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Publication Date植物学报:英文版, ISSN 1672-9072, 2016, Volume 58, Issue 5, pp. 503 - 513
Development of pathogen-resistant crops, such as fungus-resistant cotton, has significantly reduced chemical application and improved crop yield and quality....
抗黄萎病 | 抗性反应 | 番茄灰霉病菌 | 信号转导 | 转录因子 | 同源盒基因 | 棉花黄萎病菌 | 作物产量 | cotton | Verticillium dahliae | Botrytis cinerea | jasmonic acid | virus‐induced gene silencing | Cotton | Jasmonic acid | Virus-induced gene silencing | Gene Silencing - drug effects | Suppression, Genetic - drug effects | Genes, Plant | Salicylic Acid - metabolism | Homeodomain Proteins - metabolism | Plant Diseases - microbiology | Botrytis - physiology | Gene Knockdown Techniques | Cell Nucleus - metabolism | Plant Proteins - chemistry | Plant Diseases - genetics | Plant Leaves - drug effects | Plant Proteins - metabolism | Plant Viruses - physiology | Disease Resistance - genetics | Gossypium - drug effects | Verticillium - drug effects | Amino Acid Sequence | Disease Resistance - drug effects | Down-Regulation - drug effects | Sequence Analysis, DNA | Subcellular Fractions - metabolism | Verticillium - physiology | Down-Regulation - genetics | Homeodomain Proteins - genetics | Tobacco - cytology | Oxylipins - metabolism | Plant Proteins - genetics | Gene Expression Regulation, Plant - drug effects | Sequence Alignment | Botrytis - drug effects | Plant Leaves - metabolism | Signal Transduction - drug effects | Gossypium - genetics | Gossypium - microbiology | Cyclopentanes - metabolism | Cell Nucleus - drug effects | Plant Growth Regulators - pharmacology | Genetic research | Crop yields | Drug resistance in microorganisms | Genetic engineering | Genes
抗黄萎病 | 抗性反应 | 番茄灰霉病菌 | 信号转导 | 转录因子 | 同源盒基因 | 棉花黄萎病菌 | 作物产量 | cotton | Verticillium dahliae | Botrytis cinerea | jasmonic acid | virus‐induced gene silencing | Cotton | Jasmonic acid | Virus-induced gene silencing | Gene Silencing - drug effects | Suppression, Genetic - drug effects | Genes, Plant | Salicylic Acid - metabolism | Homeodomain Proteins - metabolism | Plant Diseases - microbiology | Botrytis - physiology | Gene Knockdown Techniques | Cell Nucleus - metabolism | Plant Proteins - chemistry | Plant Diseases - genetics | Plant Leaves - drug effects | Plant Proteins - metabolism | Plant Viruses - physiology | Disease Resistance - genetics | Gossypium - drug effects | Verticillium - drug effects | Amino Acid Sequence | Disease Resistance - drug effects | Down-Regulation - drug effects | Sequence Analysis, DNA | Subcellular Fractions - metabolism | Verticillium - physiology | Down-Regulation - genetics | Homeodomain Proteins - genetics | Tobacco - cytology | Oxylipins - metabolism | Plant Proteins - genetics | Gene Expression Regulation, Plant - drug effects | Sequence Alignment | Botrytis - drug effects | Plant Leaves - metabolism | Signal Transduction - drug effects | Gossypium - genetics | Gossypium - microbiology | Cyclopentanes - metabolism | Cell Nucleus - drug effects | Plant Growth Regulators - pharmacology | Genetic research | Crop yields | Drug resistance in microorganisms | Genetic engineering | Genes
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Loading RightsPlant Physiology, ISSN 0032-0889, 7/2012, Volume 159, Issue 3, pp. 1192 - 1203
Verticillium longisporum is a soil-borne vascular pathogen that causes reduced shoot growth and early senescence in Arabidopsis (Arabidopsis thaliana). Here,...
