info:eu-repo/semantics/article
Effect of gellan gum, xylitol and natamycin on Zygosaccharomyces bailii growth and rheological characteristics in low sugar content model systems
Fecha
2020-12Registro en:
Schelegueda, Laura Inés; Zalazar, Aldana Lourdes; Herbas, Elizeth Tania; Gliemmo, María Fernanda; Campos, Carmen Adriana; Effect of gellan gum, xylitol and natamycin on Zygosaccharomyces bailii growth and rheological characteristics in low sugar content model systems; Elsevier Science; International Journal of Biological Macromolecules; 164; 12-2020; 1657-1664
0141-8130
CONICET Digital
CONICET
Autor
Schelegueda, Laura Inés
Zalazar, Aldana Lourdes
Herbas, Elizeth Tania
Gliemmo, María Fernanda
Campos, Carmen Adriana
Resumen
This study evaluated the effect of some natural additives and the structure imparted by them on microbial growth and rheological characteristics in acidic model foods with reduced glycidic content. Systems were formulated using gellan gum, as gelling agent; xylitol, as aw depressor; and natamycin, as antimicrobial. Additive-free control systems were prepared. The pH was adjusted to 3.50 or 5.50 as required. Systems were inoculated with Zygosaccharomyces bailii. The effect of additives alone and combined on Z. bailii growth was studied. In some cases, the possible use of additives as yeast nutrients was evaluated. Furthermore, systems rheological characterization was performed. Additives and the structure given by gellan gum significantly affected yeast growth. Gellan gum initially slowed Z. bailii development, but as storage progressed, it acted as yeast carbon source, promoting its growth. A similar trend was observed when xylitol effect was studied. Natamycin inhibited yeast growth in all systems assayed. Additives modified the rheological characteristics of the gels and this effect depended on gellan gum concentration and pH. Obtained results emphasize the importance of considering the different effects that additives and their combinations can exert on the growth of deteriorating microorganisms and on the physical characteristics of gels.