Search results for "Spodoptera littorali"

showing 10 items of 18 documents

Effect of substitutions of key residues on the stability and the insecticidal activity of Vip3Af from Bacillus thuringiensis

2021

Modern agriculture demands for more sustainable agrochemicals to reduce the environmental and health impact. The whole process of the discovery and development of new active substances or control agents is sorely slow and expensive. Vegetative insecticidal proteins (Vip3) from Bacillus thuringiensis are specific toxins against caterpillars with a potential capacity to broaden the range of target pests. Site-directed mutagenesis is one of the most approaches used to test hypotheses on the role of different amino acids on the structure and function of proteins. To gain a better understanding of the role of key amino acid residues of Vip3A proteins, we have generated 12 mutants of the Vip3Af1 …

0106 biological sciences0301 basic medicineInsecticidesMutantBacillus thuringiensisMothsSpodopteraSpodoptera01 natural sciences03 medical and health sciencesResidue (chemistry)Bacterial ProteinsBacillus thuringiensisAnimalsAmino Acid SequencePest Control BiologicalSite-directed mutagenesisSpodoptera littoralisEcology Evolution Behavior and Systematicschemistry.chemical_classificationbiologyfungiProtein engineeringbiology.organism_classificationAmino acid010602 entomology030104 developmental biologyBiochemistrychemistryMutagenesis Site-DirectedSequence AlignmentJournal of Invertebrate Pathology

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Efficacy of sea fennel (Crithmum maritimum L., Apiaceae) essential oils against Culex quinquefasciatus Say and Spodoptera littoralis (Boisd.)

2017

The effective management of insect pests and vectors still represents a major challenge in current entomology. Culex quinquefasciatus Say is a key vector of lymphatic filariasis, Rift Valley fever, West Nile, St. Louis encephalitis and Western equine encephalitis virus. Recently, the importance of the eco-friendly control of C. quinquefasciatus larval population using plant-borne biopesticides, including essential oils (EOs), has been stressed. Spodoptera littoralis (Boisd.) also known as tobacco cutworm, is one of the most destructive moth agricultural pests in tropic and sub-tropic regions. Despite the fact that sea fennel (Crithmum maritimum L., Apiaceae) is considered as a promising bio…

0106 biological sciencesBiopesticides[SDV]Life Sciences [q-bio]Population01 natural sciencesEssential oillaw.inventionSpodoptera littoralichemistry.chemical_compoundCulex quinquefasciatulawCrithmumBotanyBiopesticides; Crithmum maritimum; Culex quinquefasciatus; Essential oil; Spodoptera littoralis14. Life underwatereducationSpodoptera littoralisEssential oilDillapioleeducation.field_of_studyApiaceaebiologyChemotype010405 organic chemistryCrithmum maritimumCulex quinquefasciatusSpodoptera littoralisbiology.organism_classificationCulex quinquefasciatus0104 chemical scienceschemistry13. Climate actionBiopesticideAgronomy and Crop Science010606 plant biology & botany

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Chemical Composition and Broad-Spectrum Insecticidal Activity of the Flower Essential Oil from an Ancient Sicilian Food Plant, Ridolfia segetum

2021

Several species of the family Apiaceae are aromatic herbs that produce essential oils usable on an industrial scale for pharmaceutical, cosmetic, and food purposes. In particular, some essential oils, such as green insecticides for example, may replace synthetic insecticides, keeping most of their efficacy and avoiding environmental pollution or human poisoning. In the present study, we explored the insecticidal potential of Ridolfia segetum (L.) Moris essential oil (EO) against three different pests: Culex quinquefasciatus Say, Musca domestica L., and Spodoptera littoralis (Boisduval). For this purpose, the EO was obtained by hydrodistillation of flowers and its composition was achieved by…

0106 biological sciencesCulex quiquefasciatusEnvironmental pollutionPlant Sciencemoth pest01 natural sciencesCulex quiquefasciatuMusca domesticalaw.inventionmosquito controllawRidolfia segetumlcsh:Agriculture (General)Spodoptera littoralisEssential oilcommon houseflybiologygreen pesticideSpodoptera littoralisbiology.organism_classificationSpodoptera littoralislcsh:S1-972Culex quinquefasciatus010602 entomologyHorticultureCulex quiquefasciatusInstarComposition (visual arts)Musca domesticaGas chromatographygreen pesticidesAgronomy and Crop ScienceCommon housefly; Culex quiquefasciatus; Green pesticides; Mosquito control; Moth pest; Musca domestica; Spodoptera littoralis010606 plant biology & botanyFood ScienceAgriculture

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Insecticidal spectrum and mode of action of the Bacillus thuringiensis Vip3Ca insecticidal protein.

