Colautti Andrea, Orecchia Elisabetta, Coppola Francesca, Iacumin Lucilla, Comi Giuseppe
Department of Agricultural, Food, Environmental and Animal Science, University of Udine, Via Sondrio 2/a, 33100 Udine, Italy.
Food Sciences Institute, National Research Council, Via Roma, 64, 83100 Avellino, Italy.
Foods. 2024 Jul 27;13(15):2381. doi: 10.3390/foods13152381.
A single strain of yeast was isolated from industrial gluten bread (GB) purchased from a local supermarket. This strain is responsible for spoilage consisting of white powdery and filamentous colonies due to the fragmentation of hyphae into short lengths (dust-type spots), similar to the spoilage produced by chalk yeasts such as , and . The isolated strains were identified initially by traditional methods as , but with genomic analysis, they were definitively identified as , a rare ascomycetous opportunistic yeast species with low virulence attributes, uncommonly implicated in bread spoilage. However, these results demonstrate that this strain is phenotypically similar to . grew in GB because of its physicochemical characteristics which included pH 5.34, Aw 0.97 and a moisture of about 50.36. This spoilage was also confirmed by the presence of various compounds typical of yeasts, derived from sugar fermentation and amino acid degradation. These compounds included alcohols (ethanol, 1-propanol, isobutyl alcohol, isoamyl alcohol and n-amyl alcohol), organic acids (acetic and pentanoic acids) and esters (Ethylacetate, n-propil acetate, Ethylbutirrate, Isoamylacetate and Ethylpentanoate), identified in higher concentrations in the spoiled samples than in the unspoiled samples. The concentration of acetic acid was lower only in the spoiled samples, but this effect may be due to the consumption of this compound to produce acetate esters, which predominate in the spoiled samples.
从当地超市购买的工业面筋面包(GB)中分离出单一酵母菌株。该菌株会导致变质,产生白色粉状和丝状菌落,这是由于菌丝断裂成短段(粉尘状斑点)所致,类似于由白垩酵母如[具体酵母名称1]、[具体酵母名称2]和[具体酵母名称3]产生的变质情况。最初通过传统方法将分离出的菌株鉴定为[初始鉴定名称],但经基因组分析,最终确定为[最终鉴定名称],这是一种罕见的具有低毒力属性的子囊菌机会性酵母物种,很少与面包变质有关。然而,这些结果表明该菌株在表型上与[对比酵母名称]相似。[目标酵母名称]能在GB中生长是因为其理化特性,包括pH值5.34、水分活度0.97和约50.36%的湿度。酵母糖发酵和氨基酸降解产生的各种典型化合物的存在也证实了这种变质。这些化合物包括醇类(乙醇、1-丙醇、异丁醇、异戊醇和正戊醇)、有机酸(乙酸和戊酸)和酯类(乙酸乙酯、正丙酯、丁酸乙酯、乙酸异戊酯和戊酸乙酯),在变质样品中的浓度高于未变质样品。仅在变质样品中乙酸浓度较低,但这种影响可能是由于该化合物被消耗以产生在变质样品中占主导的乙酸酯。
