) | Research | Biological Sciences
Larvae | Insect larvae | Ants | Caterpillars | Insect colonies | Trichomes | Frass | Phytophagous insects | Fatty acids | Sugars | Indirect defenses | Dangerous body odors | PLANT | SEXTA | dangerous body odors | VOLATILE EMISSIONS | MULTIDISCIPLINARY SCIENCES | LYCOPERSICON | DEFENSIVE FUNCTION | NICOTIANA-ATTENUATA | ESTERS | indirect defenses | GLANDULAR TRICHOMES | LEPIDOPTERA | TOMATO | Plant Leaves - chemistry | Predatory Behavior - physiology | Spodoptera - physiology | Hemiptera - physiology | Ants - physiology | Lepidoptera - physiology | Lepidoptera - pathogenicity | Odorants - analysis | Hemiptera - pathogenicity | Host-Pathogen Interactions | Manduca - pathogenicity | Animals | Carbohydrates - chemistry | Diet | Larva - pathogenicity | Tobacco - chemistry | Ants - pathogenicity | Larva - physiology | Manduca - physiology | Spodoptera - pathogenicity | Plant Leaves - physiology | Tobacco - physiology | Physiological aspects | Carbohydrates | Predation (Biology) | Research | Biological Sciences
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Loading RightsJournal of Invertebrate Pathology, ISSN 0022-2011, 05/2015, Volume 127, pp. 38 - 46
Gut microbes contribute to the health of insects and perturbations in the composition or location of gut microbiota can lead to pathological states and host...
Spodoptera litura | Enterobacter cloacae | Immune response | Gut microbes | Bio-insecticide | BACILLUS-THURINGIENSIS | MANDUCA-SEXTA | HOST | ZOOLOGY | PSEUDOMONAS-AERUGINOSA | GALLERIA-MELLONELLA | AMINO-ACIDS | LARVAE | DROSOPHILA GUT | DUAL OXIDASE | INNATE IMMUNITY | Animals | Pest Control, Biological - methods | Spodoptera - microbiology | RNA, Ribosomal, 16S - genetics | Bacteria | Host-Pathogen Interactions - physiology
Spodoptera litura | Enterobacter cloacae | Immune response | Gut microbes | Bio-insecticide | BACILLUS-THURINGIENSIS | MANDUCA-SEXTA | HOST | ZOOLOGY | PSEUDOMONAS-AERUGINOSA | GALLERIA-MELLONELLA | AMINO-ACIDS | LARVAE | DROSOPHILA GUT | DUAL OXIDASE | INNATE IMMUNITY | Animals | Pest Control, Biological - methods | Spodoptera - microbiology | RNA, Ribosomal, 16S - genetics | Bacteria | Host-Pathogen Interactions - physiology
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Loading RightsFRONTIERS IN MICROBIOLOGY, ISSN 1664-302X, 08/2019, Volume 10, p. 1812
The repetitive application of pesticides at high doses against Spodoptera litura Fabricius has resulted in development of pesticide resistance and harmful...
BIOACTIVITY | BACILLUS-THURINGIENSIS | entomopathogenic fungi | BASSIANOLIDE | MICROBIOLOGY | TOXICITY | matrine | VIRULENCE | natural chemicals | Spodoptera litura | synergism | RESISTANCE | ENTOMOPATHOGENIC FUNGUS | WHITE GRUBS | INSECTICIDES
BIOACTIVITY | BACILLUS-THURINGIENSIS | entomopathogenic fungi | BASSIANOLIDE | MICROBIOLOGY | TOXICITY | matrine | VIRULENCE | natural chemicals | Spodoptera litura | synergism | RESISTANCE | ENTOMOPATHOGENIC FUNGUS | WHITE GRUBS | INSECTICIDES
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Loading RightsPLoS ONE, ISSN 1932-6203, 11/2013, Volume 8, Issue 11, p. e78834
A Nicaraguan isolate of Spodoptera frugiperda multiple nucleopolyhedrovirus is being studied as a possible biological insecticide. This virus exists as a...
