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Osojnik Črnivec, Ilja Gasan; Neresyan, Tigran; Gatina, Yuliana; Kolmanič Bučar, Vid; Skrt, Mihaela; Dogša, Iztok; Bogovič Matijašić, Bojana; Kulikova, Irina; Lodygin, Aleksei; Poklar Ulrih, Nataša
Molecules (Basel, Switzerland), 12/2021, Letnik: 26, Številka: 24Journal Article
Adverse environmental conditions are severely limiting the use of microorganisms in food systems, such as probiotic delivery, where low pH causes a rapid decrease in the survival of ingested bacteria, and mixed-culture fermentation, where stepwise changes and/or metabolites of individual microbial groups can hinder overall growth and production. In our study, model probiotic lactic acid bacteria ( ATCC 8014, GG) and yeasts native to dairy mixed cultures ( ZIM 1868) were entrapped in an optimized (cell, alginate and hardening solution concentration, electrostatic working parameters) Ca-alginate system. Encapsulated cultures were examined for short-term survival in the absence of nutrients (lactic acid bacteria) and long-term performance in acidified conditions (yeasts). In particular, the use of encapsulated yeasts in these conditions has not been previously examined. Electrostatic manufacturing allowed for the preparation of well-defined alginate microbeads (180-260 µm diameter), high cell-entrapment (95%) and viability (90%), and uniform distribution of the encapsulated cells throughout the hydrogel matrix. The entrapped maintained improved viabilities during 180 min at pH 2.0 (19% higher when compared to the free culture), whereas, appeared to be less robust. The encapsulated exhibited double product yields in lactose- and lactic acid-modified MRS growth media (compared to an unfavorable growth environment for freely suspended cells). Even within a conventional encapsulation system, the pH responsive features of alginate provided superior protection and production of encapsulated yeasts, allowing several applications in lacto-fermented or acidified growth environments, further options for process optimization, and novel carrier design strategies based on inhibitor charge expulsion.
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JCR | SNIP | JCR | SNIP | JCR | SNIP | JCR | SNIP |
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in: SICRIS
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