高产岩藻黄素的海洋硅藻筛选及光照条件优化

STRAIN AND LIGHT SELECTION IMPROVED FUCOXANTHIN CONTENT IN THE DIATOM

  • 摘要: 为提高岩藻黄素(Fucoxanthin)提取效率, 对16株海洋硅藻岩藻黄素的检测含量和实际含量进行了分析, 并以一株牟氏角刺藻(Chaetoceros muelleri)为对象, 研究了岩藻黄素与另外两种关键光合色素(即叶绿素aβ-胡萝卜素)的含量及其消长受光强和光质影响的特征。研究结果显示, 不同种或同种不同株的海洋硅藻, 在相同的培养条件、收获时期、提取方法下, 其提取率差异大, 可从不足1%到89.78%; 岩藻黄素的检出含量各异, 从0.03到5.02 mg/g。受不同光照强度低: 50 μmol/(m2·s); 中: 100 μmol/(m2·s); 高: 200 μmol/(m2·s)和光质(红光、蓝光)的影响, 岩藻黄素产量呈现不同特征。在低光照强度下, 单位细胞岩藻黄素的含量相对较高。在红光条件下, 岩藻黄素的产量高于蓝光。在相同光强条件下, 岩藻黄素含量随增殖周期变化; 在单色光质条件下, 几种光合色素均在生长平台期后期含量增加。岩藻黄素的含量变化与叶绿素aβ-胡萝卜素的含量及其消长关系密切。研究为筛选藻株、优化硅藻培养条件以累积岩藻黄素提供了参考。

     

    Abstract: Fucoxanthin is a specific marine carotenoid with extensive bioactivities. Diatom is considered a potential industrial resource due to its rich fucoxanthin. The focus of commercialization is to establish high-yield strains and related extraction and culture accumulation conditions, but there is still lack of intensive understandings. This study selected the strain of Chaetoceros muelleri from 16 strains of marine diatom culture stock by comparing fucoxanthin content (ranged from 0.03 mg/g to 5.02 mg/g) and extraction efficiency (ranged from 1% to 89.78%). The experiment showed that, first, fucoxanthin changed strongly under different light intensities low: 50 μmol/(m2·s); medium: 100 μmol/(m2·s); high: 200 μmol/(m2·s), the highest content was obtained under low light intensity. Second, fucoxanthin content was higher in red light than in the blue light. Third, the change of fucoxanthin content is closely related with chlorophyll a and β-carotene. Under monochromatic light condition, the content of these photosynthetic pigments increased at late growth stage. These results indicated that strain and light selection can greatly increase the yield of fucoxanthin in the diatom.

     

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