Jia-Fan Qiu, Yu-Cheng Yang, Ruo-Yu Li, Yu-Hu Jiao, Jin-Hua Mou, Wei-Dong Yang, Carol Sze Ki Lin, Hong-Ye Li, Xiang Wang
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引用次数: 0
摘要
为了提高血球藻的生物量和虾青素产量,满足市场对虾青素的高需求,本研究采用两种典型的、可忽略的植物激素(即白藜芦醇和儿茶酚)对血球藻进行分步处理。结果发现,白藜芦醇(200 μmol)和儿茶酚(100 μmol)混合处理和连续处理的虾青素含量最高,分别为 33.96 mg/L 和 42.99 mg/L。与杂交处理相比,采用序贯策略的 H. pluvialis 的生理数据显示,RuBisCO 通过卡尔文循环提高光合作用性能,改善了大水螅期的生物量积累;同时,在血囊期,ROS 的过度产生借助 NADPH 的过度产生提高了虾青素的产生。总之,本研究加深了人们对植物激素在提高 H. pluvialis 藻生物量和虾青素方面的影响的认识,为推进基于微藻的生物炼制提供了宝贵的见解。
Synergistic and stepwise treatment of resveratrol and catechol in Haematococcus pluvialis for the overproduction of biomass and astaxanthin
To increase the production of biomass and astaxanthin from Haematococcus pluvialis to meet the high market demand for astaxanthin, this study recruited two typical and negligible phytohormones (namely resveratrol and catechol) for the stepwise treatments of H. pluvialis. It was found that the hybrid and sequential treatments of resveratrol (200 μmol) and catechol (100 μmol) had achieved the maximum astaxanthin content at 33.96 mg/L and 42.99 mg/L, respectively. Compared with the hybrid treatment, the physiological data of H. pluvialis using the sequential strategy revealed that the enhanced photosynthetic performance via the Calvin cycle by RuBisCO improved the biomass accumulation during the macrozooid stage; meanwhile, the excessive ROS production had occurred to enhance astaxanthin production with the help of NADPH overproduction during the hematocyst stage. Overall, this study provides improved knowledge of the impacts of phytohormones in improving biomass and astaxanthin of H. pluvialis, which shed valuable insights for advancing microalgae-based biorefinery.
期刊介绍:
Biotechnology for Biofuels is an open access peer-reviewed journal featuring high-quality studies describing technological and operational advances in the production of biofuels, chemicals and other bioproducts. The journal emphasizes understanding and advancing the application of biotechnology and synergistic operations to improve plants and biological conversion systems for the biological production of these products from biomass, intermediates derived from biomass, or CO2, as well as upstream or downstream operations that are integral to biological conversion of biomass.
Biotechnology for Biofuels focuses on the following areas:
• Development of terrestrial plant feedstocks
• Development of algal feedstocks
• Biomass pretreatment, fractionation and extraction for biological conversion
• Enzyme engineering, production and analysis
• Bacterial genetics, physiology and metabolic engineering
• Fungal/yeast genetics, physiology and metabolic engineering
• Fermentation, biocatalytic conversion and reaction dynamics
• Biological production of chemicals and bioproducts from biomass
• Anaerobic digestion, biohydrogen and bioelectricity
• Bioprocess integration, techno-economic analysis, modelling and policy
• Life cycle assessment and environmental impact analysis
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