NUCLEAR POLYHEDROSIS-VIRUS | GENETIC-STRUCTURE | TRICHOPLUSIA-NI | OCCLUSION-DERIVED VIRUS | RECOMBINANT BACULOVIRUS | MULTIDISCIPLINARY SCIENCES | JUVENILE-HORMONE ESTERASE | HELIOTHIS-VIRESCENS | MULTIPLE-NUCLEOPOLYHEDROVIRUS | DELETION GENOTYPES | PER-OS INFECTIVITY | Inclusion Bodies, Viral - genetics | Virus Replication - genetics | Genome, Viral - genetics | Spodoptera - virology | Viral Proteins - genetics | Genotype | Reverse Transcriptase Polymerase Chain Reaction | Promoter Regions, Genetic - genetics | Nucleopolyhedrovirus - genetics | Host-Pathogen Interactions | Insect Viruses - physiology | Sf9 Cells | Viral Structural Proteins - genetics | Animals | Nucleopolyhedrovirus - pathogenicity | Virulence - genetics | Gene Expression Regulation, Viral | Gene Deletion | Larva - virology | Nucleopolyhedrovirus - physiology | Insect Viruses - pathogenicity | Transcription, Genetic | Insect Viruses - genetics | Insect viruses | Genetic aspects | Health aspects | Genomics | Pathogens | Genes | Disseminated infection | Viruses | Population structure | Abundance | Infections | Genomes | Pathogenicity | Progeny | Dilution | Clonal deletion | Insects | Deletion | Population | Genotypes | Recombinant
NUCLEAR POLYHEDROSIS-VIRUS | GENETIC-STRUCTURE | TRICHOPLUSIA-NI | OCCLUSION-DERIVED VIRUS | RECOMBINANT BACULOVIRUS | MULTIDISCIPLINARY SCIENCES | JUVENILE-HORMONE ESTERASE | HELIOTHIS-VIRESCENS | MULTIPLE-NUCLEOPOLYHEDROVIRUS | DELETION GENOTYPES | PER-OS INFECTIVITY | Inclusion Bodies, Viral - genetics | Virus Replication - genetics | Genome, Viral - genetics | Spodoptera - virology | Viral Proteins - genetics | Genotype | Reverse Transcriptase Polymerase Chain Reaction | Promoter Regions, Genetic - genetics | Nucleopolyhedrovirus - genetics | Host-Pathogen Interactions | Insect Viruses - physiology | Sf9 Cells | Viral Structural Proteins - genetics | Animals | Nucleopolyhedrovirus - pathogenicity | Virulence - genetics | Gene Expression Regulation, Viral | Gene Deletion | Larva - virology | Nucleopolyhedrovirus - physiology | Insect Viruses - pathogenicity | Transcription, Genetic | Insect Viruses - genetics | Insect viruses | Genetic aspects | Health aspects | Genomics | Pathogens | Genes | Disseminated infection | Viruses | Population structure | Abundance | Infections | Genomes | Pathogenicity | Progeny | Dilution | Clonal deletion | Insects | Deletion | Population | Genotypes | Recombinant
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Loading RightsArchives of Virology, ISSN 0304-8608, 11/2015, Volume 160, Issue 11, pp. 2873 - 2879
In this work, we showed that cell death induced by a recombinant (vAcNSs) Autographa californica multiple nucleopolyhedrovirus (AcMNPV) expressing the...
Medical Microbiology | Infectious Diseases | Biomedicine | Virology | INSECTICIDAL EFFICACY | VIROLOGY | RNA | GENE | CALIFORNICA MULTIPLE NUCLEOPOLYHEDROVIRUS | LARVAE | IMPROVES | INTERFERENCE | INFECTION | NOCTUIDAE | ANTICARSIA-GEMMATALIS LEPIDOPTERA | Cell Line | Gene Expression | Tospovirus - genetics | Virulence | Gene Silencing | Spodoptera - virology | Viral Proteins - genetics | Viral Proteins - metabolism | Nucleopolyhedrovirus - genetics | Moths - genetics | Animals | Nucleopolyhedrovirus - pathogenicity | Nucleopolyhedrovirus - metabolism | Moths - virology | Spodoptera - genetics | Insects | Health aspects | Luciferase | Cells
Medical Microbiology | Infectious Diseases | Biomedicine | Virology | INSECTICIDAL EFFICACY | VIROLOGY | RNA | GENE | CALIFORNICA MULTIPLE NUCLEOPOLYHEDROVIRUS | LARVAE | IMPROVES | INTERFERENCE | INFECTION | NOCTUIDAE | ANTICARSIA-GEMMATALIS LEPIDOPTERA | Cell Line | Gene Expression | Tospovirus - genetics | Virulence | Gene Silencing | Spodoptera - virology | Viral Proteins - genetics | Viral Proteins - metabolism | Nucleopolyhedrovirus - genetics | Moths - genetics | Animals | Nucleopolyhedrovirus - pathogenicity | Nucleopolyhedrovirus - metabolism | Moths - virology | Spodoptera - genetics | Insects | Health aspects | Luciferase | Cells
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Loading RightsPLoS ONE, ISSN 1932-6203, 08/2018, Volume 13, Issue 8, p. e0201201
Insect pests are one of the factors that most impact plant yield. The magnitude of the losses and the spatiotemporal pest distribution in crops is a result of...
