Biosynthesis of artificial starch and microbial protein from agricultural residue

化学 纤维素酶 酶水解 食品科学 纤维素乙醇 淀粉 纤维素 纤维二糖 残留物(化学) 玉米秸秆 生物化学 水解
作者
Xinxin Xu,Wei Zhang,Chun You,Chao Fan,Wangli Ji,Jong‐Tae Park,Jiyun Kwak,Hongge Chen,Y.‐H. Percival Zhang,Yanhe Ma
出处
期刊:Science Bulletin [Elsevier BV]
卷期号:68 (2): 214-223 被引量:31
标识
DOI:10.1016/j.scib.2023.01.006
摘要

Growing populations and climate change pose great challenges to food security. Humankind is confronting a serious question: how will we feed the world in the near future? This study presents an out-of-the-box solution involving the highly efficient biosynthesis of artificial starch and microbial proteins from available and abundant agricultural residue as new feed and food sources. A one-pot biotransformation using an in vitro coenzyme-free synthetic enzymatic pathway and baker's yeast can simultaneously convert dilute sulfuric acid-pretreated corn stover to artificial starch and microbial protein under aerobic conditions. The β-glucosidase-free commercial cellulase mixture plus an ex vivo two-enzyme complex containing cellobiose phosphorylase and potato α-glucan phosphorylase displayed on the surface of Saccharomyces cerevisiae, showed better cellulose hydrolysis rates than a commercial β-glucosidase-rich cellulase mixture. This is because the channeling of the hydrolytic product from the solid cellulosic feedstock to the yeast mitigated the inhibition of the cellulase cocktail. Animal tests have shown that the digestion of artificial amylose results in slow and relatively small changes in blood sugar levels, suggesting that it could be a new health food component that prevents obesity and diabetes. A combination of the utilization of available agricultural residue and the biosynthesis of starch and microbial protein from non-food biomass could address the looming food crisis in the food-energy-water nexus.
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