Search results for "food additive"

showing 10 items of 76 documents

Prospects for the microbial production of food flavours

1996

The microbial production of natural flavours has been extensively studied during the past decade, and some processes are currently being exploited commercially. However, in the case of flavour compounds such as lactones and some aromatic compounds, the lack of basic information on their metabolism, as well as their high toxicity, are two main barriers to industrial production. The development of novel and cheap production processes, such as solid-state fermentation, may help overcome some of the current limitations of microbial flavour production, as well as widening the spectrum of biotechnologically accessible compounds.

0106 biological sciences2. Zero hunger0303 health sciencesBIOTECHNOLOGIEfood.ingredientChemistrybusiness.industryIndustrial productionFood additiveFlavour[SDV.IDA] Life Sciences [q-bio]/Food engineering01 natural sciencesBiotechnology03 medical and health sciencesfood010608 biotechnology[SDV.IDA]Life Sciences [q-bio]/Food engineeringProduction (economics)business030304 developmental biologyFood ScienceBiotechnology
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Application of hydrolases and probiotic Pediococcus acidilactici BaltBio01 strain for cereal by-products conversion to bioproduct for food/feed

2017

The aim of this study was to apply the enzymatic treatment and fermentation by Pediococcus acidilactici BaltBio01 strain for industrial cereal by-products conversion to food/feed bioproducts with high amount of probiotic lactic acid bacteria (LAB). LAB propagated in potato media and spray-dried remained viable during 12months (7.0 log10 cfu/g) of storage and was used as a starter for cereal by-products fermentation. The changes of microbial profile, biogenic amines (BAs), mycotoxins, lactic acid (Lþ/D), lignans and alkylresorcinols (ARs) contents in fermented cereal by-product were analysed. Cereal by-products enzymatic hydrolysis before fermentation allows to obtain a higher count of LAB d…

0106 biological sciencesAlkylationFood HandlingHydrolases01 natural sciencesmycotoxinlaw.inventionProbioticchemistry.chemical_compoundbiogenic aminelawBioproductscereal by-productFood scienceenzymatic hydrolysiStrain (chemistry)Hydrolysisdigestive oral and skin physiologyfood and beverages04 agricultural and veterinary sciences040401 food scienceFermented FoodslignanBiogenic AminesIndustrial WasteFood ContaminationBiologyLignans0404 agricultural biotechnology010608 biotechnologyEnzymatic hydrolysisAnimalsHumansFood-Processing IndustryMycotoxinPediococcus acidilacticiMicrobial Viabilitybusiness.industryProbioticsPediococcus acidilacticiResorcinolsMycotoxinsbiology.organism_classificationAnimal FeedLatviaBiotechnologychemistryFermentationbacteriaFood AdditivesFermentationalkylresorcinolEdible GrainbusinessFood ScienceInternational Journal of Food Sciences and Nutrition
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Microalgae and seaweeds for food applications: Challenges and perspectives

2016

0106 biological sciencesEngineeringConsumer Product SafetyFood HandlingMEDLINERisk Assessment01 natural sciences0404 agricultural biotechnology010608 biotechnologyMicroalgaeHumansPlant Extractsbusiness.industry04 agricultural and veterinary sciencesSeaweed040401 food scienceBiotechnologyConsumer Product SafetyDietary SupplementsFood AdditivesEngineering ethicsbusinessRisk assessmentNutritive ValueFood ScienceIntroductory Journal ArticleFood Research International
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Active packaging with antifungal activities.

2016

International audience; There have been many reviews concerned with antimicrobial food packaging, and with the use of antifungal compounds, but none provided an exhaustive picture of the applications of active packaging to control fungal spoilage. Very recently, many studies have been done in these fields, therefore it is timely to review this topic. This article examines the effects of essential oils, preservatives, natural products, chemical fungicides, nanopartides coated to different films, and chitosan in vitro on the growth of moulds, but also in vivo on the mould free shelf-life of bread, cheese, and fresh fruits and vegetables. A short section is also dedicated to yeasts. All the ap…