Zea mays - genetics | Moths - pathogenicity | Endotoxins - genetics | Pest Control, Biological - methods | Hemolysin Proteins - genetics | Bacterial Proteins - genetics | Genotype | Zea mays - parasitology | Herbivory | Edible Grain - genetics | Animals | Bacterial Proteins - toxicity | Edible Grain - parasitology | Plants, Genetically Modified | Brazil | Hemolysin Proteins - toxicity | Insecta - pathogenicity | Coleoptera - pathogenicity | Spodoptera - pathogenicity | Weevils - pathogenicity | Zea mays - growth & development | Endotoxins - toxicity | Diptera - pathogenicity | Grain | Transgenic | Corn | Pest control | Insecticides | Maize | Pheromones | Pests | Spatial distribution | Insects | Dependence | Caterpillars | Production capacity | Sampling | Damage | Infestation | Genotypes
Zea mays - genetics | Moths - pathogenicity | Endotoxins - genetics | Pest Control, Biological - methods | Hemolysin Proteins - genetics | Bacterial Proteins - genetics | Genotype | Zea mays - parasitology | Herbivory | Edible Grain - genetics | Animals | Bacterial Proteins - toxicity | Edible Grain - parasitology | Plants, Genetically Modified | Brazil | Hemolysin Proteins - toxicity | Insecta - pathogenicity | Coleoptera - pathogenicity | Spodoptera - pathogenicity | Weevils - pathogenicity | Zea mays - growth & development | Endotoxins - toxicity | Diptera - pathogenicity | Grain | Transgenic | Corn | Pest control | Insecticides | Maize | Pheromones | Pests | Spatial distribution | Insects | Dependence | Caterpillars | Production capacity | Sampling | Damage | Infestation | Genotypes
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Loading RightsJournal of Invertebrate Pathology, ISSN 0022-2011, 03/2015, Volume 126, pp. 43 - 50
Genome sequence analysis of seven different multiple nucleopolyhedrovirus (SeMNPV) isolates that differed in insecticidal phenotype permitted the...
SeMNPV bacmid | Pathogenicity | SeMNPV | Virulence | Spodoptera exigua | finger | sequence | genome | baculovirus | in-vitro | deletion | prediction | myristoylated proteins | vivo | multiple nucleopolyhedrovirus | LOCALIZATION | POPULATION | VIVO | TRANSCRIPTION | DELETION | PREDICTION | IN-VITRO | ZOOLOGY | BACULOVIRUSES | FINGER | RECOMBINANT | Cell Line | Pest Control, Biological | Microscopy, Electron, Scanning | Mutagenesis, Site-Directed | Spodoptera - virology | Nucleopolyhedrovirus - isolation & purification | Gene Knockout Techniques | Sequence Analysis, DNA | Nucleopolyhedrovirus - genetics | DNA, Viral - chemistry | Animals | Nucleopolyhedrovirus - pathogenicity | Virulence - genetics | Recombination, Genetic | Genes, Viral - physiology | Genes
SeMNPV bacmid | Pathogenicity | SeMNPV | Virulence | Spodoptera exigua | finger | sequence | genome | baculovirus | in-vitro | deletion | prediction | myristoylated proteins | vivo | multiple nucleopolyhedrovirus | LOCALIZATION | POPULATION | VIVO | TRANSCRIPTION | DELETION | PREDICTION | IN-VITRO | ZOOLOGY | BACULOVIRUSES | FINGER | RECOMBINANT | Cell Line | Pest Control, Biological | Microscopy, Electron, Scanning | Mutagenesis, Site-Directed | Spodoptera - virology | Nucleopolyhedrovirus - isolation & purification | Gene Knockout Techniques | Sequence Analysis, DNA | Nucleopolyhedrovirus - genetics | DNA, Viral - chemistry | Animals | Nucleopolyhedrovirus - pathogenicity | Virulence - genetics | Recombination, Genetic | Genes, Viral - physiology | Genes
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Loading RightsApplied and Environmental Microbiology, ISSN 0099-2240, 02/2011, Volume 77, Issue 3, pp. 1009 - 1020
Classifications Services AEM Citing Articles Google Scholar PubMed Related Content Social Bookmarking CiteULike Delicious Digg Facebook Google+ Mendeley Reddit...
