Search results for "Bacillus thuringiensis"

showing 10 items of 211 documents

Characterization of Bacillus thuringiensis isolates by their insecticidal activity and their production of Cry and Vip3 proteins.

2018

WOS: 000449027600099 PubMed ID: 30383811 Bacillus thuringiensis (Bt) constitutes the active ingredient of many successful bioinsecticides used in agriculture. In the present study, the genetic diversity and toxicity of Bt isolates was investigated by characterization of native isolates originating from soil, fig leaves and fruits from a Turkish collection. Among a total of 80 Bt isolates, 18 of them were found carrying a vip3 gene (in 23% of total), which were further selected. Insecticidal activity of spore/crystal mixtures and their supernatants showed that some of the Bt isolates had significantly more toxicity against some lepidopteran species than the HD1 reference strain. Five isolate…

0301 basic medicineTurkeyProtein ExpressionBacillus Thuringiensislcsh:MedicineArtificial Gene Amplification and ExtensionBacillusProtein SequencingMothsToxicologyPathology and Laboratory MedicinePolymerase Chain ReactionDatabase and Informatics MethodsBacillus thuringiensisMedicine and Health SciencesToxinslcsh:ScienceMaterialsSoil MicrobiologyMultidisciplinaryBacterial PathogensMedical MicrobiologyPhysical SciencesPathogensSequence AnalysisResearch ArticleSequence analysisBioinformatics030106 microbiologyBacterial ToxinsMaterials ScienceToxic AgentsSequence DatabasesBiologySpodopteraHelicoverpa armigeraResearch and Analysis MethodsCrystalsMicrobiologyMicrobiology03 medical and health sciencesBacterial ProteinsGene Expression and Vector TechniquesAnimalsPest Control BiologicalMolecular Biology TechniquesSequencing TechniquesGeneMolecular BiologyMicrobial PathogensPlant DiseasesGenetic diversityMolecular Biology Assays and Analysis TechniquesToxicityBacterialcsh:RfungiOrganismsBiology and Life Sciencesbiology.organism_classificationFicusSporePlant Leaves030104 developmental biologyBiological DatabasesCry1AcSusceptibilityFruitlcsh:QPloS one
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The usefulness of a mathematical model of exposure for environmental risk assessment

2011

We respond to the Comment of Lang et al . [[1][1]] regarding our mathematical model [[2][2]] of exposure of non-target Lepidoptera to Bt -maize pollen expressing Cry1Ab within Europe. Lang et al . remark on the degree to which the model was subject to uncertainty. Perry et al . [[2][2]] did indeed

1001Insecticides60Bacillus thuringiensisBiologyMothsModels BiologicalRisk AssessmentZea maysGeneral Biochemistry Genetics and Molecular BiologyBacterial proteinHemolysin ProteinsBacterial ProteinsAnimalsPest Control BiologicalGeneral Environmental ScienceEnvironmental risk assessmentBt corn Cry IAb Lepidoptera31General Immunology and MicrobiologyBacillus thuringiensis ToxinsEcologyComments and Invited RepliesGeneral MedicinePlants Genetically ModifiedZea maysEndotoxinsEuropePollenGeneral Agricultural and Biological SciencesMathematical economicsButterfliesProceedings of the Royal Society B: Biological Sciences
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A mathematical model of exposure of nontarget Lepidoptera to Bt-maize pollen expressing Cry1Ab within Europe

2010

Genetically modified (GM) maize MON810 expresses a Cry1Ab insecticidal protein, derived from Bacillus thuringiensis ( Bt ), toxic to lepidopteran target pests such as Ostrinia nubilalis . An environmental risk to non-target Lepidoptera from this GM crop is exposure to harmful amounts of Bt -containing pollen deposited on host plants in or near MON810 fields. An 11-parameter mathematical model analysed exposure of larvae of three non-target species: the butterflies Inachis io (L.), Vanessa atalanta (L.) and moth Plutella xylostella (L.), in 11 representative maize cultivation regions in four European countries. A mortality–dose relationship was integrated with a dose–distance relationship t…

1001genetically modified maize Cry1Ab non-target Lepidoptera mathematical model exposure risk assessment60Bacillus thuringiensismedicine.disease_causeZea maysModels BiologicalGeneral Biochemistry Genetics and Molecular BiologyOstriniaExposureCropLepidoptera genitaliaHemolysin ProteinsMathematical modelBacterial ProteinsResearch articlesPollenBacillus thuringiensismedicineAnimalsPest Control BiologicalGeneral Environmental ScienceRisk assessmentGenetically modified maize31General Immunology and MicrobiologybiologyBacillus thuringiensis Toxinsbusiness.industryfungiPest controlPlutellafood and beveragesGeneral MedicineNon-target lepidopterabiology.organism_classificationPlants Genetically ModifiedEndotoxinsLepidopteraAgronomyGenetically modified maizePollenCry1abGeneral Agricultural and Biological SciencesbusinessButterflies
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Evaluating Resistance to Bt Toxin Cry1Ab by F<SUB>2</SUB> Screen in European Populations of Ostrinia nubilalis (Lepidoptera: Crambidae)