Plant diseases | Pathogens | Phenotypes | Petioles | Plant roots | Verticillium | Infections | Biosynthesis | Plants | Symptoms | PLANTS INTERACTING WITH OTHER ORGANISMS | SYNTHASE | DEFENSE | SALICYLIC-ACID | THALIANA | FUSARIUM-OXYSPORUM | GENE-EXPRESSION | TGA TRANSCRIPTION FACTORS | V-DAHLIAE | MOLECULAR ASPECTS | SYSTEMIC ACQUIRED-RESISTANCE | PLANT SCIENCES | Plant Shoots - microbiology | Plant Vascular Bundle - drug effects | Salicylic Acid - metabolism | Plant Diseases - immunology | Adaptation, Physiological - drug effects | Arabidopsis - immunology | Plant Roots - genetics | Plant Diseases - microbiology | Biomass | Colony Count, Microbial | Plant Roots - drug effects | Arabidopsis Proteins - metabolism | Biosynthetic Pathways - genetics | Verticillium - growth & development | Adaptation, Physiological - genetics | Plant Shoots - drug effects | Plant Diseases - genetics | Plant Shoots - genetics | Verticillium - drug effects | Arabidopsis Proteins - genetics | Arabidopsis - drug effects | Signal Transduction - genetics | Cyclopentanes - pharmacology | Mutation - genetics | Plant Roots - microbiology | Plant Vascular Bundle - microbiology | Verticillium - physiology | Arabidopsis - genetics | Arabidopsis - microbiology | Gene Expression Regulation, Plant - drug effects | Phenotype | Biosynthetic Pathways - drug effects | Signal Transduction - drug effects | Genes, Plant - genetics | Plant Vascular Bundle - cytology | Oxylipins - pharmacology | Arabidopsis | Diseases and pests | Plant genetics | Influence | Genetic aspects | Research | Jasmonates
Plant diseases | Pathogens | Phenotypes | Petioles | Plant roots | Verticillium | Infections | Biosynthesis | Plants | Symptoms | PLANTS INTERACTING WITH OTHER ORGANISMS | SYNTHASE | DEFENSE | SALICYLIC-ACID | THALIANA | FUSARIUM-OXYSPORUM | GENE-EXPRESSION | TGA TRANSCRIPTION FACTORS | V-DAHLIAE | MOLECULAR ASPECTS | SYSTEMIC ACQUIRED-RESISTANCE | PLANT SCIENCES | Plant Shoots - microbiology | Plant Vascular Bundle - drug effects | Salicylic Acid - metabolism | Plant Diseases - immunology | Adaptation, Physiological - drug effects | Arabidopsis - immunology | Plant Roots - genetics | Plant Diseases - microbiology | Biomass | Colony Count, Microbial | Plant Roots - drug effects | Arabidopsis Proteins - metabolism | Biosynthetic Pathways - genetics | Verticillium - growth & development | Adaptation, Physiological - genetics | Plant Shoots - drug effects | Plant Diseases - genetics | Plant Shoots - genetics | Verticillium - drug effects | Arabidopsis Proteins - genetics | Arabidopsis - drug effects | Signal Transduction - genetics | Cyclopentanes - pharmacology | Mutation - genetics | Plant Roots - microbiology | Plant Vascular Bundle - microbiology | Verticillium - physiology | Arabidopsis - genetics | Arabidopsis - microbiology | Gene Expression Regulation, Plant - drug effects | Phenotype | Biosynthetic Pathways - drug effects | Signal Transduction - drug effects | Genes, Plant - genetics | Plant Vascular Bundle - cytology | Oxylipins - pharmacology | Arabidopsis | Diseases and pests | Plant genetics | Influence | Genetic aspects | Research | Jasmonates
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Loading RightsPLoS ONE, ISSN 1932-6203, 12/2015, Volume 10, Issue 12, p. e0145190
In fungal cells, a phosphate (Pi) responsive signaling and metabolism (PHO) pathway regulates Pi-homeostasis. NUC-2/PHO81 and its homologs are one of the most...
PLANT IMMUNITY | PATHOGENICITY | FUNGI | MULTIDISCIPLINARY SCIENCES | KINASE | GENES | CONTAINING PROTEINS | FUNCTIONAL-ANALYSIS | ANKYRIN-REPEAT | FUSARIUM-GRAMINEARUM | NEUROSPORA-CRASSA | Fungal Proteins - chemistry | Virulence - drug effects | Molecular Sequence Data | Seedlings - microbiology | Spores, Fungal - growth & development | Plant Diseases - microbiology | Protein Transport - drug effects | Phylogeny | Genetic Complementation Test | Verticillium - genetics | Gene Expression Regulation, Fungal - drug effects | Cell Nucleus - metabolism | Verticillium - growth & development | Virulence - genetics | Spores, Fungal - drug effects | Genes, Fungal | Phosphates - pharmacology | Gossypium - drug effects | Verticillium - drug effects | Amino Acid Sequence | Gene Targeting | Green Fluorescent Proteins - metabolism | Verticillium - pathogenicity | Signal Transduction - genetics | Fungal Proteins - genetics | Seedlings - drug effects | Mutation - genetics | Signal Transduction - drug effects | Gossypium - microbiology | Cell Nucleus - drug effects | Fungal Proteins - metabolism | Phosphates | Physiological aspects | Fungi, Pathogenic | Genetic aspects | Research | Microbial metabolism | Hydrogen peroxide | Neurospora | Genes | Virulence | Homeostasis | Amino acids | Homology | Infections | Biochemistry | Identification | Genomes | Cotton | Gene deletion | Kinases | Fungi | Proteins | Signal transduction | Clonal deletion | Cell cycle | Deletion | Complementation | Phytopathogenic fungi | Deoxyribonucleic acid--DNA | Rice | Starvation | Metabolism | Mutants | Strain | Signaling | Cytoplasm | Conidia | Deoxyribonucleic acid | DNA
PLANT IMMUNITY | PATHOGENICITY | FUNGI | MULTIDISCIPLINARY SCIENCES | KINASE | GENES | CONTAINING PROTEINS | FUNCTIONAL-ANALYSIS | ANKYRIN-REPEAT | FUSARIUM-GRAMINEARUM | NEUROSPORA-CRASSA | Fungal Proteins - chemistry | Virulence - drug effects | Molecular Sequence Data | Seedlings - microbiology | Spores, Fungal - growth & development | Plant Diseases - microbiology | Protein Transport - drug effects | Phylogeny | Genetic Complementation Test | Verticillium - genetics | Gene Expression Regulation, Fungal - drug effects | Cell Nucleus - metabolism | Verticillium - growth & development | Virulence - genetics | Spores, Fungal - drug effects | Genes, Fungal | Phosphates - pharmacology | Gossypium - drug effects | Verticillium - drug effects | Amino Acid Sequence | Gene Targeting | Green Fluorescent Proteins - metabolism | Verticillium - pathogenicity | Signal Transduction - genetics | Fungal Proteins - genetics | Seedlings - drug effects | Mutation - genetics | Signal Transduction - drug effects | Gossypium - microbiology | Cell Nucleus - drug effects | Fungal Proteins - metabolism | Phosphates | Physiological aspects | Fungi, Pathogenic | Genetic aspects | Research | Microbial metabolism | Hydrogen peroxide | Neurospora | Genes | Virulence | Homeostasis | Amino acids | Homology | Infections | Biochemistry | Identification | Genomes | Cotton | Gene deletion | Kinases | Fungi | Proteins | Signal transduction | Clonal deletion | Cell cycle | Deletion | Complementation | Phytopathogenic fungi | Deoxyribonucleic acid--DNA | Rice | Starvation | Metabolism | Mutants | Strain | Signaling | Cytoplasm | Conidia | Deoxyribonucleic acid | DNA
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Loading RightsScientific Reports, ISSN 2045-2322, 01/2015, Volume 5, Issue 1, p. 7722
Fusarium wilt is caused by the infection and growth of the fungus Fusarium oxysporum in the xylem of host plants. The physiological responses of cucumbers that...
