排序方式: 共有3条查询结果,搜索用时 0 毫秒
1
1.
Algal biotechnology has advanced greatly in the past three decades. Many microalgae are now cultivated to produce bioactive substances. Odontella aurita is a marine diatom industrially cultured in outdoor open ponds and used for human nutrition. For the first time, we have systematically investigated the effects of culture conditions in cylindrical glass columns and fiat-plate photobioreactors, including nutrients (nitrogen, phosphorus, silicon, and sulfur), light intensity and light path, on O. aurita cell growth and biochemical composition (protein, carbohydrate, β-1,3-glucan, lipids, and ash). The optimal medium for photoautotrophic cultivation of O. aurita contained 17.65 mmol/L nitrogen, 1.09 mmol/L phosphorus, 0.42 mmol/L silicon, and 24.51 mmol/L sulfur, yielding a maximum biomass production of 6.1-6.8 g/L and 6.7-7.8 g/L under low and high light, respectively. Scale-up experiments were conducted with fiat-plate photobioreactors using different light-paths, indicating that a short light path was more suitable for biomass production of O. aurita. Analyses of biochemical composition showed that protein content decreased while carbohydrate (mainly composed of 15-1,3-glucan) increased remarkably to about 50% of dry weight during the entire culture period. The highest lipid content (19.7% of dry weight) was obtained under 0.11 mmol/L silicon and high light conditions at harvest time. Fatty acid profiles revealed that 80% were Cx4, C~6, and C20, while arachidonic acid and eicosapentaenoic acid (EPA) accounted for 1.6%-5.6% and 9%-20% of total fatty acids, respectively. High biomass production and characteristic biochemical composition profiles make O. aurita a promising microalga for the production ofbioactive components, such as EPA and D-1,3-glucan. 相似文献
2.
利用添加0.5mg.L-1硒的人工海水(ASW)培养基培养紫球藻Porphyridium sp.UTEX 637,并采用试剂盒、氯化硝基四氮唑蓝(NBT)光化学还原反应法、紫外分光光度法、硫代巴比妥酸(TBA)分析法测定谷胱甘肽过氧化物酶(GSH-Px)、超氧化物歧化酶(SOD)和过氧化氢酶(CAT)的活性及丙二醛(MDA)的含量,着重探讨硒对紫球藻抗氧化酶活性及丙二醛含量的影响。结果表明,硒明显促进紫球藻细胞的GSH-Px活性(p<0.05)。加硒处理组和未加硒对照组紫球藻的GSH-Px活性均在第15天达到最高;加硒组紫球藻的最大酶活性达到4.31个酶活力单位(U),为对照组的1.31倍。SOD和CAT的活性分别在第18天和15天达到最大值,但加硒组与对照组之间差异不显著(p>0.05),说明0.5mg.L-1硒对紫球藻的SOD和CAT活性影响不明显。加硒能明显降低藻细胞丙二醛的含量,加硒组藻细胞的丙二醛含量比对照组藻细胞的丙二醛含量降低了15.21%。 相似文献
3.
以Pinguiococcuspyrenoidosus CCMP 2004为实验藻种,研究分析了藻粉的基本生化组成和培养周期中PUFAs组成与含量的动态变化.结果表明,该藻的蛋白质量分数为37.54%,粗脂肪为27.45%,其中PUFAs包括18:2,18:3,18:4,20:4(AA,Arachidonic acid),20:5(EPA,Eicosapentaenoic acid),22:4(DTA,Docosatetraenoic acid)和22:6(DHA,Docosahexaenoic acid).该藻PUFAs的组成特征是EPA含量高,质量分数为20.93%,其他不饱和脂肪酸(16 : 3,16:4,18:3和18 : 4)的含量极微.分析结果显示粉核油球藻的营养价值较高,是一种新的具有商业化开发潜力的海洋微藻. 相似文献
1