Search results for "Gelatinization"

showing 4 items of 4 documents

Water and temperature contribution to the structuration of starch matrices in the presence of flavour.

2016

The effect of hydrothermal treatments and flavours addition on starch structure and its physical properties were studied. Native wheat starch was treated at 2 different hydrations (water-starch ratios: 50/50 and 80/20 g w/w) and temperatures (65 and 85 °C) in the presence of flavours (ethyl hexanoate and 2-hexanone). The freshly prepared samples were subjected to DSC and flavour analysis. Flavour inclusion complex could not be detected by DSC, however the result of flavour analysis proved that there were flavours interactions with starch. Both ethyl hexanoate and 2-hexanone interacted with starch at similar rates. The highest flavour loss was found in the samples at high hydration and heate…

GelatinizationStarchPhysicochemical propertiesFlavourAmylopectinAqueous-solutionsAnalytical Chemistrychemistry.chemical_compoundCrystallinity0404 agricultural biotechnologyPartial gelatinisationComplexesAmylose[SDV.IDA]Life Sciences [q-bio]/Food engineeringFreezingChromatographyThermomechanical behaviorChemistrySmall-angle X-ray scatteringGranule (cell biology)Wheat starch[ SDV.IDA ] Life Sciences [q-bio]/Food engineeringTemperatureEthyl hexanoateWaterStarch04 agricultural and veterinary sciencesGeneral MedicineHeat-moisture treatment040401 food sciencePasting propertiesRVAAroma compoundsAmylopectinTasteFlavourAmyloseFood ScienceNuclear chemistryFood chemistry
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Understanding phenolic acids inhibition of α-amylase and α-glucosidase and influence of reaction conditions

2022

Phenolic acids are involved in modulating the activity of starch digestive enzymes but remains unclear if their interaction with enzymes or starch is governing the inhibition. The potential inhibition of nine phenolic acids against α-amylase and α-glucosidase was studied applying different methodologies to understand interactions between phenolic acids and either enzymes or substrates. Vanillic and syringic acids were prone to interact with α-amylase requiring low half-maximum inhibitory concentration (IC50) to inhibit starch hydrolysis. Nevertheless, the initial interaction of phenolic acids with starch somewhat obstructed their interaction with starch, requiring 10 times higher IC50, with…

Reaction conditionsGelatinizationbiologyStarchHydrolysisα glucosidaseIn vitro reactionEuropean Regional Development Fundfood and beveragesalpha-GlucosidasesStarchGeneral MedicineMaltoseAnalytical Chemistrychemistry.chemical_compoundDigestive enzymeschemistrybiology.proteinGlycoside Hydrolase InhibitorsChristian ministryFood scienceAmylasealpha-AmylasesMaltoseFood ScienceFood Chemistry
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Aroma behaviour during steam cooking within a potato starch-based model matrix.

2012

To help understand the organoleptic qualities of steam cooked foods, the kinetics of aroma release during cooking in a potato starch based model matrix was studied. Behaviour of components having a major impact in potato flavour were studied using solid phase micro extraction-gas chromatography (SPME-GC). Evolution of microstructure of potato starch model-matrix during steam cooking process was analyzed using environmental scanning electron microscopy (ESEM). Both aroma compounds that are naturally present in starch matrix and those that were added were analyzed. Both the aroma compounds naturally presented and those added had different behaviour depending on their physico-chemical properti…

Polymers and PlasticsbiologyChemistryStarchOrganic ChemistryFlavourOrganolepticfood and beveragesStarchbiology.organism_classificationMatrix (chemical analysis)chemistry.chemical_compoundStarch gelatinizationSteamOdorantsMaterials Chemistrypotato starch; steam cooking; aroma compounds; aromatization; mMicrostructural changesMicroscopy Electron ScanningOrganic chemistryFood scienceCookingEnvironmental scanning electron microscopePotato starchAromaSolanum tuberosumCarbohydrate polymers
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New insights on the thermal analysis of low moisture composite foods.

2014

Abstract Low moisture baked products were investigated with a view to characterising the effect of both formulation and humidity on their physical stability. At the end of the baking process, the samples were in the amorphous state as a result of starch gelatinization and sugar melting. Their thermal properties were analyzed with differential scanning calorimetry and their glass transitions were studied. The DSC thermograms were thoroughly studied through a Gaussian deconvolution of the first derivative of their heat flow. This approach evidenced a multiple phase behavior with different glass transitions in composite systems. They were associated with either a polymer-rich phase and/or a pl…

ChromatographyMaterials sciencePolymers and PlasticsMoistureCalorimetry Differential ScanningOrganic ChemistryComposite numberFlourCarbohydratesTemperatureHumidityAmorphous solidStarch gelatinizationDifferential scanning calorimetryChemical engineeringPhase (matter)Materials ChemistryThermal analysisGlass transitionFood AnalysisCarbohydrate polymers
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