Search results for "Bacillus thuringiensis Toxins"

showing 10 items of 90 documents

Insecticidal Activity of Bacillus thuringiensis Proteins against Coleopteran Pests

2020

Bacillus thuringiensis is the most successful microbial insecticide agent and its proteins have been studied for many years due to its toxicity against insects mainly belonging to the orders Lepidoptera, Diptera and Coleoptera, which are pests of agro-forestry and medical-veterinary interest. However, studies on the interactions between this bacterium and the insect species classified in the order Coleoptera are more limited when compared to other insect orders. To date, 45 Cry proteins, 2 Cyt proteins, 11 Vip proteins, and 2 Sip proteins have been reported with activity against coleopteran species. A number of these proteins have been successfully used in some insecticidal formulations and…

0106 biological sciencesCrops AgriculturalOrder ColeopteraHealth Toxicology and Mutagenesismedia_common.quotation_subjectBacillus thuringiensis proteinsBacillus thuringiensislcsh:MedicineInsectGenetically modified cropsReviewToxicologyInsecticidal activity01 natural sciencesinsecticidal activityLepidoptera genitalia03 medical and health sciencesHemolysin Proteinsmode of actionBacillus thuringiensisBotanyAnimalsstructureMode of actionPest Control Biologicalcoleopteran pests030304 developmental biologymedia_common0303 health sciencesbiologyBacillus thuringiensis Toxinslcsh:RfungiStructurebiology.organism_classificationPlants Genetically ModifiedColeopteraEndotoxins010602 entomologyBiological Control AgentsMode of actionColeopteran pests<i>Bacillus thuringiensis</i> proteinsBacteriaToxins
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Constitutive Activation of the Midgut Response to Bacillus thuringiensis in Bt-Resistant Spodoptera exigua

2010

Bacillus thuringiensis is the most effective microbial control agent for controlling numerous species from different insect orders. The main threat for the long term use of B. thuringiensis in pest control is the ability of insects to develop resistance. Thus, the identification of insect genes involved in conferring resistance is of paramount importance. A colony of Spodoptera exigua (Lepidoptera: Noctuidae) was selected for 15 years in the laboratory for resistance to Xentari (TM), a B. thuringiensis-based insecticide, reaching a final resistance level of greater than 1,000-fold. Around 600 midgut ESTs were analyzed by DNA-macroarray in order to find differences in midgut gene expression …

0106 biological sciencesDrug Resistancelcsh:MedicineGene ExpressionInsectaminopeptidase n01 natural sciencesAminopeptidasesHemolysin ProteinsEndotoxinmanduca-sextaBacillus thuringiensisInsect ProteinBiotechnology/Applied Microbiologylcsh:Scienceheliothis-virescensmedia_common0303 health sciencesLarvaMultidisciplinarybiologymediated insect resistanceGenetics and Genomics/Gene ExpressionEcology/Population Ecologybacterial-infectionNoctuidaeInsect ProteinsResearch Articlemedia_common.quotation_subjectAminopeptidaseMolecular Sequence DataBacillus thuringiensisBacterial ProteinSpodopteraSpodopterastem-cell proliferationMicrobiology03 medical and health sciencesMicrobiology/Applied MicrobiologyBacterial ProteinsExiguaBotanyBacillus thuringiensiAnimalscrystal proteinsBIOS Plant Development SystemsAmino Acid Sequencekinase pathways030304 developmental biologyposterior midgutHeliothis virescensBacillus thuringiensis ToxinsAnimaltrichoplusia-nilcsh:RfungiMidgutHemolysin Proteinbiology.organism_classificationEndotoxinsGastrointestinal Tract010602 entomologyPlant Biology/Agricultural Biotechnologylcsh:QSequence Alignment
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Effects of Bacillus thuringiensis δ-Endotoxins on the Pea Aphid ( Acyrthosiphon pisum )

2009

ABSTRACT Four Bacillus thuringiensis δ-endotoxins, Cry3A, Cry4Aa, Cry11Aa, and Cyt1Aa, were found to exhibit low to moderate toxicity on the pea aphid, Acyrthosiphon pisum , in terms both of mortality and growth rate. Cry1Ab was essentially nontoxic except at high rates. To demonstrate these effects, we had to use exhaustive buffer-based controls.

0106 biological sciencesHomopteraBacillus thuringiensismedicine.disease_cause01 natural sciencesApplied Microbiology and BiotechnologyHemolysin Proteins03 medical and health sciencesBacterial ProteinsBacillus thuringiensisBotanyInvertebrate MicrobiologymedicineAnimalsFood science030304 developmental biology0303 health sciencesAphidBacillaceaeBacillus thuringiensis ToxinsEcologybiologyToxinfungiPeasfood and beveragesAphididaebiology.organism_classificationSurvival AnalysisBacillales3. Good healthAcyrthosiphon pisumEndotoxins010602 entomologyAphids1-1-1 Article périodique à comité de lecture[SDV.EE.IEO]Life Sciences [q-bio]/Ecology environment/SymbiosisFood ScienceBiotechnologyApplied and Environmental Microbiology
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Hetero-oligomerization of Bacillus thuringiensis Cry1A proteins enhance binding to the ABCC2 transporter of Spodoptera exigua

