Search results for "Nutrition"

showing 10 items of 6788 documents

Assessment of genetically modified soybean MON 87751 for food and feed uses under Regulation (EC) No 1829/2003 (application EFSA‐GMO‐NL‐2014‐121)

2018

Abstract Soybean MON 87751 was developed through Agrobacterium tumefaciens‐mediated transformation to provide protection certain specific lepidopteran pests by the expression of the Cry1A.105 and Cry2Ab2 proteins derived from Bacillus thuringiensis. The molecular characterisation data and bioinformatic analyses did not identify issues requiring assessment for food and feed safety. None of the compositional, agronomic and phenotypic differences identified between soybean MON 87751 and the conventional counterpart required further assessment. The GMO Panel did not identify safety concerns regarding the toxicity and allergenicity of the Cry1A.105 and Cry2Ab2 proteins as expressed in soybean MO…

0106 biological sciencesCry1AVeterinary (miscellaneous)Plant ScienceTP1-1185Biology01 natural sciencesMicrobiologyGenetically modified soybeansoybean (Glycinemax)MON877510404 agricultural biotechnologyEnvironmental safetyBacillus thuringiensisTX341-641Cry2Ab2Cry1A.105Animal healthbusiness.industryGMONutrition. Foods and food supplyChemical technologyfungiRegulation (EC) No 1829/2003food and beverages10504 agricultural and veterinary sciencesbiology.organism_classification040401 food scienceBiotechnologySettore AGR/02 - Agronomia E Coltivazioni ErbaceeSettore AGR/11 - Entomologia Generale E ApplicataScientific OpinionMON 87751insect resistantAnimal Science and ZoologyParasitologybusinesssoybean (Glycine max)010606 plant biology & botanyFood ScienceRegulation (EC) No 1829/2003EFSA Journal

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The Importance of Phytoplankton Biomolecule Availability for Secondary Production

2017

The growth and reproduction of animals is affected by their access to resources. In aquatic ecosystems, the availability of essential biomolecules for filter-feeding zooplankton depends greatly on phytoplankton. Here, we analyzed the biochemical composition, i.e., the fatty acid, sterol and amino acid profiles and concentrations as well as protein, carbon, nitrogen, and phosphorus content of 17 phytoplankton monocultures representing the seven most abundant phytoplankton classes in boreal and sub-arctic lakes. To examine how the differences in the biochemical composition between phytoplankton classes affect their nutritional quality for consumers, we assessed the performance of Daphnia, on …

0106 biological sciencesCyanobacteriafreshwater food webslcsh:Evolutionrasvahapotsterols01 natural sciencesDaphnialcsh:QH359-425ravintoaineetmedia_common2. Zero hungerchemistry.chemical_classificationEcologybiologynutritional ecologyEcologyAquatic ecosystemplanktonvesiekosysteemit1181 Ecology evolutionary biologyReproductionmedia_common.quotation_subjecteducationchemistry.chemical_elementaminohapot010603 evolutionary biologyZooplanktonfatty acidslcsh:QH540-549.5PhytoplanktonBotany14. Life underwatersyanobakteeritEcology Evolution Behavior and Systematicssterolitamino acids010604 marine biology & hydrobiologyPhosphorusfungita1182Fatty acidmikrolevätbiology.organism_classificationchemistryDaphniavesikirputta1181lcsh:EcologycryptophytesravintoverkotFrontiers in Ecology and Evolution

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Predators' consumption of unpalatable prey does not vary as a function of bitter taste perception

2020

Many prey species contain defensive chemicals that are described as tasting bitter. Bitter taste perception is, therefore, assumed to be important when predators are learning about prey defenses. However, it is not known how individuals differ in their response to bitter taste, and how this influences their foraging decisions. We conducted taste perception assays in which wild-caught great tits (Parus major) were given water with increasing concentrations of bitter-tasting chloroquine diphosphate until they showed an aversive response to bitter taste. This response threshold was found to vary considerably among individuals, ranging from chloroquine concentrations of 0.01 mmol/L to 8 mmol/L.…

0106 biological sciencesEXPRESSIONDEFENSEmedia_common.quotation_subjectbitter tasteLibrary scienceConsumption (sociology)BiologySTRATEGIC DECISIONS010603 evolutionary biology01 natural sciencesBasic Behavioral and Social ScienceMONARCH BUTTERFLIES03 medical and health sciencesREPERTOIREBitter taste perceptionchemical defenseAvoidance learningExcellenceFOODBehavioral and Social ScienceaposematismDental/Oral and Craniofacial DiseaseEcology Evolution Behavior and SystematicsEDUCATED PREDATORS030304 developmental biologyIndependent researchmedia_commonNutrition0303 health sciencesBIRDSFOS: Clinical medicine3103 EcologyNeurosciencestoxinsBitter tastehumanitiesEVOLUTIONgreat titsRECEPTORS3109 ZoologyResearch councilavoidance learning1181 Ecology evolutionary biologybehavior and behavior mechanismsAnimal Science and Zoology31 Biological Sciences

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Landmarks in the historical development of twenty first century food processing technologies.

