New genetic insights to consider coffee waste as feedstock for fuel, feed, and chemicals

R. Summers, Sridhar Gopishetty, S. Mohanty, M. Subramanian
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引用次数: 16

Abstract

Caffeine is a natural plant product found in many drinks, including coffee, tea, soft and energy drinks. Due to caffeine’s presence in the environment, microorganisms have evolved two different mechanisms to live on caffeine. The genetic maps of the caffeine N-demethylation pathway and C-8 oxidation pathway have been discovered in Pseudomonas putida CBB5 and Pseudomonas sp. CBB1, respectively. These genes are the only characterized bacterial caffeine-degrading genes, and may be of great value in producing fine chemicals, biofuels, and animal feed from coffee and tea waste. Here, we present preliminary results for production of theobromine and 7-methylxanthine from caffeine and theobromine, respectively, by two strains of metabolically engineered E. coli. We also demonstrate complete decaffeination of tea extract by an immobilized mixed culture of Klebsiella and Rhodococcus cells. These processes provide a first level demonstration of biotechnological utilization of coffee and tea waste.
新的遗传学见解考虑咖啡废料作为燃料,饲料和化学品的原料
咖啡因是一种天然植物产物,存在于许多饮料中,包括咖啡、茶、软饮料和能量饮料。由于咖啡因在环境中的存在,微生物进化出了两种不同的机制来依靠咖啡因生存。在恶臭假单胞菌CBB5和假单胞菌sp. CBB1中分别发现了咖啡因n -去甲基化途径和C-8氧化途径的遗传图谱。这些基因是唯一已知的细菌咖啡因降解基因,可能在从咖啡和茶叶废料中生产精细化学品、生物燃料和动物饲料方面具有重要价值。在这里,我们介绍了两株代谢工程大肠杆菌分别从咖啡因和可可碱生产可可碱和7-甲基黄嘌呤的初步结果。我们还展示了通过克雷伯氏菌和红球菌细胞的固定化混合培养完全脱咖啡因的茶提取物。这些过程提供了咖啡和茶废物生物技术利用的第一级示范。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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