2021

The ATP binding cassette (ABC) transporters are membrane proteins that can act as putative receptors for Cry proteins from Bacillus thuringiensis (Bt) in the midgut of different insects. For the beet armyworm, Spodoptera exigua, ABCC2 and ABCC3 have been found to interact with Cry1A proteins, the main insecticidal proteins used in Bt crops, as well as Bt-based pesticides. The ABCC2 has shown to have specific binding towards Cry1Ac and is involved in the toxic process of Cry1A proteins, but the role of this transporter and how it relates with the Cry1A proteins is still unknown. Here, we have characterized the interactions between the SeABCC2 and the main proteins that bind to the receptor. …

0301 basic medicineCell SurvivalBacillus thuringiensisATP-binding cassette transporterSpodopteraSpodopteraBiochemistryHemolysin Proteins03 medical and health sciences0302 clinical medicineBacterial ProteinsProtein DomainsBacillus thuringiensisSf9 CellsAnimalsBinding siteReceptorMolecular BiologyBinding SitesBacillus thuringiensis ToxinsbiologyChemistryfungifood and beveragesTransporterCell Biologybiology.organism_classificationMultidrug Resistance-Associated Protein 2Endotoxins030104 developmental biologyMembrane proteinCry1AcBiochemistryMutationInsect ProteinsMultidrug Resistance-Associated ProteinsProtein Multimerization030217 neurology & neurosurgeryProtein BindingBiochemical Journal
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Editorial for Special Issue: The Insecticidal Bacterial Toxins in Modern Agriculture.

2017

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0301 basic medicineMicrobial toxinsBacillus thuringiensis Toxinsbusiness.industryHealth Toxicology and Mutagenesislcsh:RBacillus thuringiensislcsh:MedicineBiologyToxicologyPlants Genetically ModifiedBiotechnologyEndotoxins03 medical and health sciencesHemolysin Proteins030104 developmental biologyn/aEditorialBacterial ProteinsAgriculturebusinessPest Control BiologicalEcosystemToxins
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Ephestia kuehniella tolerance to Bacillus thuringiensis Cry1Aa is associated with reduced oligomer formation

2016

The basis of the different susceptibility of Ephestia kuehniella to the Cry1Aa and Cry1Ac δ-endotoxins from Bacillus thuringiensis kurstaki BNS3 was studied. Both toxins bound specifically to the BBMV of E. kuehniella. The result of the ligand blot showed that Cry1Ac bound to three putative receptors of about 100, 65 and 80 kDa and Cry1Aa interacted only with a 100 kDa protein. Pronase digestion of the BBMV-bound toxins was used to analyze the toxin insertion. Both toxins inserted into the BBMV as monomers however, a 14 kDa peptide of α4-α5 which correspond to the oligomeric form of this peptide was detected in case of Cry1Ac only. Analysis of the in vitro oligomerisation of these toxins in…

0301 basic medicineProtein ConformationBacillus thuringiensisBiophysicsPeptidemedicine.disease_causeBiochemistryOligomerHemolysin Proteins03 medical and health scienceschemistry.chemical_compoundBacterial ProteinsBacillus thuringiensismedicineAnimalsReceptorMolecular Biologychemistry.chemical_classificationBacillus thuringiensis Toxins030102 biochemistry & molecular biologybiologyToxinfungiCell BiologyLigand (biochemistry)biology.organism_classificationEndotoxinsLepidopteraBlot030104 developmental biologyBiochemistryCry1AcchemistryProtein MultimerizationBiochemical and Biophysical Research Communications
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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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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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Integrative Model for Binding of Bacillus thuringiensis Toxins in Susceptible and Resistant Larvae of the Diamondback Moth (Plutella xylostella)

1999

ABSTRACT Insecticidal crystal proteins from Bacillus thuringiensis in sprays and transgenic crops are extremely useful for environmentally sound pest management, but their long-term efficacy is threatened by evolution of resistance by target pests. The diamondback moth ( Plutella xylostella ) is the first insect to evolve resistance to B. thuringiensis in open-field populations. The only known mechanism of resistance to B. thuringiensis in the diamondback moth is reduced binding of toxin to midgut binding sites. In the present work we analyzed competitive binding of B. thuringiensis toxins Cry1Aa, Cry1Ab, Cry1Ac, and Cry1F to brush border membrane vesicles from larval midguts in a susceptib…

Bacterial ToxinsBacillus thuringiensisGenetically modified cropsMothsApplied Microbiology and BiotechnologyBinding CompetitiveModels BiologicalHemolysin ProteinsBacterial ProteinsBacillus thuringiensisBotanyInvertebrate MicrobiologyAnimalsBinding sitePest Control BiologicalGeneticsBacillaceaeDiamondback mothBinding SitesEcologybiologyBacillus thuringiensis ToxinsParasporal bodyfungiPlutellafood and beveragesbiology.organism_classificationEndotoxinsCry1AcLarvaFood ScienceBiotechnology
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