2017

International audience; Over a course of centuries, various food processing technologies have been explored and implemented to provide safe, fresher-tasting and nutritive food products. Among these technologies, application of emerging food processes (e.g., cold plasma, pressurized fluids, pulsed electric fields, ohmic heating, radiofrequency electric fields, ultrasonics and megasonics, high hydrostatic pressure, high pressure homogenization, hyperbaric storage, and negative pressure cavitation extraction) have attracted much attention in the past decades. This is because, compared to their conventional counterparts, novel food processes allow a significant reduction in the overall processi…

0106 biological sciencesEngineeringSociology of scientific knowledgeArchitectural engineeringEmerging food technologies[SDV.BIO]Life Sciences [q-bio]/BiotechnologyFood Handling[SDV]Life Sciences [q-bio]Hydrostatic pressureThermal processingNanotechnologyNovel food01 natural sciencesHistory 21st Century0404 agricultural biotechnologyHigh pressure homogenization010608 biotechnologyPressureHistorical review[SPI.GPROC]Engineering Sciences [physics]/Chemical and Process EngineeringUltrasonicsbusiness.industryTwenty-First CenturyTemperature04 agricultural and veterinary sciencesEnergy consumptionEquipment DesignFood safetyNon-thermal processing040401 food scienceFood processingbusinessConventional food process[SDV.AEN]Life Sciences [q-bio]/Food and NutritionFood ScienceFood research international (Ottawa, Ont.)

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Unexpected high production of biohydrogen from the endogenous fermentation of grape must deposits

2020

International audience; The aim of this work was to assess the performances of wine byproduct biomass for hydrogen production by dark fermentation. Grape must deposits from two grape varieties (Pinot Gris and Chardonnay) were considered, either with external microbial inoculum or without. We show that grape must residues contain endogenous microflora, well adapted to their environment, which can degrade sugars (initially contained in the biomass) to hydrogen without any nutrient addition. Indeed, hydrogen production during endogenous fermentation is as efficient as with an external heat-treated inoculum (2.5 ± 0.4 LH2.L-1reactor and 1.61 ± 0.41 molH2.mol-1consumed hexose, respectively) with…

0106 biological sciencesEnvironmental EngineeringBiomassWinery wasteBioengineeringValorization010501 environmental sciences01 natural sciences7. Clean energyEndogenous fermentationBioreactorsRNA Ribosomal 16S010608 biotechnologyBioreactorVitisBiohydrogenFood scienceWaste Management and Disposal0105 earth and related environmental sciencesHydrogen productionWineRenewable Energy Sustainability and the EnvironmentChemistryfood and beveragesGeneral MedicineDark fermentationBiofuelFermentationFermentation[SDV.AEN]Life Sciences [q-bio]/Food and NutritionDark fermentationHydrogen

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Lake eutrophication and brownification downgrade availability and transfer of essential fatty acids for human consumption

2016

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0106 biological sciencesFISH COMMUNITY STRUCTUREDOCEnvironmental change01 natural sciencesPredatory fishEnvironmental Science(all)EUDIAPTOMUS-GRACILISEnvironmental change; Human nutritionahvenFood sciencePERCH PERCA-FLUVIATILISBiomassfosforilcsh:Environmental sciencesGeneral Environmental ScienceTrophic level2. Zero hungerlcsh:GE1-350PerchBiomass (ecology)FINNISH LAKESBOREAL LAKESbiologyEcologyHuman nutritionFatty AcidsFishesfood and beveragesPhosphorusEutrophicationEicosapentaenoic acid6. Clean waterFood webDHAEicosapentaenoic Acid1181 Ecology evolutionary biologyFatty Acids Unsaturatedlipids (amino acids peptides and proteins)PLANKTONIC ALGAEPerchFood ChainDocosahexaenoic Acidsta1172010603 evolutionary biologyPhytoplanktonAnimalsHumansDISSOLVED ORGANIC-CARBON14. Life underwaterhuman nutritionFatty Acids Essential010604 marine biology & hydrobiologyfungiEUROPEAN LAKESEPA15. Life on landbiology.organism_classificationLakesAquatic food webs13. Climate actionPerchesEURASIAN PERCHPhytoplanktonta1181EutrophicationFRESH-WATER MICROALGAE

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Fertigation Management and Growth-Promoting Treatments Affect Tomato Transplant Production and Plant Growth after Transplant

2020

Plant biostimulants are of interest as they can stimulate plant growth and increase resource utilization. There is still no information on the use of plant growth-promoters under variable nutritional conditions in the nursery and the effects on tomato seedling growth and plant performance after transplant. This study aimed to evaluate the suitability of gibberellic acid (GA3) or bacterial biostimulant treatments to enhance the growth and quality of greenhouse-grown tomato (Solanum lycopersicum &lsquo