2016

The Vip3Ca protein, discovered in a screening of Spanish collections of Bacillus thuringiensis, was known to be toxic to Chrysodeixis chalcites, Mamestra brassicae and Trichoplusia ni. In the present study, its activity has been tested with additional insect species and we found that Cydia pomonella is moderately susceptible to this protein. Vip3Ca (of approximately 90 kDa) was processed to an approximately 70 kDa protein when incubated with midgut juice in all tested species. The kinetics of proteolysis correlated with the susceptibility of the insect species to Vip3Ca. The activation was faster to slower in the following order: M. brassicae (susceptible), Spodoptera littoralis (moderately…

0301 basic medicineInsecticides030106 microbiologyInsect pest controlAgrotis ipsilonVegetative insecticidal proteinsMothsmedicine.disease_causeMicrobiologyCiencias BiológicasInsecticide Resistance03 medical and health sciencesBiología Celular MicrobiologíaBacterial ProteinsBacillus thuringiensisBotanyTrichoplusiamedicineAnimalsSpodoptera littoralisPest Control BiologicalEcology Evolution Behavior and SystematicsHistological localizationbiologyToxinfungiVEGETATIVE INSECTICIDAL PROTEINSMidgutBioinsecticidesApical membranebiology.organism_classificationCROP PROTECTIONChrysodeixis chalcitesBIOINSECTICIDES030104 developmental biologyCrop protectionINSECT PEST CONTROLHISTOLOGICAL LOCALIZATIONCIENCIAS NATURALES Y EXACTASJournal of invertebrate pathology

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Midgut microbiota and host immunocompetence underlie Bacillus thuringiensis killing mechanism

2016

Bacillus thuringiensis is a widely used bacterial entomopathogen producing insecticidal toxins, some of which are expressed in insect-resistant transgenic crops. Surprisingly, the killing mechanism of B. thuringiensis remains controversial. In particular, the importance of the septicemia induced by the host midgut microbiota is still debated as a result of the lack of experimental evidence obtained without drastic manipulation of the midgut and its content. Here this key issue is addressed by RNAi-mediated silencing of an immune gene in a lepidopteran host Spodoptera littoralis, leaving the midgut microbiota unaltered. The resulting cellular immunosuppression was characterized by a reduced …

Crops Agricultural0301 basic medicineHemocytesSerratiaBacillus thuringiensisSpodopteraSerratiaMicrobiologyHemolysin Proteins03 medical and health sciencesBacterial ProteinsInsect-pathogen interactionImmunityBacillus thuringiensisAnimalsPest Control Biologicalbioinsecticide | insect-pathogen interactions | insect biocontrol | pore-forming toxins | immunitySpodoptera littoralisRNA Double-StrandedClostridiumImmunosuppression TherapyPore-forming toxinMultidisciplinaryBacillus thuringiensis ToxinsInsect biocontrolbiologyHost (biology)MicrobiotafungiImmunityMidgutBiological Sciencesbiology.organism_classificationImmunity InnateBioinsecticideEndotoxinsIntestines030104 developmental biologyGene Expression RegulationLarvaPore-forming toxinInsect ProteinsRNA InterferenceImmunocompetenceProceedings of the National Academy of Sciences

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Domain shuffling between Vip3Aa and Vip3Ca: chimera stability and insecticidal activity against European, American, African, and Asian pests

2020

The bacterium Bacillus thuringiensis produces insecticidal Vip3 proteins during the vegetative growth phase with activity against several lepidopteran pests. To date, three different Vip3 protein families have been identified based on sequence identity: Vip3A, Vip3B, and Vip3C. In this study, we report the construction of chimeras by exchanging domains between Vip3Aa and Vip3Ca, two proteins with marked specificity differences against lepidopteran pests. We found that some domain combinations made proteins insoluble or prone to degradation by trypsin as most abundant insect gut protease. The soluble and trypsin-stable chimeras, along with the parental proteins Vip3Aa and Vip3Ca, were tested…

InsecticidesAsiaInsectaHealth Toxicology and Mutagenesismedicine.medical_treatmentBacillus thuringiensislcsh:MedicineSpodopteraToxicologyArticleLethal Dose 5003 medical and health sciencesHelicoverpa armigeraBacterial ProteinsProtein DomainsBacillus thuringiensismedicineAnimalsSpodoptera littoralisPest Control Biological030304 developmental biologychemistry.chemical_classification0303 health sciencesProteasebiology030306 microbiologyProtein Stabilitylcsh:RfungiSpodoptera spp.Ostrinia furnacalisSouth Americabiology.organism_classificationFusion proteinAnticarsia gemmatalisAmino acidEuropeAnticarsia gemmatalisspodoptera spp. helicoverpa armigeraBiochemistrychemistryAfricaNorth AmericaMamestra brassicaeOstrinia furnacalis

