Search results for "insect resistance"

showing 6 items of 6 documents

Scientific Opinion on application EFSA‐GMO‐BE‐2013‐117 for authorisation of genetically modified maize MON 87427 × MON 89034 × NK603 and subcombinati…

2017

Scientific opinionRequestor: Competent Authority of BelgiumQuestion number: EFSA-Q-2013-00765; In this opinion, the EFSA Panel on Genetically Modified Organisms (GMO Panel) assessed the three-event stack maize MON 87427 9 MON 89034 9 NK603 and its three subcombinations, independently of their origin. The GMO Panel has previously assessed the three single events combined to produce this three-event stack maize and did not identify safety concerns. No new data on the single events, leading to modification of the original conclusions on their safety, were identified. Based on the molecular, agronomic, phenotypic and compositional characteristics, the combination of the single maize events and …

0106 biological sciencesCry1Aherbicide tolerancemaïsVeterinary (miscellaneous)gmo[SDV]Life Sciences [q-bio]MON87427xMON89034xNK603ogmPlant Science010501 environmental sciencesmaizeCP4EPSPS01 natural sciencesMicrobiologyzea maysMON 87427 × MON 89034 × NK603Cry2Ab2CP4 EPSPS0105 earth and related environmental sciences2. Zero hungerCP4 EPSPSCry1A.105indian cornRegulation (EC) No 1829/2003105GMO;maize;herbicide tolerance;insect resistance;CP4 EPSPS;Cry1A.105;Cry2Ab2;Regulation (EC) No 1829/2003;MON 87427 x MON 89034 x NK603MON 87427 9 MON 89034 9 NK603Scientific OpinionRegulation (EC) No1829/2003Animal Science and ZoologyParasitologyinsect resistance010606 plant biology & botanyFood ScienceRegulation (EC) No 1829/2003
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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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Annual post-market environmental monitoring (PMEM) report on the cultivation of genetically modified maize MON 810 in 2014 from Monsanto Europe S.A.

2016

Requestor: European CommissionQuestion number: EFSA-Q-2015-00650; Following a request from the European Commission, the Panel on Genetically Modified Organisms of the European Food Safety Authority (GMO Panel) assessed the annual post-market environmental monitoring (PMEM) report for the 2014 growing season of maize MON 810 provided by Monsanto Europe S.A. The GMO Panel concludes that the insect resistance monitoring data do not indicate a decrease in susceptibility of field Iberian populations of corn borers to the Cry1Ab protein over the 2014 season. However, as the methodology for insect resistance monitoring remained unchanged compared to previous PMEM reports, the GMO Panel reiterates …

0106 biological sciencesSettore BIO/07 - EcologiaVeterinary (miscellaneous)[SDV]Life Sciences [q-bio]TP1-1185Plant Science010501 environmental sciencesZea mays01 natural sciencesMicrobiologycase‐specific monitoringCry1Ab case-specific monitoring farmer questionnaires general surveillance insect resistance management Zea maysTX341-641Cry1Ab0105 earth and related environmental sciences2. Zero hungerNutrition. Foods and food supplyChemical technologyfungigeneral surveillance10079 Institute of Veterinary Pharmacology and Toxicologyfarmer questionnairesinsect resistance managementSettore AGR/02 - Agronomia E Coltivazioni ErbaceeSettore AGR/11 - Entomologia Generale E Applicata570 Life sciences; biologyAnimal Science and ZoologyParasitology010606 plant biology & botanyFood Science
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Scientific Opinion on application EFSA‐GMO‐BE‐2013‐118 for authorisation of genetically modified maize MON 87427 × MON 89034 × 1507 × MON 88017 × 591…