IN-VITRO | PROTEIN | GENE | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | LUMINESCENS | ESCHERICHIA-COLI | ENTOMOPATHOGENIC BACTERIA | BIOCHEMICAL-CHARACTERIZATION | MICROBIOLOGY | XENORHABDUS-NEMATOPHILUS | VIRULENCE | PRIMARY-FORM | Oligonucleotide Array Sequence Analysis | Virulence | Bacterial Proteins - genetics | Spodoptera - microbiology | Gene Expression Profiling | Reverse Transcriptase Polymerase Chain Reaction | Genetic Variation | Photorhabdus - physiology | Phenotype | Animals | Photorhabdus - genetics | Spodoptera - metabolism | Bacterial Proteins - metabolism | Photorhabdus - pathogenicity | Photorhabdus - classification | Gene Expression Regulation, Bacterial | Spodoptera - genetics | Physiological aspects | Insects | Analysis | Antibiosis | Invertebrate Microbiology
IN-VITRO | PROTEIN | GENE | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | LUMINESCENS | ESCHERICHIA-COLI | ENTOMOPATHOGENIC BACTERIA | BIOCHEMICAL-CHARACTERIZATION | MICROBIOLOGY | XENORHABDUS-NEMATOPHILUS | VIRULENCE | PRIMARY-FORM | Oligonucleotide Array Sequence Analysis | Virulence | Bacterial Proteins - genetics | Spodoptera - microbiology | Gene Expression Profiling | Reverse Transcriptase Polymerase Chain Reaction | Genetic Variation | Photorhabdus - physiology | Phenotype | Animals | Photorhabdus - genetics | Spodoptera - metabolism | Bacterial Proteins - metabolism | Photorhabdus - pathogenicity | Photorhabdus - classification | Gene Expression Regulation, Bacterial | Spodoptera - genetics | Physiological aspects | Insects | Analysis | Antibiosis | Invertebrate Microbiology
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Loading RightsJournal of Microbiology, ISSN 1225-8873, 8/2012, Volume 50, Issue 4, pp. 644 - 651
An entomopathogenic fungus, Nomuraea rileyi, was isolated and its identity was confirmed by its internal transcribed spacer DNA sequence. The isolated N....