2010

ABSTRACT The large-scale cultivation of transgenic crops producing Bacillus thuringiensis (Bt) toxins have already lead to the evolution of Bt resistance in some pest populations targeted by these crops. We used the F2 screening method for further estimating the frequency of resistance alleles of the European corn borer, Ostrinia nubilalis (Hubner) (Lepidoptera: Crambidae), to Bt maize, Zea mays L., producing the CrylAb toxin. In France, Germany, and Italy, 784, 455, and 80 lines of European corn borer were screened for resistance to Mon810 maize, respectively. In Slovakia, 26 lines were screened for resistance to the CrylAb toxin. The cost of F2 screen performed in the four countries varie…

2. Zero hunger0106 biological sciences0303 health sciencesVeterinary medicineEuropean corn borerPesticide resistanceEcologybiologyfungifood and beveragesGeneral MedicineGenetically modified cropsbiology.organism_classification01 natural sciencesOstriniaLepidoptera genitalia010602 entomology03 medical and health sciencesCrambidaeAgronomyInsect ScienceBacillus thuringiensisPEST analysis030304 developmental biologyJournal of Economic Entomology
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Mining of new insecticidal protein genes plus determination of the insecticidal spectrum and mode of action of Bacillus thuringiensis Vip3Ca protein

2019

Bacillus thuringiensis és un bacteri que pertany al grup de Bacillus cereus i produeix una gran varietat de proteïnes insecticides juntament amb altres factors de virulència que contribueixen a la seva patogenicitat. Bacillus thuringiensis s'ha considerat com el agent bioinsecticida amb més èxit durant el segle passat. Actualment, és àmpliament utilitzat com agent microbià per a les principals plagues d'insectes com a formulat (selecció de aïllats de B. thuringiensis escollits per la seua combinació de proteïnes insecticides present en el cristall parasporal) o mitjançant l’expressió de les proteïnes insecticides (cultius Bt) en plantes d’interès agronòmic (dacsa, cotó, soja, etc.). En quan…

:CIENCIAS AGRARIAS::Fitopatología [UNESCO]Vip3 proteinsCrop protectionBacillus thuringiensis:CIENCIAS AGRARIAS::Agroquímica::Insecticidas [UNESCO]UNESCO::CIENCIAS AGRARIAS::FitopatologíaUNESCO::CIENCIAS AGRARIAS::Agroquímica::Insecticidas
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Effects ofBacillus thuringiensisCry1Ab and Cry3Aa endotoxins on predatory Coleoptera tested through artificial diet-incorporation bioassays

2009

AbstractTraditional approaches to studying the effects of genetically modified (GM) crops on beneficial insects involve either field assays, comparing insect population levels between control and GM crops or tritrophic bioassays with contaminated insects – usually larvae or eggs of Lepidoptera – as preys. Here, we report the results of a bioassay using an artificial diet, suitable for predatory Coleoptera, to supplyBacillus thuringiensis(Bt) solubilized Cry1Ab and Cry3Aa as well as trypsin-activated Cry1Ab toAtheta coriariaandCryptolaemus montrouzieriadults and young larvae ofAdalia bipunctata. Water, solubilization buffer and trypsin-treated solubilization buffer were used as controls. In …

Adalia bipunctataPopulationBacillus thuringiensisBiological pest controlMicrobiologyToxicologyHemolysin ProteinsBacterial ProteinsBacillus thuringiensisAnimalsBioassayBeneficial insectsCryptolaemus montrouzieriPest Control BiologicaleducationLarvaeducation.field_of_studyBacillus thuringiensis ToxinsbiologyfungiGeneral Medicinebiology.organism_classificationSurvival AnalysisDietColeopteraEndotoxinsLarvaPredatory BehaviorInsect ScienceBiological AssayAgronomy and Crop ScienceBulletin of Entomological Research
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Shared midgut binding sites for Cry1A.105, Cry1Aa, Cry1Ab, Cry1Ac and Cry1Fa proteins from Bacillus thuringiensis in two important corn pests, Ostrin…

