Freire Ana Luiza, Ramos Cintia Lacerda, Schwan Rosane Freitas
Department of Biology, Federal University of Lavras, 37.200-000 Lavras, MG, Brazil.
Department of Biology, Federal University of Lavras, 37.200-000 Lavras, MG, Brazil.
Food Res Int. 2015 Oct;76(Pt 3):787-795. doi: 10.1016/j.foodres.2015.07.041. Epub 2015 Jul 29.
Traditional Brazilian indigenous fermented foods and beverages are potential sources of new food products that promote health, but they are still produced by natural fermentation. In the present work, Lactobacillus fermentum CCMA 0215 isolated from the indigenous fermented cassava beverage yakupa was used as single or mixed starter culture with five different yeast strains (Torulaspora delbrueckii CCMA 0234 and CCMA 0235, Pichia caribbica CCMA 0198, and Saccharomyces cerevisiae CCMA 0232 and CCMA 0233) to ferment cassava. Fermentations using each yeast as single starter culture were also performed. The microbial population and metabolites produced during cassava fermentation were investigated. In all assays, the inoculated microorganisms fermented cassava, judged by lowering the pH from 6.0 to 4.0-5.0 within 24h. Lactic acid bacteria (LAB) and yeast population increased during fermentation. Lactic acid was the main organic acid produced, reaching a maximum value of 4.5g/L at 24h in the co-culture with L. fermentum CCMA 0215 and T. delbrueckii CCMA 0234. Other organic acids, such as malic, tartaric, and succinic acids, were detected in low concentrations (less than 0.5g/L). Ethanol and glycerol were produced in all assays inoculated with yeasts (single and co-cultured with LAB), reaching the maximum concentration of approximately 2.3g/L and 0.6g/L, respectively. Twenty-two volatile compounds were detected after 48h of fermentation, varying widely between single and co-cultures. The compounds 2-phenylethyl alcohol, 1-butanol, 3-methyl (isoamyl alcohol), and acetoin were detected in single and co-cultures. This study demonstrated co-cultures of yeasts and LAB had the ability to improve the aroma profile of the final product and the safety of the product by lowering the pH.
传统的巴西本土发酵食品和饮料是促进健康的新食品的潜在来源,但它们仍通过自然发酵生产。在本研究中,从本土发酵木薯饮料亚库帕中分离出的发酵乳杆菌CCMA 0215被用作单一或混合发酵剂,与五种不同的酵母菌株(德氏有孢圆酵母CCMA 0234和CCMA 0235、加勒比毕赤酵母CCMA 0198、酿酒酵母CCMA 0232和CCMA 0233)一起发酵木薯。也进行了使用每种酵母作为单一发酵剂的发酵。研究了木薯发酵过程中产生的微生物种群和代谢产物。在所有试验中,接种的微生物都能发酵木薯,这可通过在24小时内将pH值从6.0降至4.0 - 5.0来判断。发酵过程中乳酸菌(LAB)和酵母数量增加。乳酸是产生的主要有机酸,在与发酵乳杆菌CCMA 0215和德氏有孢圆酵母CCMA 0234共培养时,在24小时达到最大值4.5g/L。还检测到低浓度(低于0.5g/L)的其他有机酸,如苹果酸、酒石酸和琥珀酸。在所有接种酵母的试验(单一接种和与LAB共培养)中都产生了乙醇和甘油,其最大浓度分别约为2.3g/L和0.6g/L。发酵48小时后检测到22种挥发性化合物,单一接种和共培养之间差异很大。在单一接种和共培养中都检测到了2 - 苯乙醇、1 - 丁醇、3 - 甲基(异戊醇)和乙偶姻。这项研究表明,酵母和LAB的共培养能够通过降低pH值来改善最终产品的香气特征和产品安全性。
