Search results for "vip3"

showing 7 items of 7 documents

Assessment of the Antimicrobial Activity and the Entomocidal Potential of Bacillus thuringiensis Isolates from Algeria.

2017

This work represents the first initiative to analyze the distribution of B. thuringiensis in Algeria and to evaluate the biological potential of the isolates. A total of 157 isolates were recovered, with at least one isolate in 94.4% of the samples. The highest Bt index was found in samples from rhizospheric soil (0.48) and from the Mediterranean area (0.44). Most isolates showed antifungal activity (98.5%), in contrast to the few that had antibacterial activity (29.9%). A high genetic diversity was made evident by the finding of many different crystal shapes and various combinations of shapes within a single isolate (in 58.4% of the isolates). Also, over 50% of the isolates harbored cry1, …

0301 basic medicineAntifungalStaphylococcus aureusmedicine.drug_classHealth Toxicology and Mutagenesis030106 microbiologyBacterial ToxinsBiological pest controlBacillus thuringiensisBiologyToxicologyArticleMicrobiology03 medical and health sciencesB. thuringiensisAnti-Infective AgentsBacterial ProteinsBacillus thuringiensismedicineEscherichia colibiocontrolGeneSoil MicrobiologyGenetic diversitycryChitinasesFungiB. thuringiensis; antibacterial; antifungal; cry; vip3; chitinase; biocontrolAntimicrobialbiology.organism_classificationCryptochromesantibacterialHexosaminidasesGenes BacterialAlgeriachitinaseChitinasePseudomonas aeruginosavip3biology.proteinMicroscopy Electron ScanningAntibacterial activityantifungalToxins

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Insecticidal Activity and Synergistic Combinations of Ten Different Bt Toxins against Mythimna separata (Walker)

2018

The oriental armyworm (OAW), Mythimna separata (Walker), is a destructive pest of agricultural crops in Asia and Australia. Commercialized Bt crops have performed very well against their target pests

0301 basic medicineInsecticidesHealth Toxicology and MutagenesisBacterial ToxinsBacillus thuringiensislcsh:MedicineVip3 proteinMothsToxicologymedicine.disease_causeArticleMicrobiology03 medical and health sciencesMythimna separataBacillus thuringiensisBacillus thuringiensismedicineAnimalsBioassayPotencyCry proteinbiologyToxinlcsh:Rfungifood and beveragesDrug Synergismbiology.organism_classification030104 developmental biologyCry1AcLarvaoriental armywormPEST analysisBacteriaToxins

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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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Vip3C, a novel class of vegetative insectidal proteins from Bacillus thuringiensis

2012

Three vip3 genes were identified in two Bacillus thuringiensis Spanish collections. Sequence analysis revealed a novel Vip3 protein class (Vip3C). Preliminary bioassays of larvae from 10 different lepidopteran species indicated that Vip3Ca3 caused more than 70% mortality in four species after 10 days at 4 Î¿g/cm 2. © 2012, American Society for Microbiology.

DNA BacterialBioquímicaSequence analysisMolecular Sequence DataBiotecnologia agrícolaBacillus thuringiensisBiologyApplied Microbiology and BiotechnologyLepidoptera genitaliaBacterial proteinPlagues ControlBacterial ProteinsPhylogeneticsBacillus thuringiensisBotanyPlaguicidesInvertebrate MicrobiologyAnimalsBioassayGenePhylogenyLarvaSequence Homology Amino AcidEcologyfungiSequence Analysis DNAbiology.organism_classificationSurvival AnalysisVip3 genesLepidopteraSpainLarvaProteïnesFood ScienceBiotechnology

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Characterisation of the structure-function relationship of the Bacillus thuringiensis Vip3A insecticidal proteins

2017

L'agricultura contemporània exigeix cada cop més un ús sostenible d’agroquímics per tal de reduir l'impacte ambiental i el risc per la salut del consumidor. Alguns bacteris entomopatògens produeixen proteïnes insecticides que s'acumulen en cossos d'inclusió o cristalls paraesporales (com ara les proteïnes Cry i Cyt), així com proteïnes insecticides que són secretades al medi de cultiu. Entre les últimes, hi ha les proteïnes Vip, que es divideixen en quatre famílies d'acord amb la seva identitat d'aminoàcids. Les proteïnes Vip1 i Vip2 actuen com toxines binàries i són tòxiques per a alguns coleòpters i hemípters. Per la família de les Vip4, que és l’última família de proteïnes Vip descoberta…

Insecticidal proteinsBiological controlBacillus thuringiensisProtein structureProtein functionIPMVip3A proteins

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Investigation of the steps involved in the difference of susceptibility of Ephestia kuehniella and Spodoptera littoralis to the Bacillus thuringiensi…

2011

BUPM95 is a Bacillus thuringiensis subsp. kurstaki strain producing the Vip3Aa16 toxin with an interesting insecticidal activity against the Lepidopteran larvae Ephestia kuehniella. Study of different steps in the mode of action of this Vegetative Insecticidal Protein on the Mediterranean flour moth (E. kuehniella) was carried out in the aim to investigate the origin of the higher susceptibility of this insect to Vip3Aa16 toxin compared to that of the Egyptian cotton leaf worm Spodoptera littoralis. Using E. kuehniella gut juice, protoxin proteolysis generated a major band corresponding to the active toxin and another band of about 22kDa, whereas the activation of Vip3Aa16 by S. littoralis …

ProteasesProteolysismedia_common.quotation_subjectBacillus thuringiensisDrug ResistanceActivationBacillusInsectMothsSpodopteraBiologymedicine.disease_causeMicrobiologyBacterial ProteinsVip3Aa16Bacillus thuringiensismedicineAnimalsPest Control BiologicalSpodoptera littoralisEcology Evolution Behavior and SystematicsEphestia kuehniellamedia_commonmedicine.diagnostic_testToxinfungiSpodoptera littoralisbiology.organism_classificationMediterranean flour mothLarvaBacillusthuringiensisMidgut putative receptorJournal of Invertebrate Pathology

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Studies on the insecticidal mechanism of Bacillus thuringiensis Vip3A and Cry proteins

2022

El control de plagas y patógenos ha tenido un efecto importante en la mejora del rendimiento de los sistemas agrícolas a nivel mundial. Diferentes tipos de insecticidas químicos se han usado extensivamente durante mucho tiempo para el control de plagas de insectos. Debido a la aparición de resistencias, problemas de contaminación de aguas y problemas de salud humana causados por dichos insecticidas de síntesis, la agricultura moderna necesita una estrategia de gestión integrada de plagas más saludable, respetuosa con el medio ambiente y sostenible. El uso de Bacillus thuringiensis (Bt) y sus proteínas insecticidas para el control de plagas es una de las estrategias biotecnológicas más impor…

pest managementinsecticidal proteinsvip3 proteinsUNESCO::CIENCIAS DE LA VIDAbacillus thuringiensisBt:CIENCIAS DE LA VIDA [UNESCO]

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