2013

First generation of insect-protected transgenic corn (Bt-corn) was based on the expression of Cry1Ab or Cry1Fa proteins. Currently, the trend is the combination of two or more genes expressing proteins that bind to different targets. In addition to broadening the spectrum of action, this strategy helps to delay the evolution of resistance in exposed insect populations. One of such examples is the combination of Cry1A.105 with Cry1Fa and Cry2Ab to control O. nubilalis and S. frugiperda. Cry1A.105 is a chimeric protein with domains I and II and the C-terminal half of the protein from Cry1Ac, and domain III almost identical to Cry1Fa. The aim of the present study was to determine whether the c…

Agricultural BiotechnologyApplied MicrobiologyCoated vesiclePlant SciencePlasma protein bindingMothsBiochemistryOstriniaPlagues ControlBacillus thuringiensisBiomacromolecule-Ligand InteractionsPlant PestsMultidisciplinaryMicrovillibiologyGenetically Modified OrganismsQRAgricultureRecombinant ProteinsBiochemistryLarvaMedicineDisease SusceptibilityAgrochemicalsResearch ArticleBiotechnologyProtein BindingScienceProtein domainBiotecnologia agrícolaBacillus thuringiensisCoated VesiclesCerealsCropsSpodopteraSpodopteraMicrobiologyBinding CompetitiveZea maysBacterial ProteinsBotanyAnimalsPesticidesBinding siteProtein InteractionsBiologyTransgenic PlantsfungiProteinsPlant Pathologybiology.organism_classificationFusion proteinMaizeGastrointestinal TractKineticsPlant BiotechnologyPest ControlProteïnes
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Binding of Cyt1Aa and Cry11Aa Toxins of Bacillus thuringiensis Serovar israelensis to Brush Border Membrane Vesicles of Tipula paludosa (Diptera: Nem…

2007

ABSTRACT Bacillus thuringiensis serovar israelensis ( B. thuringiensis subsp. israelensis ) produces four insecticidal crystal proteins (ICPs) (Cry4A, Cry4B, Cry11A, and Cyt1A). Toxicity of recombinant B. thuringiensis subsp. israelensis strains expressing only one of the toxins was determined with first instars of Tipula paludosa (Diptera: Nematocera). Cyt1A was the most toxic protein, whereas Cry4A, Cry4B, and Cry11A were virtually nontoxic. Synergistic effects were recorded when Cry4A and/or Cry4B was combined with Cyt1A but not with Cry11A. The binding and pore formation are key steps in the mode of action of B. thuringiensis subsp. israelensis ICPs. Binding and pore-forming activity of…

BacillaceaeEcologybiologyBrush borderToxinTipula paludosabiology.organism_classificationProteinase Kmedicine.disease_causeTrypsinApplied Microbiology and BiotechnologyBacillalesMicrobiologyBiochemistryBacillus thuringiensisbiology.proteinmedicineFood ScienceBiotechnologymedicine.drugApplied and Environmental Microbiology
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Effect of Bacillus thuringiensis toxins on the midgut of the nun moth Lymantria monacha.

2000

Three steps of the proposed mode of action of Bacillus thuringiensis toxins have been studied in Lymantria monacha. We demonstrated that only the toxins that caused typical pathological changes in midgut epithelial cells and bound to the midgut brush border membrane were able to drastically reduce the midgut transepithelial voltage of the nun moth.

BacillaceaebiologyBrush borderfungiBacterial ToxinsBacillus thuringiensisMidgutMothsbiology.organism_classificationdigestive systemBacillalesMicrobiologyLepidoptera genitaliaIntestinesBacillus thuringiensisparasitic diseasesAnimalssense organsMode of actionEcology Evolution Behavior and SystematicsTransepithelial potential differenceJournal of invertebrate pathology
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Update on the detection of beta-exotoxin in Bacillus thuringiensis strains by HPLC analysis.

2001

Aims: The current work aimed to study the presence of β-exotoxin by high-performance liquid chromatography (HPLC) in supernatant fluids from final whole cultures of the 69 type strains and 13 subtypes of Bacillus thuringiensis strains, as well as from some insecticidal strains. Methods and Results: Results from HPLC and bioassays with Ephestia kuhniella (Lepidoptera Pyralidae) were compared. Type I β-exotoxin was only detected in type strains representing serotypes H1, H9 and H10a,10b. Discrepancies between HPLC and bioassays were found in H8a,8b and some insecticidal strains, which suggests the occurrence of another soluble toxin different from type I β-exotoxin, possibly type II β-exotoxi…

Bacillus (shape)BacillaceaeAdenosineInsectabiologyToxinEphestiaBacillus thuringiensisSugar AcidsGeneral Medicinebiology.organism_classificationmedicine.disease_causeApplied Microbiology and BiotechnologyBacillalesMicrobiologyBacillus thuringiensismedicinebacteriaBioassayAnimalsBiological AssayExotoxinChromatography High Pressure LiquidBiotechnologyJournal of applied microbiology
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