0106 biological sciencesFertigationPlant growthvegetable nurserypre-transplanting nutritional conditioningSettore AGR/04 - Orticoltura E Floricolturaengineering.materialpost-transplant growth01 natural sciencestransplant productionlcsh:Agriculturechemistry.chemical_compoundNutrientbacterial biostimulantGibberellic acidbiologyInoculationSolanum lycopersicum ‘Marmande’ tomato seedlings vegetable nursery transplant production pre-transplanting nutritional conditioning bacterial biostimulant Bacillus spp. PGPR gibberellic acid post-transplant growthfungilcsh:Sfood and beverages04 agricultural and veterinary sciencesbiology.organism_classificationHorticulturetomato seedlingschemistrySeedling<i>Solanum lycopersicum</i> ‘Marmande’PGPR040103 agronomy & agricultureengineering0401 agriculture forestry and fisheriesFertilizerSolanum<i>Bacillus</i> spp.Agronomy and Crop Sciencegibberellic acid010606 plant biology & botany

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2006

Aphids are the leading pests in agricultural crops. A large-scale sequencing of 40,904 ESTs from the pea aphid Acyrthosiphon pisum was carried out to define a catalog of 12,082 unique transcripts. A strong AT bias was found, indicating a compositional shift between Drosophila melanogaster and A. pisum. An in silico profiling analysis characterized 135 transcripts specific to pea-aphid tissues (relating to bacteriocytes and parthenogenetic embryos). This project is the first to address the genetics of the Hemiptera and of a hemimetabolous insect.

0106 biological sciencesGenetics0303 health sciencesAphidExpressed sequence tagbiologyIn silicomedia_common.quotation_subjectfungifood and beveragesInsectbiochemical phenomena metabolism and nutritionbiology.organism_classification01 natural sciencesHemipteraPisumAcyrthosiphon pisum010602 entomology03 medical and health sciencesDrosophila melanogaster030304 developmental biologymedia_commonGenome Biology

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Genetic variation in natural populations of the aphid Rhopalosiphum padi as revealed by maternally inherited markers

1996

A survey on 148 clones of the aphid Rhopalosiphum padi from 11 widespread localities has been carried out to study the genetic structure of populations of this species as revealed by mitochondrial DNA restriction site and length polymorphisms as well as by restriction site analysis of a maternally inherited plasmid carried by the aphid eubacterial endosymbiont Buchnera aphidicola. Our results support the existence in the area under study of two main aphid maternal lineages strikingly coincidental with the two main reproductive categories displayed by this species. Those aphid clones possessing an incomplete life cycle that lacks the sexual phase (anholocyclic or androcyclic clones) show mit…

0106 biological sciencesGeneticseducation.field_of_studyAphidMitochondrial DNAPopulationHaplotypebiochemical phenomena metabolism and nutritionBiologybiology.organism_classificationGENETIQUE MITOCHONDRIALE010603 evolutionary biology01 natural sciencesINSECTE010602 entomologyRestriction siteRhopalosiphum padiGenetic variation[SDV.BBM] Life Sciences [q-bio]/Biochemistry Molecular BiologyGenetics[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyBuchneraeducationComputingMilieux_MISCELLANEOUSEcology Evolution Behavior and SystematicsMolecular Ecology

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No exception to the rule: Candidatus Portiera aleyrodidarum cell wall revisited

2014

International audience; Many insect endosymbionts described so far are gram-negative bacteria. Primary endosymbionts are obligatory bacteria usually harboured by insects inside vacuoles in specialized cells called bacteriocytes. This combination produces a typical three-membrane system with one membrane derived from the insect vacuole and the other two from the bacterial gram-negative cell envelope, composed by the cell wall (the outer membrane plus the periplasmic space) and the plasma membrane (the inner membrane). For the last 21 years, the primary endosymbiont of whiteflies 'Candidatus Portiera aleyrodidarum' was considered an exception to this rule. Previous works stated that only two …

0106 biological sciencesGram-negative bacteriacell envelopeCandidatus Carsonella ruddii[SDV]Life Sciences [q-bio]Bemisia tabaci endosymbiont01 natural sciencesMicrobiologyMicrobiologyHemipteraCell membrane03 medical and health sciencesMicroscopy Electron TransmissionCell WallGeneticsmedicineAnimalsInner membraneMolecular Biology030304 developmental biology0303 health sciencesbiologyfungiPeriplasmic spacebiochemical phenomena metabolism and nutritionbiology.organism_classificationHalomonadaceaemedicine.anatomical_structureGenes Bacterialendosymbiont membranesCandidatusbacteriaCell envelopeBacterial outer membrane010606 plant biology & botany

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