Search results for "Pest Control"

showing 10 items of 221 documents

Global variation in the genetic and biochemical basis of diamondback moth resistance to Bacillus thuringiensis

1997

Insecticidal proteins from the soil bacterium Bacillus thuringiensis (Bt) are becoming a cornerstone of ecologically sound pest management. However, if pests quickly adapt, the benefits of environmentally benign Bt toxins in sprays and genetically engineered crops will be short-lived. The diamondback moth ( Plutella xylostella ) is the first insect to evolve resistance to Bt in open-field populations. Here we report that populations from Hawaii and Pennsylvania share a genetic locus at which a recessive mutation associated with reduced toxin binding confers extremely high resistance to four Bt toxins. In contrast, resistance in a population from the Philippines shows multilocus control, a …

Bacterial ToxinsPopulationBacillus thuringiensisGenetically modified cropsMothsGenomic ImprintingHemolysin ProteinsBacterial ProteinsBacillus thuringiensisGenetic variationAnimalsAllelePest Control BiologicaleducationGeneticseducation.field_of_studyMultidisciplinaryDiamondback mothBacillus thuringiensis Toxinsbiologybusiness.industryGenetic Complementation TestfungiPest controlfood and beveragesChromosome MappingGenetic VariationPlutellaBiological Sciencesbiology.organism_classificationEndotoxinsFemalebusinessProtein Binding
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Genetic and Biochemical Approach for Characterization of Resistance to Bacillus thuringiensis Toxin Cry1Ac in a Field Population of the Diamondback M…

2000

ABSTRACT Four subpopulations of a Plutella xylostella (L.) strain from Malaysia (F 4 to F 8 ) were selected with Bacillus thuringiensis subsp. kurstaki HD-1, Bacillus thuringiensis subsp. aizawai , Cry1Ab, and Cry1Ac, respectively, while a fifth subpopulation was left as unselected (UNSEL-MEL). Bioassays at F 9 found that selection with Cry1Ac, Cry1Ab, B. thuringiensis subsp. kurstaki , and B. thuringiensis subsp. aizawai gave resistance ratios of >95, 10, 7, and 3, respectively, compared with UNSEL-MEL (>10,500, 500, >100, and 26, respectively, compared with a susceptible population, ROTH). Resistance to Cry1Ac, Cry1Ab, B. thuringiensis subsp. kurstaki , and B. thuringiensis subsp…

Bacterial ToxinsPopulationBacillus thuringiensisMothsBiologyApplied Microbiology and BiotechnologyMicrobiologyInsecticide ResistanceHemolysin ProteinsBacterial ProteinsBacillus thuringiensisBotanyInvertebrate MicrobiologyAnimalsSelection GeneticPest Control BiologicaleducationCrosses GeneticCross-resistanceGenes Dominanteducation.field_of_studyDiamondback mothBacillus thuringiensis ToxinsEcologyfungiParasporal bodyGenetic VariationPlutellabiology.organism_classificationBacillalesEndotoxinsGenetics PopulationCry1AcDigestive SystemFood ScienceBiotechnologyApplied and Environmental Microbiology
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Assessing the effectiveness of Byssochlamys nivea and Scopulariopsis brumptii in pentachlorophenol removal and biological control of two Phytophthora…

2016

Bioremediation and biological-control by fungi have made tremendous strides in numerous biotechnology applications. The aim of this study was to test Byssochlamys nivea and Scopulariopsis brumptii in sensitivity and degradation to pentachlorophenol (PCP) and in biological-control of Phytophthora cinnamomi and Phytophthora cambivora. B. nivea and S. brumptii were tested in PCP sensitivity and degradation in microbiological media while the experiments of biological-control were carried out in microbiological media and soil. The fungal strains showed low PCP sensitivity at 12.5 and 25 mg PCP L(-1) although the hyphal size, fungal mat, patulin, and spore production decreased with increasing PCP…

Behavior and SystematicPhytophthora0106 biological sciencesPentachlorophenolEvolutionByssochlamysMicrobial Sensitivity TestsPlant Science010501 environmental sciencesPhytophthora cinnamomiFagaceae01 natural sciencesMicrobiologyPatulinchemistry.chemical_compoundOomycetePhytophthora cambivoraGeneticPlant pathogenGeneticsPest Control BiologicalEcology Evolution Behavior and SystematicsPlant Diseases0105 earth and related environmental sciencesByssochlamysEcologybiologyfungiTemperatureFungifood and beveragesbiology.organism_classificationSurvival AnalysisEcology Evolution Behavior and SystematicSporePentachlorophenolPatulinInfectious DiseaseschemistryScopulariopsisScopulariopsisMicrobial InteractionsEnvironmental PollutantsPhytophthoraBioremediationElectrolyte Leakage Assay010606 plant biology & botany
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Lures for red palm weevil trapping systems: aggregation pheromone and synthetic kairomone

