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RESEARCH PRODUCT
Chemical Characteristics and Viability of Starter Cultures of Freeze–Dried Sweet Potato Extract–Supplemented Synbiotic Yogurt
Sri HartatiCatur Budi HandayaniAgustina Intan Niken TariKarina StankevicaDamat Damatsubject
free radicallcsh:GE1-3500303 health sciencesSucroseCryoprotectantbiologyfermented drink030306 microbiologyfood and beverageshealthy consumptionbiology.organism_classificationLactic acidfunctional food03 medical and health scienceschemistry.chemical_compoundsucrose as cryoprotectantStarterFunctional foodchemistryFood scienceWater contentBacteriaCompletely randomized designlcsh:Environmental sciences030304 developmental biologydescription
The research aimed to determine the sucrose concentration as a cryoprotectant to obtain the chemical properties and the viability of Lactic Acid Bacteria (LAB) and Lactobasillus plantarum in the synbiotic yogurt. It adopted a one–factor Completely Randomized Design (CRD) by including sucrose in concentrations from 0 %, 2.5 %, 5 % to 7.5 %, three replications. The results showed various sucrose concentrations significantly affected the yields of the purple sweet potato extract– supplemented synbiotic yogurt, reduction–sugar level, the total of LAB, and the total of L. plantarum before and after the freeze–drying process, no significant impact on the moisture content and total quantity of LAB. The best treatment of the synbiotic yogurt was induced through the addition of sucrose with a concentration of 5 % as a cryoprotectant. The treatment signified the following characteristics: 14.797 % of yields, 7.51 % of water content, 14.59 % of reduction–sugar level, 1.98 × 109 CFU mL–1 of total LAB before the freeze–drying and 9.28 × 108 CFU mL–1 after the freeze–drying, 8.23 × 108 CFU mL–1 of total L. plantarum before the freeze–drying and 6.81 × 108 CFU mL–1 after the freeze–drying.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-01-01 | E3S Web of Conferences |