[Objective] The aim of this study was to develop a simple and effective method for the polysaccharide extraction from Spirulina. [Method] The polysaccha- rides were directly extracted from the fresh algae mat or dry p...[Objective] The aim of this study was to develop a simple and effective method for the polysaccharide extraction from Spirulina. [Method] The polysaccha- rides were directly extracted from the fresh algae mat or dry powder of Spirulina in boiling water. The contents and quality of the extracted polysaccharides were measured. [Result] On average, 236.06 g of polysaccharide was extracted from 25 kg of fresh Spirulina mat, with a yield rate of 0.94%, while 191.95 g of polysac- charide was extracted from 2.5 kg of dry powder of Spirulina with a yield rate of 0.77%. The polysaccharide content in the extract of fresh Spirulina mat was 12.56% (according to glucose content), while that of the dry powder was 12.38% (according to glucose content); the glucose was produced during the hydrolysis of Spirulina polysaccharide. [Conclusion] Extraction polysaccharide from Spirulina with boiling wa- ter greatly reduces the use of ethanol, and the possibility of pollution from the ex- ogenous non-food chemical reagents, so that the extracted polysaccharides can be used as food materials. This method makes it possible to establish the production line for Spirulina polysaccharide.展开更多
文摘[Objective] The aim of this study was to develop a simple and effective method for the polysaccharide extraction from Spirulina. [Method] The polysaccha- rides were directly extracted from the fresh algae mat or dry powder of Spirulina in boiling water. The contents and quality of the extracted polysaccharides were measured. [Result] On average, 236.06 g of polysaccharide was extracted from 25 kg of fresh Spirulina mat, with a yield rate of 0.94%, while 191.95 g of polysac- charide was extracted from 2.5 kg of dry powder of Spirulina with a yield rate of 0.77%. The polysaccharide content in the extract of fresh Spirulina mat was 12.56% (according to glucose content), while that of the dry powder was 12.38% (according to glucose content); the glucose was produced during the hydrolysis of Spirulina polysaccharide. [Conclusion] Extraction polysaccharide from Spirulina with boiling wa- ter greatly reduces the use of ethanol, and the possibility of pollution from the ex- ogenous non-food chemical reagents, so that the extracted polysaccharides can be used as food materials. This method makes it possible to establish the production line for Spirulina polysaccharide.