2015

[EN] BACKGROUNDThe optimisation of the lure is essential for the implementation of trapping systems to control insect pests. In this work, the response of the red palm weevil (RPW), Rhynchophorus ferrugineus Olivier, to increasing emission rates of its aggregation pheromone (ferrugineol) and the efficacy of a convenient synthetic kairomone based on fermentation odours (ethyl acetate and ethanol) have been evaluated in different years and locations along the Mediterranean basin. RESULTSIn general, although capture data and emission had noticeable variability among locations, significantly fewer RPW were captured in pyramidal Picusan (R) traps with the lowest ferrugineol emission rates tested…

Behavior AnimalEthanolMass trappingmonitoringEthyl acetateRhynchophorus ferrugineuRhynchophorus ferrugineusPheromonesmass trappingmonitoringSettore AGR/11 - Entomologia Generale E ApplicataQUIMICA ORGANICAInsect HormonesInsect ScienceAnimalsWeevilsPest Control BiologicalAgronomy and Crop Science4-methyl-5-nonanol
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The Biocontrol Agent and Insect Pathogen Photorhabdus luminescens Interacts with Plant Roots

2020

ABSTRACT The number of sustainable agriculture techniques to improve pest management and environmental safety is rising, as biological control agents are used to enhance disease resistance and abiotic stress tolerance in crops. Here, we investigated the capacity of the Photorhabdus luminescens secondary variant to react to plant root exudates and their behavior toward microorganisms in the rhizosphere. P. luminescens is known to live in symbiosis with entomopathogenic nematodes (EPNs) and to be highly pathogenic toward insects. The P. luminescens-EPN relationship has been widely studied, and this combination has been used as a biological control agent; however, not much attention has been p…

Biological pest controlBiologyRhizobacteriaPlant RootsApplied Microbiology and Biotechnology03 medical and health sciencesPlant MicrobiologySymbiosisPhotorhabdus luminescensBotanyRNA-Seq030304 developmental biologyType VI secretion system0303 health sciencesRhizosphereEcology030306 microbiologyAbiotic stressChemotaxisGene Expression ProfilingfungiFungiBiofilmfood and beveragesExudates and Transudatesbiology.organism_classificationBiological Control AgentsGenes BacterialRhizospherePhotorhabdusFood ScienceBiotechnologyApplied and Environmental Microbiology
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Shared Binding Sites for the Bacillus thuringiensis Proteins Cry3Bb, Cry3Ca, and Cry7Aa in the African Sweet Potato Pest Cylas puncticollis (Brentida…

2014

ABSTRACT Bacillus thuringiensis Cry3Bb, Cry3Ca, and Cry7Aa have been reported to be toxic against larvae of the genus Cylas , which are important pests of sweet potato worldwide and particularly in sub-Saharan Africa. However, relatively little is known about the processing and binding interactions of these coleopteran-specific Cry proteins. The aim of the present study was to determine whether Cry3Bb, Cry3Ca, and Cry7Aa proteins have shared binding sites in Cylas puncticollis to orient the pest resistance strategy by genetic transformation. Interestingly, processing of the 129-kDa Cry7Aa protoxin using commercial trypsin or chymotrypsin rendered two fragments of about 70 kDa and 65 kDa. N-…

Brush borderBacillus thuringiensisBiological pest controlHemolysin ProteinsApplied Microbiology and BiotechnologyMicrobiologyHemolysin ProteinsBacterial ProteinsBacillus thuringiensisEnvironmental MicrobiologymedicineAnimalsIpomoea batatasBinding sitePlant DiseasesBinding SitesChymotrypsinBacillus thuringiensis ToxinsEcologybiologyfungiTrypsinbiology.organism_classificationColeopteraEndotoxinsLarvabiology.proteinPEST analysisFood ScienceBiotechnologymedicine.drugApplied and Environmental Microbiology
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Lyophilization of lepidopteran midguts: a preserving method for Bacillus thuringiensis toxin binding studies

2004

Binding assays with brush border membrane vesicles (BBMV) from insect midguts are commonly used in the study of the interactions between Bacillus thuringiensis Cry toxins and their receptors. Collaboration between laboratories often require that frozen insect samples are sent in dry ice. Because of customs restrictions and delays, sample thawing is always a risk and often the biological material becomes ruined during shipping. We have tested lyophilization as an alternative method for preserving insect midguts for binding studies with B. thuringiensis Cry toxins. For this purpose, BBMV were prepared from both frozen and lyophilized midguts from three lepidopteran species: Spodoptera exigua,…