DOWNY MILDEW | ARABIDOPSIS-THALIANA | MULTIDISCIPLINARY SCIENCES | TOMATO CULTIVARS | LEAF PHYSIOLOGY | ACID PRODUCTION | THERMOGRAPHIC VISUALIZATION | VERTICILLIUM-DAHLIAE | DISEASE RESISTANCE | WILT DISEASE | CELL-DEATH | Plant Transpiration - physiology | Temperature | Fusaric Acid - metabolism | Cucumis sativus - radiation effects | Plant Transpiration - radiation effects | Seedlings - microbiology | Plant Diseases - microbiology | Electric Conductivity | Biomass | Cucumis sativus - physiology | Cell Membrane - physiology | Cucumis sativus - microbiology | Plant Stomata - ultrastructure | Fusarium - physiology | Light | Mesophyll Cells - ultrastructure | Cell Membrane - drug effects | Cell Membrane - radiation effects | Mesophyll Cells - cytology | Cucumis sativus - drug effects | Plant Transpiration - drug effects | Fusaric Acid - pharmacology | Water - metabolism | Seedlings - drug effects | Plant Stomata - radiation effects | Photosynthesis - drug effects | Carbohydrates - analysis | Mesophyll Cells - radiation effects | Seedlings - radiation effects | Mesophyll Cells - microbiology | Plant Stomata - physiology | Xylem | Stomata | Cell membranes | Water balance | Leaves | Transpiration | Wilt | Water loss | Host plants | Fusaric acid | Conductance | Flowers & plants | Cucumbers
DOWNY MILDEW | ARABIDOPSIS-THALIANA | MULTIDISCIPLINARY SCIENCES | TOMATO CULTIVARS | LEAF PHYSIOLOGY | ACID PRODUCTION | THERMOGRAPHIC VISUALIZATION | VERTICILLIUM-DAHLIAE | DISEASE RESISTANCE | WILT DISEASE | CELL-DEATH | Plant Transpiration - physiology | Temperature | Fusaric Acid - metabolism | Cucumis sativus - radiation effects | Plant Transpiration - radiation effects | Seedlings - microbiology | Plant Diseases - microbiology | Electric Conductivity | Biomass | Cucumis sativus - physiology | Cell Membrane - physiology | Cucumis sativus - microbiology | Plant Stomata - ultrastructure | Fusarium - physiology | Light | Mesophyll Cells - ultrastructure | Cell Membrane - drug effects | Cell Membrane - radiation effects | Mesophyll Cells - cytology | Cucumis sativus - drug effects | Plant Transpiration - drug effects | Fusaric Acid - pharmacology | Water - metabolism | Seedlings - drug effects | Plant Stomata - radiation effects | Photosynthesis - drug effects | Carbohydrates - analysis | Mesophyll Cells - radiation effects | Seedlings - radiation effects | Mesophyll Cells - microbiology | Plant Stomata - physiology | Xylem | Stomata | Cell membranes | Water balance | Leaves | Transpiration | Wilt | Water loss | Host plants | Fusaric acid | Conductance | Flowers & plants | Cucumbers
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Loading RightsNew Phytologist, ISSN 0028-646X, 5/2014, Volume 202, Issue 3, pp. 823 - 837
is a soil-borne vascular pathogen causing economic loss in rape. Using the model plant Arabidopsis this study analyzed metabolic changes upon fungal infection...