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Essential oils from three Algerian medicinal plants (Artemisia campestris, Pulicaria arabica, and Saccocalyx satureioides) as new botanical insectici…

2020

Medicinal and aromatic plants represent an outstanding source of green active ingredients for a broad range of real-world applications. In the present study, we investigated the insecticidal potential of the essential oils obtained from three medicinal and aromatic plants of economic importance in Algeria, Artemisia campestris, Pulicaria arabica, and Saccocalyx satureioides. Gas chromatography coupled with mass spectrometry (GC-MS) was used to study the essential oil chemical compositions. The three essential oils were tested against a mosquito vectoring filariasis and arboviruses, i.e., Culex quinquefasciatus, a fly pest acting also as pathogens vector, Musca domestica, and an agricultural…

InsecticidesCulex quinquefasciatus; Green pesticide; Insect pest; Mosquito vector; Musca domestica; Spodoptera littoralisHealth Toxicology and MutagenesisVolatileInsect pestArtemisia campestris010501 environmental sciencesMedicinal01 natural sciencesCulex quinquefasciatus . Insect pest . Mosquito vector . Musca domestica . Green pesticide . Spodoptera littoralislaw.inventionBorneolPulicariachemistry.chemical_compoundlawOils VolatileEnvironmental ChemistryAnimalsMedicinal plantsSpodoptera littoralisThymolEssential oil0105 earth and related environmental sciencesMosquito vectorPlants MedicinalbiologyTraditional medicineCulex quinquefasciatusGeneral MedicinePlantsSpodoptera littoralisbiology.organism_classificationPollutionGreen pesticideCulexchemistryGermacreneArtemisiaCulex quinquefasciatus; Green pesticide; Insect pest; Mosquito vector; Musca domestica; Spodoptera littoralis; Algeria; Animals; Larva; Artemisia; Culex; Insecticides; Oils Volatile; Plants Medicinal; PulicariaMyrceneAlgeriaLarvaMusca domesticaOilsEnvironmental science and pollution research international

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Extremely potent antifeedant neo-clerodane derivatives of scutecyprol A

2004

Two known neo-clerodane diterpenoids, scutecyprol A (1) and scutalbin C (2), have been isolated from the acetone extract of the aerial parts of Scutellaria sieberi. The antifeedant activity of scutecyprol A (1), of its 15-oxo derivative (3), and of several halohydrins (4-9), synthesized starting from compounds 1 and 3, against Spodoptera littoralis have been determined and structure-antifeedant relationships are discussed.

InsecticidesbiologyScutellaria sieberiScutalbin CStereochemistryScutellariaGeneral ChemistryhalohydrinSpodoptera littoralisSpodopterabiology.organism_classificationantifeedant activityDiterpenes ClerodaneLepidoptera genitaliachemistry.chemical_compoundchemistryAcetoneNoctuidaeAnimalsscutecyprol ASettore BIO/15 - Biologia FarmaceuticaScutellaria sieberiGeneral Agricultural and Biological SciencesSpodoptera littoralis

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Neoclerodanes from Teucrium orientale

2004

Abstract Two new neoclerodane diterpenoids, 6-deacetyl-teucrolivin A (5) and 8beta-hydroxy-teucrolivin B (6), were isolated from the aerial parts of Teucrium orientale, along with four already known neoclerodane diterpenoids, teucrolivin A (1), teucrolivin B (2), teucrolivin C (3) and teucrolivin H (4), previously isolated from Teucrium oliverianum. Their structures were elucidated on the basis of spectroscopic evidence and chemical transformations. Compounds 1-3 were assayed for antifeedant activity against Spodoptera littoralis, S. frugiperda and Heliocoverpa armigera. Teucrolivin A was the most potent of the three compounds tested.

LamiaceaeMagnetic Resonance SpectroscopyLamiaceae Teucrium orientale structure elucidation neo-clerodane diterpenoid antifeedant activityTraditional medicinebiologyStereochemistryChemistryMolecular ConformationTeucrium oliverianumGeneral ChemistryFeeding BehaviorGeneral MedicineSettore CHIM/06 - Chimica OrganicaSpodopterabiology.organism_classificationDiterpenes ClerodaneTerpeneLarvaDrug DiscoveryTeucrium orientaleAnimalsLamiaceaeChromatography Thin LayerSettore BIO/15 - Biologia FarmaceuticaSpodoptera littoralis

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Antifeedant activity of neoclerodane diterpenoids from two Sicilian species of Scutellaria

2002

Mamestra brassicaePieris brassicaebiologyBotanyScutellarialanguageLamiaceaebiology.organism_classificationSpodoptera littoralisBiochemistrySicilianEcology Evolution Behavior and Systematicslanguage.human_languageBiochemical Systematics and Ecology

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