Life Sciences | eicosanoids | immune | Microbiology | Xenorhabdus nematophila | Photorhabdus temperata temperata | Nomuraea rileyi | Spodoptera exigua | Gene Expression - drug effects | Hypocreales - pathogenicity | Lepidoptera - immunology | Hemocytes - enzymology | Lepidoptera - microbiology | Antimicrobial Cationic Peptides - biosynthesis | Lepidoptera - enzymology | Xenorhabdus - growth & development | Larva - immunology | Larva - drug effects | Larva - enzymology | Lepidoptera - drug effects | Culture Media - chemistry | Xenorhabdus - metabolism | Enzyme Inhibitors - metabolism | Fat Body - enzymology | Photorhabdus - metabolism | Enzyme Inhibitors - isolation & purification | Animals | Hemolymph - enzymology | Survival Analysis | Phospholipases A - antagonists & inhibitors | Photorhabdus - growth & development | Hypocreales - drug effects | Larva - microbiology | 생물학
Life Sciences | eicosanoids | immune | Microbiology | Xenorhabdus nematophila | Photorhabdus temperata temperata | Nomuraea rileyi | Spodoptera exigua | Gene Expression - drug effects | Hypocreales - pathogenicity | Lepidoptera - immunology | Hemocytes - enzymology | Lepidoptera - microbiology | Antimicrobial Cationic Peptides - biosynthesis | Lepidoptera - enzymology | Xenorhabdus - growth & development | Larva - immunology | Larva - drug effects | Larva - enzymology | Lepidoptera - drug effects | Culture Media - chemistry | Xenorhabdus - metabolism | Enzyme Inhibitors - metabolism | Fat Body - enzymology | Photorhabdus - metabolism | Enzyme Inhibitors - isolation & purification | Animals | Hemolymph - enzymology | Survival Analysis | Phospholipases A - antagonists & inhibitors | Photorhabdus - growth & development | Hypocreales - drug effects | Larva - microbiology | 생물학
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Synergies and trade‐offs between insect and pathogen resistance in maize leaves and roots
Plant, Cell & Environment, ISSN 0140-7791, 07/2011, Volume 34, Issue 7, pp. 1088 - 1103
ABSTRACT Determining links between plant defence strategies is important to understand plant evolution and to optimize crop breeding strategies. Although...
Zea mays | root herbivory | synergy | pathogens | induced defence | herbivore‐induced plant volatiles | resistance | Resistance | Herbivore-induced plant volatiles | Pathogens | Induced defence | Root herbivory | Synergy | DEFENSE | COEVOLUTION | HERBIVORES | PLANT VOLATILES | ZEA-MAYS | SPODOPTERA | VOLATILE EMISSION | PLANT SCIENCES | GENETICS | herbivore-induced plant volatiles | ATTRACTION | INSIGHTS | Green Fluorescent Proteins | Plant Diseases - immunology | Plant Diseases - microbiology | Biomass | Coleoptera - growth & development | Ascomycota - pathogenicity | Colletotrichum - pathogenicity | Larva - growth & development | Larva - pathogenicity | Coleoptera - pathogenicity | Volatile Organic Compounds - chemistry | Genetic Linkage | Plant Leaves - chemistry | Zea mays - genetics | Plant Leaves - parasitology | Volatile Organic Compounds - analysis | Feeding Behavior | Genotype | Zea mays - parasitology | Immunity, Innate | Plant Roots - microbiology | Animals | Zea mays - microbiology | Plant Roots - chemistry | Zea mays - immunology | Plant Diseases - parasitology | Spodoptera - pathogenicity | Plant Leaves - microbiology | Plant Roots - parasitology | Spodoptera - growth & development | Corn | Drug resistance in microorganisms | Evolution | Plants | Historical account | herbivores | Crops | natural populations | ecotypes | insects | Genotypes | breeding
Zea mays | root herbivory | synergy | pathogens | induced defence | herbivore‐induced plant volatiles | resistance | Resistance | Herbivore-induced plant volatiles | Pathogens | Induced defence | Root herbivory | Synergy | DEFENSE | COEVOLUTION | HERBIVORES | PLANT VOLATILES | ZEA-MAYS | SPODOPTERA | VOLATILE EMISSION | PLANT SCIENCES | GENETICS | herbivore-induced plant volatiles | ATTRACTION | INSIGHTS | Green Fluorescent Proteins | Plant Diseases - immunology | Plant Diseases - microbiology | Biomass | Coleoptera - growth & development | Ascomycota - pathogenicity | Colletotrichum - pathogenicity | Larva - growth & development | Larva - pathogenicity | Coleoptera - pathogenicity | Volatile Organic Compounds - chemistry | Genetic Linkage | Plant Leaves - chemistry | Zea mays - genetics | Plant Leaves - parasitology | Volatile Organic Compounds - analysis | Feeding Behavior | Genotype | Zea mays - parasitology | Immunity, Innate | Plant Roots - microbiology | Animals | Zea mays - microbiology | Plant Roots - chemistry | Zea mays - immunology | Plant Diseases - parasitology | Spodoptera - pathogenicity | Plant Leaves - microbiology | Plant Roots - parasitology | Spodoptera - growth & development | Corn | Drug resistance in microorganisms | Evolution | Plants | Historical account | herbivores | Crops | natural populations | ecotypes | insects | Genotypes | breeding
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