Full papers | Lignin | Inoculation | Metabolites | Verticillium | Lignans | Esters | Infections | Plants | Alcohols | Glucosides | coniferyl esters | infection markers | metabolite fingerprinting | Verticillium sp | lignin | phenylpropanoids | sinapate esters | Infection markers | Coniferyl esters | Phenylpropanoids | Sinapate esters | Metabolite fingerprinting | SYSTEMIC SPREAD | BOTRYTIS-CINEREA | DIRIGENT PROTEINS | TGA TRANSCRIPTION FACTORS | V-DAHLIAE | VEGETATIVE COMPATIBILITY GROUPS | DISEASE SYMPTOMS | PLANT SCIENCES | BRASSICA-NAPUS | GENE-EXPRESSION | OILSEED RAPE | Metabolomics | Genes, Plant | Plant Diseases - immunology | Arabidopsis - immunology | Plant Diseases - microbiology | Disease Resistance - immunology | Propanols - metabolism | Lignin - metabolism | Verticillium - growth & development | Plant Leaves - drug effects | Phenols - pharmacology | Verticillium - drug effects | Biomarkers - metabolism | Glucosides - pharmacology | Coumaric Acids - metabolism | Solubility | Lignans - metabolism | Mutation - genetics | Cinnamates - pharmacology | Verticillium - physiology | Plant Leaves - immunology | Arabidopsis - genetics | Arabidopsis - microbiology | Gene Expression Regulation, Plant - drug effects | Biosynthetic Pathways - drug effects | Plant Vascular Bundle - cytology | Plant Vascular Bundle - metabolism | Phenols - chemistry | Plant Leaves - microbiology | Arabidopsis thaliana | Glucose metabolism | Analysis | Mycoses | Genetic engineering | Glucose | Dextrose
Full papers | Lignin | Inoculation | Metabolites | Verticillium | Lignans | Esters | Infections | Plants | Alcohols | Glucosides | coniferyl esters | infection markers | metabolite fingerprinting | Verticillium sp | lignin | phenylpropanoids | sinapate esters | Infection markers | Coniferyl esters | Phenylpropanoids | Sinapate esters | Metabolite fingerprinting | SYSTEMIC SPREAD | BOTRYTIS-CINEREA | DIRIGENT PROTEINS | TGA TRANSCRIPTION FACTORS | V-DAHLIAE | VEGETATIVE COMPATIBILITY GROUPS | DISEASE SYMPTOMS | PLANT SCIENCES | BRASSICA-NAPUS | GENE-EXPRESSION | OILSEED RAPE | Metabolomics | Genes, Plant | Plant Diseases - immunology | Arabidopsis - immunology | Plant Diseases - microbiology | Disease Resistance - immunology | Propanols - metabolism | Lignin - metabolism | Verticillium - growth & development | Plant Leaves - drug effects | Phenols - pharmacology | Verticillium - drug effects | Biomarkers - metabolism | Glucosides - pharmacology | Coumaric Acids - metabolism | Solubility | Lignans - metabolism | Mutation - genetics | Cinnamates - pharmacology | Verticillium - physiology | Plant Leaves - immunology | Arabidopsis - genetics | Arabidopsis - microbiology | Gene Expression Regulation, Plant - drug effects | Biosynthetic Pathways - drug effects | Plant Vascular Bundle - cytology | Plant Vascular Bundle - metabolism | Phenols - chemistry | Plant Leaves - microbiology | Arabidopsis thaliana | Glucose metabolism | Analysis | Mycoses | Genetic engineering | Glucose | Dextrose
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Loading RightsPlant Cell Reports, ISSN 0721-7714, 10/2016, Volume 35, Issue 10, pp. 2167 - 2179
Dual function of GhATAF1 in the responses to salinity stress and Verticillium dahliae infection in cotton. NAC (NAM/ATAF1/2/CUC2) is a large plant-specific...
Life Sciences | Biotechnology | Cotton ( Gossypium hirsutum ) | Plant Biochemistry | Abiotic stress | Phytohormones | Biotic stress | Plant Sciences | NAC gene | Cell Biology | Cotton (Gossypium hirsutum) | IMPROVES DROUGHT | ARABIDOPSIS-THALIANA | SALT TOLERANCE | PLANT SCIENCES | GOSSYPIUM-HIRSUTUM | LEAF SENESCENCE | PLANT DEFENSE | FUNCTIONAL-ANALYSIS | GENE-EXPRESSION | VERTICILLIUM-DAHLIAE | DISEASE RESISTANCE | Gossypium - metabolism | Transcriptional Activation - genetics | Transcription Factors - chemistry | Transcriptional Activation - drug effects | Plant Diseases - microbiology | Salt-Tolerance - drug effects | Gossypium - physiology | Salicylic Acid - pharmacology | Plant Proteins - chemistry | Plants, Genetically Modified | Salt-Tolerance - genetics | Plant Proteins - metabolism | Stress, Physiological - drug effects | Verticillium - drug effects | Amino Acid Sequence | Disease Resistance | Stress, Physiological - genetics | Signal Transduction - genetics | Cyclopentanes - pharmacology | Transcription Factors - genetics | Subcellular Fractions - metabolism | Arabidopsis - genetics | Transcription Factors - metabolism | Plant Proteins - genetics | Gene Expression Regulation, Plant - drug effects | Sequence Alignment | Signal Transduction - drug effects | Oxylipins - pharmacology | Gossypium - microbiology | Plant Growth Regulators - metabolism | Plant Growth Regulators - pharmacology | Plant hormones | Anopheles | Salinity
