雨生红球藻通过D1蛋白周转和叶黄素循环保护自身免受强光伤害。
H. pluvialis could protect itself against strong irradiance through the D1 protein repair cycle and the xanthophyll cycle.
单独添加维生素B_1、B_(12)和H能够促进雨生红球藻虾青素含量增加。
Astaxanthin content of H. pluvialis was accelerated significantly by adding of Vitamin-B_1, Vitamin-B_(12) and Vitamin-H.
在用环形培养池模拟系统培养雨生红球藻的过程中,研究了温度对雨生红球藻生物量及虾青素产量的影响。
The effects of temperature on the biomass, astaxanthin yield and astaxanthin content of Haematococcus pluvialis cultured in imitation system of circular pond has been investigated.
结果表明:单独添加维生素B_1、B_(12)和H均对雨生红球藻游动细胞的生长有明显的促进作用。
The results indicated that: The growth of H. pluvialis was improved significantly by adding of Vitamin-B_1, Vitamin-B_(12) and Vitamin-H respectively, together two kinds or together three kinds.
最后,对雨生红球藻粉进行了卫生安全性和毒理学评价,为雨生红球藻在动物和人体中的抗氧化作用的研究提供了第一手资料。
Finally, the assessment on hygiene safety and toxicology were carried out, which provided the directed information for study on astaxanthin antioxidation in animal andhuman further.
在雨生红球藻中,D1蛋白周转是最主要的光保护机制,在绿色细胞中它的运转能减轻光抑制程度达49%,在红色细胞中为53~55%。
The D1 protein repair cycle was the most important protective mechanism in H. pluvialis and its operation could alleviate the photoinhibition by 49% in green cells and 53-55% in red cells.
在雨生红球藻中,D1蛋白周转是最主要的光保护机制,在绿色细胞中它的运转能减轻光抑制程度达49%,在红色细胞中为53~55%。
The D1 protein repair cycle was the most important protective mechanism in H. pluvialis and its operation could alleviate the photoinhibition by 49% in green cells and 53-55% in red cells.
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