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Trends in biotechnology (Regular ed.), ISSN 0167-7799, 2018, Volume 36, Issue 9, pp. 898 - 906
Plant pathogens pose a major threat to crop productivity. Typically, phytopathogens exploit plants’ susceptibility (S) genes to facilitate their proliferation.... 
plant genome editing | new breeding technologies | disease resistance | transgene free | CRISPR–Cas9 | susceptibility genes | SYSTEM | IMMUNITY | EFFECTORS | VIRUS-RESISTANCE | TRANSPORTER | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | INTERFERENCE | RECEPTORS | PROTEINS | GEMINIVIRUSES | TOOL | Triticum - immunology | RNA, Guide - genetics | RNA, Guide - metabolism | Plant Diseases - immunology | Agrobacterium tumefaciens - genetics | Crops, Agricultural - microbiology | CRISPR-Associated Protein 9 - genetics | CRISPR-Associated Protein 9 - metabolism | Oryza - virology | Bacterial Infections - genetics | Disease Susceptibility - immunology | Oryza - genetics | Bacterial Infections - immunology | Crops, Agricultural - virology | Oryza - microbiology | Plant Diseases - genetics | Crops, Agricultural - immunology | Zea mays - virology | Virus Diseases - genetics | Disease Resistance - genetics | Triticum - microbiology | Oryza - immunology | Gene Transfer Techniques | Zea mays - genetics | Virus Diseases - immunology | Mycoses - genetics | Genome, Plant | Triticum - genetics | Agrobacterium tumefaciens - metabolism | Triticum - virology | Zea mays - microbiology | Zea mays - immunology | CRISPR-Cas Systems | Crops, Agricultural - genetics | Gene Editing - methods | Mycoses - immunology | Pathogens | CRISPR | Crop production | Genes | Crops | Editing | Genomes | Defense | Datasets | Disease resistance | Plant diseases | Genetically altered foods | Crop diseases | Flowers & plants | Disruption | Wheat | Deoxyribonucleic acid--DNA | Rice
Journal Article
The Plant journal : for cell and molecular biology, ISSN 0960-7412, 2011, Volume 68, Issue 5, pp. 901 - 911
... and Jander, 2008 ). In many monocotyledonous plants, including wheat ( Triticum aestivum ) and maize ( Zea mays ), 1,4‐benzoxazin‐3‐ones are particularly important... 
2‐β‐d‐glucopyranosyloxy‐4,7‐dimethoxy‐1,4‐benzoxazin‐3‐one | Spodoptera frugiperda | Zea mays | 2,4‐dihydroxy‐7‐methoxy‐1,4‐benzoxazin‐3‐one | Spodoptera littoralis | induced defense | 2-β- d -glucopyranosyloxy-4,7- dimethoxy-1,4-benzoxazin-3-one | 2,4-dihydroxy-7-methoxy-1,4-benzoxazin-3-one | 7-dimethoxy-1 | CORN-BORER | HYDROXAMIC ACIDS | SPODOPTERA | 4-benzoxazin-3-one | 4-dihydroxy-7-methoxy-1 | PLANT SCIENCES | PLANT-CHEMICAL DEFENSE | BETA-GLUCOSIDASES | HDMBOA-GLC | 2-ss-d-glucopyranosyloxy-4 | RESISTANCE | ACCUMULATION | DIMBOA | INNATE IMMUNITY | Species Specificity | Herbivory - immunology | Benzoxazines - metabolism | Glucosides - immunology | Gastrointestinal Tract - immunology | Zea mays - toxicity | Larva - immunology | Host-Parasite Interactions | Protein Stability | Zea mays - metabolism | Principal Component Analysis | Benzoxazines - toxicity | Spodoptera - physiology | Glucosides - toxicity | Larva - metabolism | Zea mays - parasitology | Glycosylation | Spodoptera - immunology | Benzoxazines - immunology | Glucosides - metabolism | Gastrointestinal Tract - metabolism | Animals | Spodoptera - metabolism | Zea mays - immunology | Larva - physiology | Toxicity Tests | Hydrochloric acid | Corn | Evolution | Plants | Animal behavior | Crop science | Herbivores | Insects | Plant resistance
Journal Article
PLoS ONE, ISSN 1932-6203, 09/2015, Volume 10, Issue 9, p. e0136689
Feeding by insect herbivores activates plant signaling pathways, resulting in the enhanced production of secondary metabolites and other resistance-related... 