Life Sciences | Biotechnology | Cotton ( Gossypium hirsutum ) | Plant Biochemistry | Abiotic stress | Phytohormones | Biotic stress | Plant Sciences | NAC gene | Cell Biology | Cotton (Gossypium hirsutum) | IMPROVES DROUGHT | ARABIDOPSIS-THALIANA | SALT TOLERANCE | PLANT SCIENCES | GOSSYPIUM-HIRSUTUM | LEAF SENESCENCE | PLANT DEFENSE | FUNCTIONAL-ANALYSIS | GENE-EXPRESSION | VERTICILLIUM-DAHLIAE | DISEASE RESISTANCE | Gossypium - metabolism | Transcriptional Activation - genetics | Transcription Factors - chemistry | Transcriptional Activation - drug effects | Plant Diseases - microbiology | Salt-Tolerance - drug effects | Gossypium - physiology | Salicylic Acid - pharmacology | Plant Proteins - chemistry | Plants, Genetically Modified | Salt-Tolerance - genetics | Plant Proteins - metabolism | Stress, Physiological - drug effects | Verticillium - drug effects | Amino Acid Sequence | Disease Resistance | Stress, Physiological - genetics | Signal Transduction - genetics | Cyclopentanes - pharmacology | Transcription Factors - genetics | Subcellular Fractions - metabolism | Arabidopsis - genetics | Transcription Factors - metabolism | Plant Proteins - genetics | Gene Expression Regulation, Plant - drug effects | Sequence Alignment | Signal Transduction - drug effects | Oxylipins - pharmacology | Gossypium - microbiology | Plant Growth Regulators - metabolism | Plant Growth Regulators - pharmacology | Plant hormones | Anopheles | Salinity
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Loading RightsPlant, Cell & Environment, ISSN 0140-7791, 08/2017, Volume 40, Issue 8, pp. 1512 - 1530
Histone H2B monoubiquitination (H2Bub1) is recognized as a regulatory mechanism that controls a range of cellular processes. We previously showed that H2Bub1...
MAPK | H2Bub1 | tyrosine phosphorylation | DEFENSE RESPONSES | ACTIVATED PROTEIN-KINASE | VERTICILLIUM-DAHLIAE TOXINS | PHOSPHORYLATION | MAP KINASE | TYROSINE PHOSPHATASES | CORTICAL MICROTUBULE | PLANT SCIENCES | GENE | PLANT DEFENSE | FLOWERING-LOCUS-C | Adaptation, Physiological | Arabidopsis - drug effects | Sodium Chloride - pharmacology | Stress, Physiological - genetics | Enzyme Inhibitors - pharmacology | Ubiquitin-Protein Ligases - metabolism | Polymerization | Mutation - genetics | Arabidopsis - metabolism | Phosphotyrosine - metabolism | Arabidopsis - genetics | Arabidopsis Proteins - metabolism | Gene Expression Regulation, Plant - drug effects | Microtubules - metabolism | Phenotype | Ubiquitination | Microtubules - drug effects | Plants, Genetically Modified | Protein Binding - drug effects | Stress, Physiological - drug effects | Histones - metabolism | Phosphorylation - drug effects | Arabidopsis thaliana | Tyrosine | Phosphatases | Analysis | Phosphorylation | Salts | Histone H2B | Activation | Kinases | Salinity tolerance | MAP kinase phosphatase | Depolymerization | Salt | Signal transduction | Pathways | Stresses | Stability | Abiotic stress | Cortex | MAP kinase | Gene expression | Stress | Mutants | Signaling | Microtubules | Regulatory mechanisms (biology) | Protein-tyrosine-phosphatase
MAPK | H2Bub1 | tyrosine phosphorylation | DEFENSE RESPONSES | ACTIVATED PROTEIN-KINASE | VERTICILLIUM-DAHLIAE TOXINS | PHOSPHORYLATION | MAP KINASE | TYROSINE PHOSPHATASES | CORTICAL MICROTUBULE | PLANT SCIENCES | GENE | PLANT DEFENSE | FLOWERING-LOCUS-C | Adaptation, Physiological | Arabidopsis - drug effects | Sodium Chloride - pharmacology | Stress, Physiological - genetics | Enzyme Inhibitors - pharmacology | Ubiquitin-Protein Ligases - metabolism | Polymerization | Mutation - genetics | Arabidopsis - metabolism | Phosphotyrosine - metabolism | Arabidopsis - genetics | Arabidopsis Proteins - metabolism | Gene Expression Regulation, Plant - drug effects | Microtubules - metabolism | Phenotype | Ubiquitination | Microtubules - drug effects | Plants, Genetically Modified | Protein Binding - drug effects | Stress, Physiological - drug effects | Histones - metabolism | Phosphorylation - drug effects | Arabidopsis thaliana | Tyrosine | Phosphatases | Analysis | Phosphorylation | Salts | Histone H2B | Activation | Kinases | Salinity tolerance | MAP kinase phosphatase | Depolymerization | Salt | Signal transduction | Pathways | Stresses | Stability | Abiotic stress | Cortex | MAP kinase | Gene expression | Stress | Mutants | Signaling | Microtubules | Regulatory mechanisms (biology) | Protein-tyrosine-phosphatase
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Loading RightsEnvironmental Microbiology, ISSN 1462-2912, 04/2015, Volume 17, Issue 4, pp. 1166 - 1188
Summary Verticillium wilt in cotton caused by Verticillium dahliae is one of the most serious plant diseases worldwide. Because no known fungicides or cotton...
