萃取(化学)
蛋白核小球藻
估价
细胞破裂
化学
细胞壁
小球藻
食品科学
生物
色谱法
植物
细胞生物学
生物化学
藻类
废物管理
工程类
作者
Yong Deng,Xiaoling Yang,Tianyi Yan,Weidong Xu,Jiaheng Li,Ruihao Niu,Runan Zhao,Han Wang,Hao Wang,Tingting Chen,Mingming Guo,Wenjun Wang,Donghong Liu
标识
DOI:10.1016/j.biortech.2023.129046
摘要
Chlorella pyrenoidosa (CP) has great potential for feeding future demands in food, environment, energy, and pharmaceuticals. To achieve this goal, the exploitation of emerging efficient technique such as ultrasound-assisted extraction (UAE) for CP nutrient enrichment is crucial. Here, UAE is deployed for high-efficient CP protein (CPP) valorisation. Compared to conventional solvent extraction (CSE), remarkable mass transfer enhancements with 9-time protein yields and 3-time extraction rate are achieved by ultrasonic cavitation in UAE, indicating UAE can drastically shift intracellular nutrients including proteins and pigments to solvent. Cell morphology and ultrastructure show the different responses of cell wall and membrane, indicating that the cell membrane may play a role in the extraction process, based on which the extremely-low efficiency of CSE and high efficiency of UAE are highlighted. This study provides a solution for future food crisis by extracting CPP and may open a new discussion field in ultrasonic extraction.
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