The Development of Novel Edible Films from Single-Cell Protein Produced by the Biotechnological Valorization of Cheese Whey

D. I. Koukoumaki, S. Papanikolaou, Zacharias Ioannou, K. Gkatzionis, D. Sarris
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Abstract

The production of value-added products from microorganisms, such as single-cell protein (SCP), through the valorization of agricultural byproducts enhances circular economy while offering alternative solutions for waste treatment. In this study, SCP was obtained through the biotechnological treatment and valorization of cheese whey, the main byproduct of the dairy industry, for the development of novel edible films. To the best of the authors’ knowledge, this is the first report examining SCP as a biopolymer for edible film production. Specifically, Kluyveromyces marxianus, which has gained QPS and GRAS status, strain EXF-5288 cultivated in deproteinized cheese whey (DCW) lactose (10.0 g/L) in a 3 L fed-batch bioreactor, resulting in a SCPmax of 2.63 g/L with a protein content of up to 49.1% w/w. The addition of increased glycerol concentrations (30, 40, and 50% w/w of dry cells) as plasticizers was examined to develop SCP-based edible films. Regarding physicochemical characterization, increased glycerol concentration significantly increased moisture content (MC%) and solubility (S%), but there was not a significant difference in other parameters. Regarding wettability, SCP-based films could be described as oleophilic surfaces since the degree of oil contact angle (OCA) ranged between 46.7° ± 1.3 and 54.0° ± 0.5. The proposed holistic approach could contribute to the development of sustainable packaging materials through waste treatment.
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利用奶酪乳清生物技术增值产生的单细胞蛋白开发新型食用薄膜
通过对农业副产品进行增值,利用微生物生产出单细胞蛋白(SCP)等增值产品,在为废物处理提供替代解决方案的同时,也促进了循环经济的发展。在这项研究中,通过对乳制品行业的主要副产品奶酪乳清进行生物技术处理和增值,获得了单细胞蛋白,用于开发新型可食用薄膜。据作者所知,这是第一份将 SCP 作为生物聚合物用于可食用薄膜生产的报告。具体而言,已获得 QPS 和 GRAS 认证的 Kluyveromyces marxianus 菌株 EXF-5288 在 3 升喂料批次生物反应器中以去蛋白干酪乳清(DCW)乳糖(10.0 克/升)为培养基,产生的 SCP 最大值为 2.63 克/升,蛋白质含量高达 49.1% w/w。为了开发基于 SCP 的可食用薄膜,研究了添加更高浓度的甘油(干细胞重量的 30%、40% 和 50%)作为增塑剂的方法。在理化特性方面,甘油浓度的增加显著提高了含水量(MC%)和溶解度(S%),但其他参数没有明显差异。在润湿性方面,由于油接触角(OCA)介于 46.7° ± 1.3 和 54.0° ± 0.5 之间,因此基于 SCP 的薄膜可被称为亲油表面。所提出的整体方法有助于通过废物处理开发可持续包装材料。
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