0106 biological sciencesPreservativeFood-additivesAntifungal AgentsControlled-release[ SDV.AEN ] Life Sciences [q-bio]/Food and NutritionFood spoilageActive packaging01 natural sciencesIn-vitroCheeseYeasts[SDV.IDA]Life Sciences [q-bio]/Food engineeringFood scienceFood PreservativesNatural productsbiologyChemistryNatural essential oils[ SDV.IDA ] Life Sciences [q-bio]/Food engineeringFood Packaging04 agricultural and veterinary sciencesGeneral MedicineBread040401 food scienceFood packagingCinnamon essential oilAspergillusEssential oilsPackagingPenicilliumfood.ingredientPotassium sorbateEnvironmentShelf lifeMicrobiology0404 agricultural biotechnologyfood010608 biotechnologyFood PreservationBotrytis-cinereaOils VolatileStarch edible filmsMouldChitosanFood additiveFungiPenicilliumbiology.organism_classificationshelf-lifeFoodFood PreservativesNanoparticles[SDV.AEN]Life Sciences [q-bio]/Food and NutritionPreservativesAspergillus-nigerFood ScienceInternational journal of food microbiology
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Aroma Volatility from Aqueous Sucrose Solutions at Low and Subzero Temperatures

2004

International audience; The gas-liquid partition coefficients of ethyl acetate and ethyl hexanoate have been measured in water and aqueous sucrose solutions from 25 to -10 degrees C by dynamic headspace. Experiments were carried out on sucrose solutions at temperatures where no ice formation was possible. Results showed that when sucrose concentration increased, aroma volatility increased except for ethyl hexanoate and in the highest sucrose concentration solution (57.5%). A quasi-linear temperature decrease on aroma volatility was observed in sucrose solutions from 25 to around 4 and 0 degrees C. Then, from 0 to -10 degrees C, aroma volatility did not decrease: ethyl acetate volatility rem…

0106 biological sciencesSucrosefood.ingredientSucroseEthyl acetate01 natural scienceschemistry.chemical_compound[SPI]Engineering Sciences [physics]0404 agricultural biotechnologyfood010608 biotechnologyFreezinglow and subzero temperaturesaqueous sucrose solutionsAromaAromaChromatographyAqueous solutionbiologyFood additiveWaterEthyl hexanoatefood and beverages04 agricultural and veterinary sciencesGeneral Chemistrybiology.organism_classification040401 food scienceCold TemperatureSolutionsPartition coefficientpartition coefficientschemistryOdorantsVolatilizationGeneral Agricultural and Biological SciencesVolatility (chemistry)
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Retention of aroma compounds by carbohydrates: Influence of their physicochemical characteristics and of their physical state a review

1998

Many aroma compounds, used to flavor food products, are used in a solid state, after encapsulation. Carbohydrates are the most common matrices used to entrap these volatiles. It has been observed that depending on the aroma compound and the carrier, efficiency can vary. This article reviews the influence of physicochemical properties of both the volatiles and the carriers on retention. The latter depends on the functional groups of the aroma compound. Moreover, it increases with molecular weight and decreases with the polarity and relative volatility of the aroma compound. This behavior can be explained by the effect of these properties on the diffusion of the aroma compound through the mat…

0106 biological sciencesfood.ingredient01 natural scienceschemistry.chemical_compound0404 agricultural biotechnologyfood010608 biotechnology[SDV.IDA]Life Sciences [q-bio]/Food engineeringOrganic chemistryAroma compoundVolatile organic compoundSolubilityFlavorAromachemistry.chemical_classificationRelative volatilitybiologyFood additivefood and beverages04 agricultural and veterinary sciencesGeneral Chemistry[SDV.IDA] Life Sciences [q-bio]/Food engineeringMaltodextrinbiology.organism_classification040401 food sciencechemistry13. Climate actionGeneral Agricultural and Biological Sciences
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European Union legislation on macroalgae products

2021

AbstractMacroalgae-based products are increasing in demand also in Europe. In the European Union, each category of macroalgae-based products is regulated separately. We discuss EU legislation, including the law on medicinal products, foods including food supplements and food additives, feed and feed additives, cosmetics, packaging materials, fertilizers and biostimulants, as well as biofuels. Product safety and consumer protection are the priorities with any new products. Macroalgae products can be sold as traditional herbal medicines. The novel food regulation applies to macroalgae foods that have not previously been used as food, and organic macroalgae are a specific regulatory category. …

0106 biological sciencesorganic foodmedicineEU directivesNovel foodelintarvikevalvonta01 natural sciencesEnvironmental protectionfood control and monitoringmerilevätsääntelyfood productionbiopolttoaineetmedia_commonalgae2. Zero hunger0303 health scienceslainsäädäntöcosmeticskosmeettiset tuotteetfeedtrade agreementsregulationelintarvikkeetSubsidyfertilizerEU-direktiivit3. Good healthEuropeProduct (business)productsluomuruokabiofueladditivesenterprisesmakrolevätmacroalgaefood.ingredientLegislationEuroopan UnionilevätAquatic Sciencelegislationravinto03 medical and health sciencesfoodlisäaineetmedia_common.cataloged_instanceEuropean Union14. Life underwaterforeign substancesEuropean unionvierasaineet030304 developmental biologyelintarviketuotantobusiness.industryfood010604 marine biology & hydrobiologyFood additiveVDP::Matematikk og Naturvitenskap: 400Consumer protectionconsumer protection policyyrityksetlääkkeetAgricultureseaweedfoodstuffstuotteetkuluttajansuojalannoitteetbusinessAgronomy and Crop Sciencekauppasopimukset
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Chestnuts and by-products as source of natural antioxidants in meat and meat products: A review