2017

Abstract In this opinion, the GMO Panel assessed the five‐event stack maize MON 87427 × MON 89034 ×1507 × MON 88017 × 59122 and its 25 subcombinations, independently of their origin. The GMO Panel has previously assessed the five single events combined to produce this five‐event stack maize and 11 subcombinations of these events and did not identify safety concerns. No new data on the single events or their previously assessed subcombinations, leading to modification of the original conclusions were identified. The combination of the single events and of the newly expressed proteins in the five‐event stack maize did not give rise to issues – based on the molecular, agronomic/phenotypic or c…

040301 veterinary sciencesherbicide toleranceVeterinary (miscellaneous)Context (language use)Plant ScienceGenetically modified crops010501 environmental sciencesBiologymaize01 natural sciencesMicrobiology0403 veterinary scienceEnvironmental safety0105 earth and related environmental sciencesGenetically modified maizebusiness.industryGMOAuthorizationGMO;maize;MON 87427 x MON 89034 x 1507 x MON 88017 x 59122;herbicide tolerance;insect resistance04 agricultural and veterinary sciencesFood safetyZea maysBiotechnologyGenetically modified organismMON87427xMON89034x1507xMON88017x59122Scientific OpinionSettore AGR/11 - Entomologia Generale E ApplicataMON 87427 × MON 89034 × 1507 × MON 88017 × 59122Animal Science and ZoologyParasitologyinsect resistancebusinessFood Science
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Reduced membrane-bound alkaline phosphatase does not affect binding of Vip3Aa in a Heliothis virescens resistant colony

2020

The Vip3Aa insecticidal protein from Bacillus thuringiensis (Bt) is produced by specific transgenic corn and cotton varieties for efficient control of target lepidopteran pests. The main threat to this technology is the evolution of resistance in targeted insect pests and understanding the mechanistic basis of resistance is crucial to deploy the most appropriate strategies for resistance management. In this work, we tested whether alteration of membrane receptors in the insect midgut might explain the &gt

HELIOTHIS-VIRESCENSInsecticidesHealth Toxicology and Mutagenesislcsh:MedicinePROTEIN0601 Biochemistry and Cell BiologyToxicologyBiotecnologiaInsecticide ResistanceBacillus thuringiensisSITES0303 health sciencesbiologyChemistryfood and beveragesPlants Genetically ModifiedLepidopteraBiochemistryFood Science & TechnologyInsect ProteinsAlkaline phosphatase1115 Pharmacology and Pharmaceutical Sciencestobacco budwormLife Sciences & BiomedicineSPODOPTERA-FRUGIPERDA MIDGUTProtein BindingEXPRESSIONBrush borderBacillus thuringiensisCRY1ACArticleVESICLES03 medical and health sciencesBACILLUS-THURINGIENSISBacterial ProteinsDownregulation and upregulationinsecticidal proteinsCell surface receptor<i>Bacillus thuringiensis</i>AnimalsCROPS030304 developmental biologyScience & TechnologyGenetically modified maizeHeliothis virescens030306 microbiologylcsh:RfungiMembrane ProteinsMidgutAlkaline Phosphatasebiology.organism_classificationTOXIN RESISTANCEinsect resistanceProteïnes
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Unshared binding sites for Bacillus thuringiensis Cry3Aa and Cry3Ca proteins in the weevil Cylas puncticollis (Brentidae)

2016

Bacillus thuringiensis Cry3Aa and Cry3Ca proteins have been reported to be toxic against the African sweetpotato pest Cylas puncticollis. In the present work, the binding sites of these proteins in C. puncticollis brush border vesicles suggest the occurrence of different binding sites, but only one of them is shared. Our results suggest that pest resistance mediated by alteration of the shared Cry-receptor binding site might not render both Cry proteins ineffective.

endocrine systemAfrican sweetpotato weevilBacillus thuringiensis ToxinsShort CommunicationBinding sitesInsect controlfungiBacillus thuringiensisToxicologyBinding CompetitiveInsect resistance managementEndotoxinsHemolysin ProteinsInsecticidal proteinsBacterial ProteinsAnimalsWeevilsToxicon
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