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Priprava vodotopnega propolisa in proučevanje mehanizmov njegovega delovanja v modelnih vodnih in lipidnih sistemih
ID Šturm, Luka (Author), ID Poklar Ulrih, Nataša (Mentor) More about this mentor... This link opens in a new window

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Abstract
Propolis je lipofilna, lepljiva snov znana po svoji močni biološki aktivnosti. Že stoletja se uporablja v medicini, a je njegova uporaba omejena zaradi močnega okusa in arome, netopnosti v vodi in slabega izkoristka med obdelavo. Večino njegovih omejitev lahko rešimo s kapsulacijo v različne polisaharidne nosilce, predvsem z metodama liofilizacije in sušenja z razprševanjem. Z optimizacijo postopka kapsulacije propolisovega ekstrakta smo pridobili vodotopne propolisove mikrodelce, ki ne vsebujejo organskih topil, imajo močno biološko aktivnost, dobro stabilnost, med preprosto pripravo pa smo minimalizirali izgube pomembnih molekul v njih. Za pripravo vzorcev se je kot najboljša metoda izkazala liofilizacija. V nadaljevanju smo primerjali aktivnost mikrodelcev s propolisovim ekstraktom. Raziskave so pokazale, da imajo tako mikrodelci kot propolisov ekstrakt dobre antioksidativne lastnosti, ki so v primeru mikrodelcev boljše v olju (sončnično, ribje), v primeru ekstrakta pa v liposomih. Propolisov ekstrakt je imel tudi boljše protibakterijsko delovanje in večji vpliv na temperaturo faznega prehoda lipidnega dvosloja. Da smo dokazali sinergistične učinke polifenolov v propolisu, smo pripravili mešanice s petimi izbranimi polifenoli (( ) epigalokatehin-3-galat (EGCG), krizin, kvercetin, kavna kislina, trans-ferulna kislina) in preverili njihov vpliv na lipidni dvosloj. Izkazalo se je, da nekatere kombinacije kažejo sinergistično, druge pa antagonistično delovanje. Na koncu smo s pomočjo mikroskopije, diferenčne dinamične kalorimetrije in izotermne titracijske kalorimetrije dokazali tudi, da je vpliv EGCG na temperaturo faznega prehoda dvosloja posledica različne agregacije liposomov, ki je odvisna od koncentracije EGCG v raztopini.

Language:Slovenian
Keywords:propolis, propolisov ekstrakt, kapsulacija, sušenje z razprševanjem, liofilizacija, arabski gumi, antioksidativne lastnosti, protibakterijsko delovanje, liposomi, EGCG, krizin, kvercetin, kavna kislina, trans-ferulna kislina, sinergija
Work type:Doctoral dissertation
Typology:2.08 - Doctoral Dissertation
Organization:BF - Biotechnical Faculty
Publisher:[L. Šturm]
Year:2023
PID:20.500.12556/RUL-152995 This link opens in a new window
UDC:638.135:615.014.6:577.352
COBISS.SI-ID:177629699 This link opens in a new window
Publication date in RUL:14.12.2023
Views:1054
Downloads:84
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Secondary language

Language:English
Title:Preparation of water-soluble propolis and study of the mechanisms of its action in model aqueous and lipid systems
Abstract:
Propolis is a lipophilic, sticky substance known for its strong biological activity. It has been used in medicine for centuries, but has limited use due to its strong taste and aroma, insolubility in water, and poor yield during processing. Most of its limitations can be omitted by encapsulation in various polysaccharide carriers, mainly using lyophilization and spray-drying. By optimizing the propolis extract encapsulation process, we obtained a water-soluble propolis powders/microparticles that do not contain organic solvents, have strong biological activity and good stability, while we also minimized losses during the procedure. Lyophilization proved to be the best method for encapsulation. In the following, we compared the activity of encapsulated samples with propolis extract. The results proved that both samples of propolis have good antioxidant properties, microparticles excelling in oil (sunflower, fish), and extract in liposomes. Propolis extract also displayed stronger antibacterial activity and had greater influence on the temperature of the phase transition of lipid bilayers. In order to prove the synergistic effects of compounds in propolis, we prepared mixtures of five selected polyphenols ((-)-epigallocatechin-3-gallate (EGCG), chrysin, quercetin, caffeic acid, trans-ferulic acid) and studied their influence on the bilayer. Some combinations displayed synergistic, while others displayed antagonistic effects. Finally, using microscopy, differential scanning calorimetry and isothermal titration calorimetry, we proved that the effect of EGCG on the temperature of the bilayer’s phase transition is the result of liposomal aggregation, which depends on the concentration of EGCG in the solution.

Keywords:propolis, propolis extract, encapsulation, spray-drying, lyophilisation, gum arabic, antioxidative properties, antibacterial properties, liposomes, EGCG, chrysin, quercetin, caffeic acid, trans-ferulic acid, synergy

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