INSECT HERBIVORES | SALICYLIC-ACID | MULTIDISCIPLINARY SCIENCES | TOMATO PLANTS | INDIRECT DEFENSE | TRADE-OFFS | JASMONIC ACID | HELICOVERPA-ZEA | SYSTEMIC ACQUIRED-RESISTANCE | COTTON | PATHOGENS | Gibberellins - immunology | Soybeans - parasitology | Soybeans - drug effects | Oxylipins - immunology | Thiadiazoles - immunology | Gossypium - parasitology | Cyclopentanes - immunology | Gossypium - immunology | Crops, Agricultural - immunology | Dicarboxylic Acids - immunology | Oryza - parasitology | Oryza - immunology | Gossypium - drug effects | Spodoptera - physiology | Crops, Agricultural - parasitology | Crops, Agricultural - drug effects | Zea mays - drug effects | Soybeans - immunology | Disease Resistance - drug effects | Zea mays - parasitology | Oryza - drug effects | Herbivory - drug effects | Animals | Zea mays - immunology | Spodoptera - growth & development | Physiological aspects | Research | Plant immunology | Plant parasites | Larvae | Crosstalk | Plant resistance | Hormones | Cotton | Soil treatment | Signal transduction | Secondary metabolites | Pathways | Metabolites | Plant tissues | Jasmonic acid | Legumes | Salicylic acid | Pathogens | Crops | Beneficial arthropods | Corn | Adjuvants | Seed treatments | Feeding | Signaling | Injury prevention | Acids | Insects | Morphology | Herbivores | Gibberellic acid | Fitness
Journal Article
Journal Article
Journal of Biological Chemistry, ISSN 0021-9258, 10/2008, Volume 283, Issue 40, pp. 26974 - 26984
In eukaryotes, proteins of the soluble N -ethylmaleimide-sensitive factor attachment protein receptor (SNARE) family are believed to have a general role for... 
NONHOST RESISTANCE | RESPONSES | SNARE COMPLEX | C-TERMINUS | NEUROTRANSMITTER RELEASE | BIOCHEMISTRY & MOLECULAR BIOLOGY | 25 KDA SNAP-25 | SYNAPTIC-TRANSMISSION | POWDERY MILDEW | PENETRATION RESISTANCE | SYNAPTOSOME-ASSOCIATED PROTEIN | Phosphorylation | Plant Diseases - immunology | Qb-SNARE Proteins - metabolism | Arabidopsis - immunology | Membrane Fusion - genetics | Qb-SNARE Proteins - genetics | Qc-SNARE Proteins - immunology | Cell Membrane - genetics | Structure-Activity Relationship | Arabidopsis Proteins - metabolism | Qc-SNARE Proteins - metabolism | Immunity, Innate - physiology | Protein Structure, Secondary - physiology | Qa-SNARE Proteins - genetics | Plant Diseases - genetics | Protein Structure, Quaternary - physiology | Cell Membrane - metabolism | Zea mays - metabolism | Ascomycota - metabolism | Hordeum - microbiology | Zea mays - genetics | Arabidopsis Proteins - genetics | Plants, Genetically Modified - genetics | Hordeum - metabolism | Plants, Genetically Modified - immunology | Qa-SNARE Proteins - immunology | Transport Vesicles - immunology | Arabidopsis Proteins - immunology | Arabidopsis - metabolism | Arabidopsis - genetics | Arabidopsis - microbiology | Plants, Genetically Modified - metabolism | Plants, Genetically Modified - microbiology | Transport Vesicles - metabolism | Zea mays - microbiology | Qa-SNARE Proteins - metabolism | Zea mays - immunology | Transport Vesicles - genetics | Qb-SNARE Proteins - immunology | Qc-SNARE Proteins - genetics | Cell Membrane - immunology | Hordeum - immunology | Mutation | Hordeum - genetics
Journal Article
PLoS ONE, ISSN 1932-6203, 05/2013, Volume 8, Issue 5, p. e62620
Background: Chemical suppression of arthropod herbivores is the most common approach to plant protection. Insecticides, however, can cause unintended, adverse... 
RESPONSES | HERBIVORES | SALICYLIC-ACID | SPECIFICITY | INDUCED RESISTANCE | TETRANYCHIDAE | MULTIDISCIPLINARY SCIENCES | MUTATION | JASMONIC ACID | TOMATO | STATISTICAL-ANALYSIS | Transcription, Genetic - drug effects | Coenzyme A Ligases - genetics | Coenzyme A Ligases - antagonists & inhibitors | Coenzyme A Ligases - immunology | Gossypium - parasitology | Chitinases - genetics | Gossypium - immunology | Phenylalanine Ammonia-Lyase - immunology | Plant Proteins - antagonists & inhibitors | Population Density | Lycopersicon esculentum - immunology | Gossypium - drug effects | Lycopersicon esculentum - drug effects | Phenylalanine Ammonia-Lyase - antagonists & inhibitors | Chitinases - antagonists & inhibitors | Trypsin Inhibitors - immunology | Gene Expression Regulation, Plant - immunology | Zea mays - drug effects | Plant Proteins - immunology | Zea mays - parasitology | Tetranychidae - physiology | Plant Proteins - genetics | Gene Expression Regulation, Plant - drug effects | Phenylalanine Ammonia-Lyase - genetics | Animals | Trypsin Inhibitors - genetics | Zea mays - immunology | Chitinases - immunology | Lycopersicon esculentum - parasitology | Tetranychidae - drug effects | Insecticides - toxicity | Defense industry | Trypsin | Thiols | Protease inhibitors | Proteases | Gibberellins | Ligases | Plant genetics | Insecticides | Research | Agricultural pests | Chitinase | Transcription | Plant resistance | Mites | Outbreaks | Cotton | Ecological effects | Insecticide resistance | Agrochemicals | Arthropods | Coenzyme A | Physiology | Tomatoes | Salicylic acid | Plants (botany) | Population growth | Phenylalanine | Crops | Pesticides | Corn | Plant protection | Pests | Gene expression | Studies | Hypotheses | Herbivores
Journal Article
Vaccine, ISSN 0264-410X, 2012, Volume 30, Issue 37, pp. 5551 - 5556
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