OXIDATIVE STRESS | OSMOTIC-STRESS | BACILLUS-SUBTILIS | BOTRYTIS-CINEREA | HIGH-OSMOLARITY GLYCEROL | ANTIFUNGAL ACTIVITY | MICROBIOLOGY | WALL INTEGRITY | BIOLOGICAL-CONTROL | SACCHAROMYCES-CEREVISIAE | PLASMA-MEMBRANE | Antifungal Agents - pharmacology | Reactive Oxygen Species - metabolism | Signal Transduction | Bacillus - metabolism | Lipopeptides - pharmacology | Verticillium - metabolism | Peptides, Cyclic - pharmacology | Plant Diseases - microbiology | Enzyme Activation - drug effects | Cell Wall - drug effects | Gossypium - immunology | Antifungal Agents - metabolism | Gossypium - microbiology | RNA, Ribosomal, 16S - genetics | Oxidative Stress - drug effects | Mitogen-Activated Protein Kinases - metabolism | Verticillium - drug effects | Defense industry | Pests | Cell death | Analysis | Biological control | Cotton | Kinases
OXIDATIVE STRESS | OSMOTIC-STRESS | BACILLUS-SUBTILIS | BOTRYTIS-CINEREA | HIGH-OSMOLARITY GLYCEROL | ANTIFUNGAL ACTIVITY | MICROBIOLOGY | WALL INTEGRITY | BIOLOGICAL-CONTROL | SACCHAROMYCES-CEREVISIAE | PLASMA-MEMBRANE | Antifungal Agents - pharmacology | Reactive Oxygen Species - metabolism | Signal Transduction | Bacillus - metabolism | Lipopeptides - pharmacology | Verticillium - metabolism | Peptides, Cyclic - pharmacology | Plant Diseases - microbiology | Enzyme Activation - drug effects | Cell Wall - drug effects | Gossypium - immunology | Antifungal Agents - metabolism | Gossypium - microbiology | RNA, Ribosomal, 16S - genetics | Oxidative Stress - drug effects | Mitogen-Activated Protein Kinases - metabolism | Verticillium - drug effects | Defense industry | Pests | Cell death | Analysis | Biological control | Cotton | Kinases
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Loading RightsNatural Product Research, ISSN 1478-6419, 06/2019, Volume 33, Issue 12, pp. 1751 - 1755
Antifungal bioassays led to the isolation of actinomycins D and A 1 from Streptomyces luteus TRM45540 collected from Norpo in Xinjiang, and these compounds...
Streptomyces luteus | actinomycin D | membrane-splitting mechanis | Verticillium dahliae | antifungal activity | Antifungal Agents - isolation & purification | Antifungal Agents - pharmacology | Dose-Response Relationship, Drug | Dactinomycin - isolation & purification | Streptomyces - chemistry | Dactinomycin - pharmacology | Cell Membrane - drug effects | Verticillium - drug effects
Streptomyces luteus | actinomycin D | membrane-splitting mechanis | Verticillium dahliae | antifungal activity | Antifungal Agents - isolation & purification | Antifungal Agents - pharmacology | Dose-Response Relationship, Drug | Dactinomycin - isolation & purification | Streptomyces - chemistry | Dactinomycin - pharmacology | Cell Membrane - drug effects | Verticillium - drug effects
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Loading RightsPlant Physiology, ISSN 0032-0889, 4/2014, Volume 164, Issue 4, pp. 1857 - 1865
Histone H2B monoubiquitination (H2Bub) is being recognized as a regulatory mechanism that controls a range of cellular processes in plants, but the molecular...
Depolymerization | Phosphorylation | Phosphatases | Microtubules | Verticillium | Histones | Toxins | Gene expression regulation | Plants | Plant cells | CELL BIOLOGY | PHOSPHORYLATION | MAP KINASE | EPIDERMAL-CELLS | PLANT DEFENSE | PROTEIN-TYROSINE PHOSPHATASES | FLOWERING-LOCUS-C | ARABIDOPSIS | EXPRESSION | DUAL-SPECIFICITY PHOSPHATASES | CORTICAL MICROTUBULE | PLANT SCIENCES | Arabidopsis - drug effects | Arsenicals - pharmacology | Ubiquitin-Protein Ligases - metabolism | Verticillium - metabolism | Arabidopsis - immunology | Mycotoxins - toxicity | Phosphotyrosine - metabolism | Arabidopsis - genetics | Arabidopsis Proteins - metabolism | Arabidopsis - microbiology | Gene Expression Regulation, Plant - drug effects | Microtubules - metabolism | Ubiquitination - drug effects | Microtubules - drug effects | Genistein - pharmacology | Histones - metabolism | Phosphorylation - drug effects | Arabidopsis thaliana | Botanical research | Plant-pathogen relationships | Diseases and pests | Physiological aspects | Research | Ubiquitin-proteasome system
Depolymerization | Phosphorylation | Phosphatases | Microtubules | Verticillium | Histones | Toxins | Gene expression regulation | Plants | Plant cells | CELL BIOLOGY | PHOSPHORYLATION | MAP KINASE | EPIDERMAL-CELLS | PLANT DEFENSE | PROTEIN-TYROSINE PHOSPHATASES | FLOWERING-LOCUS-C | ARABIDOPSIS | EXPRESSION | DUAL-SPECIFICITY PHOSPHATASES | CORTICAL MICROTUBULE | PLANT SCIENCES | Arabidopsis - drug effects | Arsenicals - pharmacology | Ubiquitin-Protein Ligases - metabolism | Verticillium - metabolism | Arabidopsis - immunology | Mycotoxins - toxicity | Phosphotyrosine - metabolism | Arabidopsis - genetics | Arabidopsis Proteins - metabolism | Arabidopsis - microbiology | Gene Expression Regulation, Plant - drug effects | Microtubules - metabolism | Ubiquitination - drug effects | Microtubules - drug effects | Genistein - pharmacology | Histones - metabolism | Phosphorylation - drug effects | Arabidopsis thaliana | Botanical research | Plant-pathogen relationships | Diseases and pests | Physiological aspects | Research | Ubiquitin-proteasome system
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Loading RightsMolecules, ISSN 1420-3049, 2014, Volume 19, Issue 6, pp. 7832 - 7849
A series of novel glycosylthiadiazole derivatives, namely 2-phenylamino-5-glycosyl-1,3,4-thiadiazoles, were designed and synthesized by condensation between...
