混合营养体
生物量(生态学)
化学
螺旋藻(膳食补充剂)
柠檬酸循环
食品科学
新陈代谢
植物
生物化学
生物
异养
生态学
细菌
有机化学
遗传学
原材料
作者
Pengcheng Li,Zhan Hu,Qingrong Yin,Chunfeng Song
标识
DOI:10.1016/j.scitotenv.2022.159920
摘要
Mixotrophic cultivation was proposed to enhance the biomass and carbon sequestration efficiency of Spirulina in CO2 absorption and microalgae conversion (CAMC) system, and the underlying metabolic mechanism was also explored. The result showed that mixotrophic enhanced the performance of CAMC system, the maximum biomass, total carbon conversion capacity and efficiency was obtained at 0.5 g/L acetate group, which was 60.47 %, 63.06 % and 59.77 % higher than control. Adding 0.5 g/L acetate enhanced the activities of Rubisco and Acetyl-CoA, arrived at 89.59 U/g and 5.16 nmol/g, respectively. Metabolomics analyses suggested that mixotrophic changed metabolic flux and affected intracellular composition. Mixotrophic up-regulated Calvin cycle, glycolysis, and tricarboxylic acid (TCA) cycle, induced more carbon fluxes into central carbon metabolism for the growth of Spirulina. These results suggested that mixotrophic could supply effective energy and carbon skeleton for rapid growth of Spirulina, and provided a theoretical basis for large-scale application of CAMC system.
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