添加碳酸钙后螺旋藻中钙元素的分布及主要生化组成的变化

CORC > 集美大学

	添加碳酸钙后螺旋藻中钙元素的分布及主要生化组成的变化
	郑江 ; 高亚辉 ; 韦青阳 ; 欧阳丽佳 ; 唐川宁 ; 谢明艺
刊名	http://epub.edu.cnki.net/grid2008/brief/detailj.aspx?filename=zsck200405013&dbcode=CJFQ&dbname=CJFQ2004
	2012-06-05 ; 2012-06-05
关键词	碳酸钙螺旋藻生化组成 CaCO3 Spirulina biochemical components Q946.91
其他题名	Distribution of calcium and changes of main biochemical components in Spirulina after adding CaCO3
中文摘要	通过向螺旋藻培养液中添加固体CaCO3粉末的方法,获得了富钙螺旋藻样品。采用原子吸收光谱法对螺旋藻的细胞壁和生化组分进行钙含量分析,结果表明,细胞壁在钙的富集过程中起了决定性的作用,螺旋藻细胞吸收富集的钙中,约有96%结合在细胞壁上;而糖类物质在有机钙的形成方面起了较为主要的作用,约有88%的有机钙与糖类物质结合,螺旋藻的生物富钙机制可能主要依靠细胞壁的吸附作用以及糖类物质的离子交换和主动运输来实现。对螺旋藻的生化分析显示,螺旋藻富集钙后,糖和蛋白质含量有所下降,而叶绿素a和类胡萝卜素含量则有较大地提高,前者可能与细胞壁的通透性及钙信号的刺激有关,后者则可能与螺旋藻自身的适应性调节作用有关。; As a kind of prokaryotic algae, Spirulina not only has very high nutrition value, but also can bio-accumulate many kinds of elements, such as Se, I, Cu, Fe, Mn and Zn. So the researches on its bio-accumulation have drawn much attention. Although the products of selenium-rich Spirulina and iodine-rich Spirulina have been developed, the studies on calcium-rich Spirulina and its bio-accumulation for calcium have not been specially reported so far. The Ca-rich Spirulina was attained by adding solid powder CaCO3 to the Zarrouk culture of Spirulina. Then the cell wall was separated by the method of SHENG Xue-feng’s, and its calcium content and total calcium content were analyzed by atom absorption spectrum. The results showed that about 96% calcium accumulated by Spirulina was combined with cell wall. It was proved that the cell wall of Spirulina played a critical role in procedure of calcium accumulation. We also extracted the different biochemical components in the Ca-rich Spirulina. Inorganic calcium components were separated by the method of TANG Xiu-mei’s, and the sacchrides were extracted by hot-water-extraction method; the lipids were attained by the improved method of Beigh and Dyer’s, and the proteins were separated by the method of WANG Da-zhi’s. The actual procedures were described as below. The powder of Ca-riched Spirulina was divided into two sections. One was used to measure the total calcium content. The other was socked in 6% trichloroacetic acid（TCA） for 3-5 min, then centrifugated at 4 000 r/min. The liquid of inorganic component was discarded. The deposit was thought as the organic component after it was socked and centrifugated for three times. Then a little of water was added （into） it and NaOH was used to increase its pH to 7. The deposit was extracted in boiled water for 1 h, and TCA was added to deposit proteins. After it was centrifugated at 4 000 r/min, the liquid upside was the sacchride component. The lipids could be extracted from the rest deposit by adding the cool mixture of chloroform and methanol（v/v=11）. The last deposit was protein. The calcium contents of all the components can be analyzed by atom absorption spectrum. The control was dealt with by the same procedure. By comparing the calcium contents of different chemical components in Ca-rich Spirulina with that of control, it can be found that saccharide played a primary role in forming the organic calcium, of which about 88% was linked to saccharide. So the calcium bio-accumulation by Spirulina could probably depend on the adsorption of cell wall as well as the exchange with ions and active transportation of saccharide. Biochemical analysis of Ca-rich Spirulina showed that the contents of sugar and protein decreased, while chlorophyll a and carotenoid contents increased much. The decreases of sugar and protein might be related to the penetration of cell wall and the stimulation of Ca signal. The increases of chlorophyll a and carotenoid could be a sor; 【作者单位】集美大学水产学院；厦门大学生命科学学院；厦门大学生命科学学院福建厦门361021 厦门大学生命科学学院；福建厦门 3 61 0 0 5；福建厦门361005；福建厦门361021；福建厦门361005；【作者英文名】ZHENG Jiang~(1,2), GAO Ya-hui~2, WEI Qing-yang,OUYANG Li-jia~2,TANG Chuan-ning~2, XIE Ming-yi~2 (1 Fisheries College, Jimei University, Xiamen 361021, China; 2 School of Life Science, Xiamen University, Xiamen 361005, China)
语种	中文
内容类型	期刊论文
源URL	[http://ir.calis.edu.cn/hdl/235041/12472]
专题	集美大学
推荐引用方式 GB/T 7714	郑江,高亚辉,韦青阳,等. 添加碳酸钙后螺旋藻中钙元素的分布及主要生化组成的变化[J]. http://epub.edu.cnki.net/grid2008/brief/detailj.aspx?filename=zsck200405013&dbcode=CJFQ&dbname=CJFQ2004,2012, 2012.
APA	郑江,高亚辉,韦青阳,欧阳丽佳,唐川宁,&谢明艺.(2012).添加碳酸钙后螺旋藻中钙元素的分布及主要生化组成的变化.http://epub.edu.cnki.net/grid2008/brief/detailj.aspx?filename=zsck200405013&dbcode=CJFQ&dbname=CJFQ2004.
MLA	郑江,et al."添加碳酸钙后螺旋藻中钙元素的分布及主要生化组成的变化".http://epub.edu.cnki.net/grid2008/brief/detailj.aspx?filename=zsck200405013&dbcode=CJFQ&dbname=CJFQ2004 (2012).