Browsing by Author "Gul, LB, Gul, O, Con, AH"

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    Optimization of fermentation conditions for sourdough by three different lactic acid bacteria using response surface methodology
    (2022-01-12) Gul L.B., Gul O., Con A.H.; Gul, LB, Gul, O, Con, AH
    This study aimed to investigate optimal fermentation conditions for sourdough by freeze-dried Lactobacillus curvatus N19, Weissella cibaria N9 and Lactobacillus brevis ED25 isolated from Turkish sourdough previously. The central composite rotational design was applied to the optimization of fermentation parameters (temperature and time). The fermentation was carried out under a simulated sourdough system and biomass concentration, total acidity, and lactic and acetic acid formation were chosen as response variables. Results showed that the models developed for all variables were significant (p < 0.05) and there was no lack of fit in any of quantifications (p > 0.05), indicating the suitability for representing the relationship between variables and factors. While both of the independent parameters were effect the response, fermentation time was the most significant factor influencing the response. The validation experiments using the optimized condition showed a good agreement between the experimental and predicted values except the lactic and acetic acid formation for W. cibaria N9. In conclusion, freeze-dried L. curvatus N19 can be used as a starter culture to sourdough fermentation for bread industry due to optimum fermentation conditions (29oC temperature and 23h time).
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    Potential of three different lactic acid Bacteria to use as starter culture for production of type II sourdough breadmaking
    (2022-10-01) Gül L.B., Gül O., Çon A.H.; Gul, LB, Gul, O, Con, AH
    The principle objective of this study was to investigate the use of three different lactic acid bacteria (Lactobacillus curvatus N19, Weissella cibaria N9 and L. brevis ED25) lyophilized with optimum cryoprotective agent formulations as Type II sourdough culture to develop sourdough bread in terms of physicochemical, textural and sensory characteristics as well as volatile aroma compounds. Compared to control sample (fermented only commercial yeast), specific volume, crust and crumb color, and textural properties were markedly more acceptable for sourdough bread. The concentration of lactic (2.12–2.87 g/kg) and acetic (0.43–0.77 g/kg) acids in the sourdough bread was significantly higher compared to control sample (0.28 and 0.09 g/kg, respectively). A total of 57 volatile compounds including 13 alcohols, 9 esters, 8 ketones, 13 aldehydes, 10 acid group components, and 4 other compounds (such as oxidation product amine, terpene, sulfur compounds, organic compounds) were detected. Among these compounds, alcohols and aldehydes were significantly higher in control sample, while the ratio of acids was found to be higher in sourdough breads. The evaluation scores of the sourdough breads had desirable sensory features, but in terms of general acceptance values, it was concluded that those containing L. brevis ED25 was more preferred.