Carbohydrates | 1,3,4-thiadiazole | Synthesis | Fungicidal activity | carbohydrates | synthesis | GLUCOSAMINE-6-PHOSPHATE SYNTHASE | BIOCHEMISTRY & MOLECULAR BIOLOGY | fungicidal activity | ESCHERICHIA-COLI | CHEMISTRY, MULTIDISCIPLINARY | TREHALASE | 1,3,4-THIADIAZOLE DERIVATIVES | CANDIDA-ALBICANS | BIOLOGICAL-ACTIVITY | ANTIINFLAMMATORY ACTIVITIES | INHIBITORS | Antifungal Agents - pharmacology | Glutamine-Fructose-6-Phosphate Transaminase (Isomerizing) - antagonists & inhibitors | Phytophthora - drug effects | Fungi - drug effects | Helminthosporium - drug effects | Nitriles - pharmacology | Antifungal Agents - chemical synthesis | Antifungal Agents - chemistry | Ascomycota - drug effects | Structure-Activity Relationship | Mitosporic Fungi - drug effects | Microbial Sensitivity Tests | Candida albicans - drug effects | Thiadiazoles - chemical synthesis | Rhizoctonia - drug effects | Thiadiazoles - chemistry | Molecular Structure | Candida albicans - enzymology | Thiadiazoles - pharmacology | Verticillium - drug effects
Carbohydrates | 1,3,4-thiadiazole | Synthesis | Fungicidal activity | carbohydrates | synthesis | GLUCOSAMINE-6-PHOSPHATE SYNTHASE | BIOCHEMISTRY & MOLECULAR BIOLOGY | fungicidal activity | ESCHERICHIA-COLI | CHEMISTRY, MULTIDISCIPLINARY | TREHALASE | 1,3,4-THIADIAZOLE DERIVATIVES | CANDIDA-ALBICANS | BIOLOGICAL-ACTIVITY | ANTIINFLAMMATORY ACTIVITIES | INHIBITORS | Antifungal Agents - pharmacology | Glutamine-Fructose-6-Phosphate Transaminase (Isomerizing) - antagonists & inhibitors | Phytophthora - drug effects | Fungi - drug effects | Helminthosporium - drug effects | Nitriles - pharmacology | Antifungal Agents - chemical synthesis | Antifungal Agents - chemistry | Ascomycota - drug effects | Structure-Activity Relationship | Mitosporic Fungi - drug effects | Microbial Sensitivity Tests | Candida albicans - drug effects | Thiadiazoles - chemical synthesis | Rhizoctonia - drug effects | Thiadiazoles - chemistry | Molecular Structure | Candida albicans - enzymology | Thiadiazoles - pharmacology | Verticillium - drug effects
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Loading RightsPhytochemistry, ISSN 0031-9422, 03/2017, Volume 135, pp. 169 - 180
Oxidation of α euphorbol and 31-norlanostenol, two triterpenic compounds isolated from the latex of and respectively, yielded four products named...
Resistance | Verticillium dahliae | Solanum lycopersicum | Triterpene derivatives | Euphorbiaceae | Euphorbia resinifera | Solanaceae | Euphorbia officinarum | Elicitor | CHOLIC-ACID | OXIDATION | DAHLIAE | OFFICINARUM LATEX | BIOCHEMISTRY & MOLECULAR BIOLOGY | INDUCTION | PLANT SCIENCES | PATHOGENICITY | ELICITATION | GROWTH | ERGOSTEROL | PLANTS | Lycopersicon esculentum - drug effects | Triterpenes - chemistry | Lycopersicon esculentum - growth & development | Triterpenes - pharmacology | Hydrogen Peroxide - analysis | Drug Resistance, Fungal - drug effects | Triterpenes - isolation & purification | Molecular Structure | Verticillium - drug effects | Oxidases | Germination | Plants | Medical research | Saponins | Medicine, Experimental | Tomatoes | Terpenes
Resistance | Verticillium dahliae | Solanum lycopersicum | Triterpene derivatives | Euphorbiaceae | Euphorbia resinifera | Solanaceae | Euphorbia officinarum | Elicitor | CHOLIC-ACID | OXIDATION | DAHLIAE | OFFICINARUM LATEX | BIOCHEMISTRY & MOLECULAR BIOLOGY | INDUCTION | PLANT SCIENCES | PATHOGENICITY | ELICITATION | GROWTH | ERGOSTEROL | PLANTS | Lycopersicon esculentum - drug effects | Triterpenes - chemistry | Lycopersicon esculentum - growth & development | Triterpenes - pharmacology | Hydrogen Peroxide - analysis | Drug Resistance, Fungal - drug effects | Triterpenes - isolation & purification | Molecular Structure | Verticillium - drug effects | Oxidases | Germination | Plants | Medical research | Saponins | Medicine, Experimental | Tomatoes | Terpenes
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Loading RightsApplied Microbiology and Biotechnology, ISSN 0175-7598, 06/2013, Volume 97, Issue 12, pp. 5535 - 5543
Dry bubble disease caused by Lecanicillium fungicola is a persistent problem in the cultivation of the white button mushroom (Agaricus bisporus). Because...
