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Vpliv vrste sladkorja na nastanek akrilamida med toplotno obdelavo živil
ID Opravš, Tina (Author), ID Prislan, Iztok (Mentor) More about this mentor... This link opens in a new window

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Abstract
Namen diplomske naloge je bil s pomočjo diferenčne dinamične kalorimetrije poiskati razlike med termično obremenitvijo mešanic asparagin/glukoza, asparagin/fruktoza in asparagin/saharoza ter skupaj s pregledom literature ugotoviti in pojasniti povezavo med vrsto sladkorja in nastankom akrilamida med toplotno obdelavo živil. Omenjene mešanice in posamezne komponente smo z enakomerno hitrostjo segrevali do 130 °C. V drugem delu poskusa smo iskali razlike v toplotnem toku mešanic in posameznih komponent, ki smo jih na temperaturi 130 °C opazovali najmanj eno uro. Ugotovili smo, da se termogrami mešanic med seboj razlikujejo, saj se sladkorji med toplotno obdelavo obnašajo različno, kar vpliva na potek reakcij. Po končanem segrevanju je v vseh primerih prišlo do porjavenja, kar nakazuje na potek Maillardove reakcije. S pregledom literature smo povzeli, da obstaja povezava med vrsto sladkorja in nastankom akrilamida, ki je odvisna od reakcijskih pogojev. Potrdili smo, da je pri pogojih našega eksperimenta (zaprt sistem, suhi vzorci v trdi obliki, nizka vsebnost vode, povišan pritisk) glukoza v reakciji z asparaginom najbolj reaktivna, sledi ji fruktoza in nato saharoza. Ti rezultati še ne pomenijo, da je pri reakciji asparagina z glukozo nastalo več akrilamida kot pri reakciji asparagina s fruktozo oz. saharozo, saj bi za dokazovanje le tega morali analizirati nastale produkte. Saharoza ni reducirajoči sladkor, vendar je daljše segrevanje na 130 °C povzročilo reakcijo, za opredelitev katere bi bile potrebne nadaljnje raziskave. S pregledom študij smo povzeli, da so za hidrolizo saharoze potrebne višje temperature in med toplotno obdelavo živil njen vpliv na nastanek akrilamida ni bil zabeležen.

Language:Slovenian
Keywords:živila, akrilamid, glukoza, fruktoza, saharoza, asparagin, diferenčna dinamična kalorimetrija, toplotna obdelava, Maillardova reakcija
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:BF - Biotechnical Faculty
Place of publishing:Ljubljana
Publisher:[T. Opravš]
Year:2021
PID:20.500.12556/RUL-130534 This link opens in a new window
UDC:641.522:577.114
COBISS.SI-ID:76343043 This link opens in a new window
Publication date in RUL:16.09.2021
Views:1284
Downloads:89
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Secondary language

Language:English
Title:Relationship between type of sugar and acrylamide content of heated foodstuffs
Abstract:
Purpose of diploma thesis was to find differences between mixtures asparagine/glucose, asparagine/fructose and asparagine/sucrose when they were heated in differential scanning calorimetry system and together with an overview of literature find out and explain the connection between type of sugar and the formation of acrylamide during heat treatment of foodstuffs. We heated asparagine/sugar mixtures and individual components with constant speed of heating up to 130 °C. In separate experiment we followed changes in heat flow of mixtures and individual components while they were kept at 130 °C for at least one hour. We found out that thermograms of mixtures do differ, because sugars behave differently during heat treatment, thus influencing the reaction mechanism. After heating was completed, browning occurred in all samples, which suggests the occurrence of Maillard reaction. With literature data, we described the connection between type of sugar and formation of acrylamide, which depends on the reaction conditions. We confirmed that under conditions of our experiment (closed system, dry samples in solid form, low water content, high pressure) glucose is the most reactive sugar in the reaction with asparagine, followed by fructose and sucrose. These results do not necessarily mean that the reaction of asparagine with glucose produced more acrylamide than reaction of asparagine with fructose or sucrose, as we should analyze the products to prove that. Sucrose is not a reducing sugar, but prolonged heating at 130 °C caused some reactions that would require further research. By reviewing literature data, we concluded that higher temperatures are required for hydrolysis of sucrose and that its effect on acrylamide formation was not recorded during the heat treatment of foodstuffs.

Keywords:foods, acrylamide, glucose, fructose, sucrose, asparagine, differential scanning calorimetry, heat treatment, Maillard reaction

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