Brush borderBacillus thuringiensisReceptors Cell SurfaceHelicoverpa armigeraSpodopteramedicine.disease_causeHost-Parasite InteractionsMicrobiologyBacterial ProteinsBacillus thuringiensisExiguamedicineAnimalsBinding sitePest Control BiologicalEcology Evolution Behavior and SystematicsCryopreservationMicrovillibiologyToxinfungibiology.organism_classificationLepidopteraFreeze DryingBiochemistryManduca sextaInsect ProteinsDigestive SystemJournal of Invertebrate Pathology
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Immunohistochemical Detection of Binding of Cryia Crystal Proteins of Bacillus thuringiensis in Highly Resistant Strains of Plutella xylostella (L.) …

1995

We detected binding of insecticidal crystal proteins from Bacillus thuringiensis in one susceptible strain and six resistant strains of diamondback moth, Plutella xylostella, from Hawaii. Immunohistochemical tests with tissue sections from larval midguts showed specific binding of CryIA(a), CryIA(b), and CryIA(c) to brush border membranes. CryIE, which is not toxic to P. xylostella, did not bind to midgut tissues. Larvae from one of the resistant strains ingested extremely high concentrations of a commercial formulation containing the three CryIA proteins without suffering midgut cell damage or mortality. This same resistant strain had previously been found to have greatly reduced binding o…

Brush borderBacterial ToxinsBacillus thuringiensisBiophysicsMothsHemolysin ProteinsBiochemistryEpitheliumHawaiiInsecticide ResistanceHemolysin ProteinsBacterial ProteinsIn vivoBacillus thuringiensisBotanyAnimalsPest Control BiologicalMolecular BiologyDiamondback mothBacillus thuringiensis ToxinsMicrovillibiologyStrain (chemistry)fungiPlutellaMidgutCell Biologybiology.organism_classificationImmunohistochemistryMolecular biologyEndotoxinsLarvaBiochemical and Biophysical Research Communications
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Binding of Bacillus thuringiensis toxins in resistant and susceptible strains of pink bollworm (Pectinophora gossypiella)

2003

Abstract Evolution of resistance by pests could cut short the success of transgenic plants producing toxins from Bacillus thuringiensis, such as Bt cotton. The most common mechanism of insect resistance to B. thuringiensis is reduced binding of toxins to target sites in the brush border membrane of the larval midgut. We compared toxin binding in resistant and susceptible strains of Pectinophora gossypiella, a major pest of cotton worldwide. Using Cry1Ab and Cry1Ac labeled with 125I and brush border membrane vesicles (BBMV), competition experiments were performed with unlabeled Cry1Aa, Cry1Ab, Cry1Ac, Cry1Ba, Cry1Ca, Cry1Ja, Cry2Aa, and Cry9Ca. In the susceptible strain, Cry1Aa, Cry1Ab, Cry1…

Brush borderBacterial ToxinsBacillus thuringiensisGenetically modified cropsBinding CompetitiveBiochemistryMicrobiologyIodine RadioisotopesRadioligand AssayBacillus thuringiensisBotanyAnimalsPest Control BiologicalMolecular BiologyBinding SitesMicrovillibiologyHeliothis virescensCytoplasmic Vesiclesfungifood and beveragesPlutellabiology.organism_classificationRecombinant ProteinsLepidopteraKineticsBt cottonCry1AcLarvaInsect ScienceProtein BindingPink bollwormInsect Biochemistry and Molecular Biology
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Bacillus thuringiensis crystal proteins CRY1Ab and CRY1Fa share a high affinity binding site in Plutella xylostella (L.).

1996

The future success of Bacillus thuringiensis based insecticides depends in part on our ability to prevent insects from developing resistance against their insecticidal crystal proteins. Two recent papers indicated cross-resistance between Cry1A proteins and Cry1Fa in two different insect species (Tabashnik et al., 1994, Appl. Environ. Microbiol. 60, 4627-4629; Gould et al., 1995, J. Econ. Entomol. 88, 1545-1559). Brush border membrane vesicles were prepared from Plutella xylostella and used in binding assays with 125I-labeled trypsin-activated crystal proteins. Competition experiments showed that Cry1Fa competed with Cry1Ab for a same binding site, though the latter still bound to a differe…

Brush borderBacterial ToxinsBiophysicsBacillus thuringiensisMothsHemolysin ProteinsBiochemistryCell membraneIodine RadioisotopesHemolysin ProteinsBacterial ProteinsBacillus thuringiensismedicineAnimalsBinding siteReceptorPest Control BiologicalMolecular BiologyBinding SitesbiologyBacillus thuringiensis ToxinsVesiclefungiCell MembranePlutellaCell Biologybiology.organism_classificationMolecular biologyEndotoxinsmedicine.anatomical_structureBiochemistryBiochemical and biophysical research communications
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