Agaricus bisporus | Dry bubble disease | Control | Lecanicillium fungicola | 1-Octen-3-ol | Mushroom | Biotechnology | Chemistry | Microbiology | Microbial Genetics and Genomics | PENICILLIUM-PANEUM | LINOLEIC-ACID | CONIDIA | GERMINATION | 10-OXO-TRANS-8-DECENOIC ACID | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | LECANICILLIUM-FUNGICOLA | VERTICILLIUM-FUNGICOLA | MALTHOUSEI | Agaricus - chemistry | Octanols - isolation & purification | Pseudomonas - drug effects | Hypocreales - growth & development | Octanols - pharmacology | Hypocreales - drug effects | Pseudomonas - growth & development | Growth Inhibitors - isolation & purification | Growth Inhibitors - pharmacology | Microbial Interactions | Fungi | Studies | Mushrooms | Disease control | Analysis
Agaricus bisporus | Dry bubble disease | Control | Lecanicillium fungicola | 1-Octen-3-ol | Mushroom | Biotechnology | Chemistry | Microbiology | Microbial Genetics and Genomics | PENICILLIUM-PANEUM | LINOLEIC-ACID | CONIDIA | GERMINATION | 10-OXO-TRANS-8-DECENOIC ACID | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | LECANICILLIUM-FUNGICOLA | VERTICILLIUM-FUNGICOLA | MALTHOUSEI | Agaricus - chemistry | Octanols - isolation & purification | Pseudomonas - drug effects | Hypocreales - growth & development | Octanols - pharmacology | Hypocreales - drug effects | Pseudomonas - growth & development | Growth Inhibitors - isolation & purification | Growth Inhibitors - pharmacology | Microbial Interactions | Fungi | Studies | Mushrooms | Disease control | Analysis
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Loading RightsPhysiologia Plantarum, ISSN 0031-9317, 02/2015, Volume 153, Issue 2, pp. 253 - 268
Verticillium dahliae is a prominent generator of plant vascular wilting disease and sulfur (S)‐enhanced defense (SED) mechanisms contribute to its in‐planta...
ELEMENTAL SULFUR | TOBACCO-MOSAIC-VIRUS | ARABIDOPSIS-THALIANA | SULFATE TRANSPORTERS | PATHOGEN | GROWTH | INFECTION | ASSIMILATION | GLUTATHIONE METABOLISM | DISEASE RESISTANCE | PLANT SCIENCES | Plant Vascular Bundle - drug effects | Microdissection | Genes, Plant | Hypocotyl - genetics | Plant Diseases - immunology | Xylem - microbiology | Plant Diseases - microbiology | Colony Count, Microbial | Sulfhydryl Compounds - metabolism | Verticillium - growth & development | Lycopersicon esculentum - genetics | Plant Diseases - genetics | Plant Vascular Bundle - genetics | Biological Transport - drug effects | Cysteine - metabolism | Lycopersicon esculentum - immunology | Verticillium - drug effects | Lycopersicon esculentum - drug effects | Sulfur - metabolism | Genetic Association Studies | Genotype | Sulfates - pharmacology | Plant Vascular Bundle - microbiology | Verticillium - physiology |
ELEMENTAL SULFUR | TOBACCO-MOSAIC-VIRUS | ARABIDOPSIS-THALIANA | SULFATE TRANSPORTERS | PATHOGEN | GROWTH | INFECTION | ASSIMILATION | GLUTATHIONE METABOLISM | DISEASE RESISTANCE | PLANT SCIENCES | Plant Vascular Bundle - drug effects | Microdissection | Genes, Plant | Hypocotyl - genetics | Plant Diseases - immunology | Xylem - microbiology | Plant Diseases - microbiology | Colony Count, Microbial | Sulfhydryl Compounds - metabolism | Verticillium - growth & development | Lycopersicon esculentum - genetics | Plant Diseases - genetics | Plant Vascular Bundle - genetics | Biological Transport - drug effects | Cysteine - metabolism | Lycopersicon esculentum - immunology | Verticillium - drug effects | Lycopersicon esculentum - drug effects | Sulfur - metabolism | Genetic Association Studies | Genotype | Sulfates - pharmacology | Plant Vascular Bundle - microbiology | Verticillium - physiology |