School of Agricultural Engineering and Food Science, Shandong University of Technology, Zibo, 255049, Shandong, China.
Appl Biochem Biotechnol. 2022 Apr;194(4):1496-1509. doi: 10.1007/s12010-021-03727-1. Epub 2021 Nov 11.
Apple pomace (AP) is often used directly as animal feed, while the value of feeding is limited by its low protein content. In this study, extrusion pretreatment was performed for AP, and further fermentation was carried out to improve its nutrition value. Strains suitable for extruded apple pomace (EAP) to produce high-quality microbial protein (MP) feed were screened from 12 different strains. Results showed that Aspergillus niger 3.324 (Asn), Candida utilis1314 (Cau), Geotrichum candidum 1315 (Gec), Bacillus subtilis A308 (Bas1), and Lactic acid bacteria (Lac) were screened as the dominant strains, which exhibited higher feeding value. Strong symbiotic effect was observed in fermentation with mixed strains of Asn, Cau, Gec, and Lac at the ratio of 1:1:1:1. Compared with AP, the pure protein content in the optimized fermented EAP (FEAP) was increased by 138% accompanying with a pleasant flavor and taste. And its pure protein content was increased by 19.20% in comparison to that of the fermented apple pomace. The nutrition value of FEAP was characterized by amino acid profiles; it found that FEAP was comparable to other commercial proteins with higher contents of histidine, phenylalanine, threonine, and valine. Combination of fermentation and extrusion technology significantly enhanced pure protein content and nutritional composition of apple pomace, which was revalorized as a nutritive animal feed rich in microbial protein.
苹果渣(AP)常被直接用作动物饲料,但由于其蛋白质含量低,其饲用价值有限。本研究对 AP 进行挤压预处理,然后进行发酵,以提高其营养价值。从 12 种不同的菌株中筛选出适合挤压苹果渣(EAP)生产高质量微生物蛋白(MP)饲料的菌株。结果表明,筛选出的黑曲霉 3.324(Asn)、产朊假丝酵母 1314(Cau)、近平滑假丝酵母 1315(Gec)、枯草芽孢杆菌 A308(Bas1)和乳酸菌(Lac)为优势菌株,具有较高的饲用价值。Asn、Cau、Gec 和 Lac 混合菌株发酵具有较强的共生效应,比例为 1:1:1:1。与 AP 相比,优化发酵后的 EAP(FEAP)的纯蛋白含量增加了 138%,具有宜人的风味和口感。与发酵苹果渣相比,其纯蛋白含量增加了 19.20%。FEAP 的营养价值由氨基酸谱来表征;发现 FEAP 与其他商业蛋白质相当,具有较高的组氨酸、苯丙氨酸、苏氨酸和缬氨酸含量。发酵与挤压技术的结合显著提高了苹果渣的纯蛋白含量和营养成分,将其重新开发为富含微生物蛋白的营养动物饲料。