2018

Abstract Background Chestnuts have traditionally been used for both human and animal consumption due to their nutritional properties. During chestnut industrial processing, several by-products are generated, like chestnut wood, flowers, leaves, shells, barks and burs. These by-products constitute an important source of antioxidant compounds, which can be used as food additives to be incorporated in other food products such as meat in order to improve nutritional and quality characteristics as well as to delay oxidation processes. Scope and approach This systematic literature review evaluated the main antioxidant compounds of chestnuts by-products, including total content and profile. Moreov…

0301 basic medicine030109 nutrition & dieteticsfood.ingredientAntioxidantFood additivemedicine.medical_treatment04 agricultural and veterinary sciencesBiology040401 food scienceMicrobial inactivation03 medical and health sciences0404 agricultural biotechnologyfoodFood productsmedicineFood scienceQuality characteristicsBeneficial effectsFood ScienceBiotechnologyTrends in Food Science & Technology
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Effect of high pressure on the antimicrobial activity and secondary structure of the bacteriocin nisin

2018

International audience; Effect of high pressure (HP) treatment on the antimicrobial properties and the structure of nisin was evaluated. Nisin solutions at pH 2.8 or 6.1 were treated by HP at 500 MPa – 10 min – 20 °C and their antimicrobial potency was determined. It appeared that HP clearly impacted the antimicrobial activity of nisin, with respective activity loss of 22.5% and 49.9% at pH 2.8 and 6.1. Structural analysis of nisin by circular dichroism and Fourier transform-infrared spectroscopies revealed that the decrease of nisin antimicrobial activity was likely due to the unfolding of the protein induced by HP. A loss of nisin β-turns structure, particularly significant at neutral pH,…

0301 basic medicineCircular dichroismfood.ingredient030106 microbiologyIndustrial and Manufacturing Engineering03 medical and health scienceschemistry.chemical_compound0404 agricultural biotechnologyfoodBacteriocinSecondary structure[SDV.IDA]Life Sciences [q-bio]/Food engineeringpolycyclic compoundsPotencyFood scienceProtein secondary structureNisinNisinbiologyFood additive[ SDV.IDA ] Life Sciences [q-bio]/Food engineeringfood and beverages04 agricultural and veterinary sciencesGeneral Chemistrybiochemical phenomena metabolism and nutritionAntimicrobialbiology.organism_classification040401 food scienceActivityHigh pressurechemistrybacterialipids (amino acids peptides and proteins)BacteriaFood Science
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Influence of food waste addition over microbial communities in an Anaerobic Membrane Bioreactor plant treating urban wastewater

2018

[EN] Notorious changes in microbial communities were observed during and after the joint treatment of wastewater with Food Waste (FW) in an Anaerobic Membrane Bioreactor (AnMBR) plant. The microbial population was analysed by high-throughput sequencing of the 16S rRNA gene and dominance of Chloroflexi, Firmicutes, Synergistetes and Proteobacteria phyla was found. The relative abundance of these potential hydrolytic phyla increased as a higher fraction of FW was jointly treated. Moreover, whereas Specific Methanogenic Activity (SMA) rose from 10 to 51 mL CH4 g(-1) VS, Methanosarcinales order increased from 34.0% over 80.0% of total Archaea, being Methanosaeta the dominant genus. The effect o…

0301 basic medicineEnvironmental EngineeringPopulationBiogasWastewater010501 environmental sciencesManagement Monitoring Policy and LawWaste Disposal Fluid01 natural sciencesMethanosaeta03 medical and health sciencesBioreactorsIlluminaBiogasRNA Ribosomal 16SAnaerobic digestionMicrobial communityBioreactorAnaerobiosisFood scienceeducationWaste Management and DisposalTECNOLOGIA DEL MEDIO AMBIENTE0105 earth and related environmental scienceseducation.field_of_studybiologyChemistryFood wasteGeneral Medicinebiology.organism_classificationAnaerobic digestionAnMBR030104 developmental biologyWastewaterMicrobial population biologyBiofuelsMethanosarcinalesFood AdditivesMethaneJournal of Environmental Management
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