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甘蔗叶多糖的分离纯化及其体外活性分析
引用本文:韦巧艳,严德林,陈远菲,苏喜德,赵海燕,覃逸明. 甘蔗叶多糖的分离纯化及其体外活性分析[J]. 安徽农业大学学报, 2022, 49(6): 1022
作者姓名:韦巧艳  严德林  陈远菲  苏喜德  赵海燕  覃逸明
作者单位:广西科技师范学院食品与生化工程学院,来宾 546199;广西来宾湘桂糖业有限责任公司,来宾 546199
基金项目:2020年度广西科技师范学院大学生科研基金项目(GXKS2020DXSB10), 广西糖资源工程技术研究中心(桂科AD16450040), 广西高校制糖工程综合技术重点实验室培育建设(桂教科研[2016]6号)和广西科技师范学院糖蔗资源绿色高效技术开发与应用青年科研创新团队项目(GXKS2020QNTD01)共同资助。
摘    要:以甘蔗叶为原料,采用机械力辅助超声法提取甘蔗叶粗多糖。经除蛋白、除色素、除小分子杂质等预处理后,用DEAE-52纤维素离子柱及DEAE-琼脂糖凝胶FF离子柱对甘蔗叶粗多糖进行分离纯化,得到SCLP-1和SCLP-5两种甘蔗叶纯多糖,并对其红外吸收特征、抑菌性能和抗氧化性能进行进一步研究。结果表明:甘蔗叶粗多糖提取率为1.8%,除蛋白率为39.8%,除蛋白过程多糖保留率为58.6%,除色素率为67.9%;除色素过程的多糖保留率为60.2%,除小分子杂质过程的多糖保留率为96.8%。红外光谱扫描结果显示, SCLP-1和SCLP-5这两种甘蔗叶纯多糖均具有多糖特征吸收峰;抗氧化试验结果显示,SCLP-5的抗氧化能力略高于SCLP-1的抗氧化性但均低于VC;抑菌试验结果显示,两种纯化组分对大肠杆菌和金黄色葡萄球菌均有良好的抑制作用,且对大肠杆菌的抑制效果优于金黄色葡萄球菌。

关 键 词:甘蔗叶;多糖;分离纯化;抗氧化;抑菌性;红外光谱

Isolation, purification and in vitro activity analysis of polysaccharides from sugarcane leaves
WEI Qiaoyan,YAN Delin,CHEN Yuanfei,SU Xide,ZHAO Haiyan,QIN Yiming. Isolation, purification and in vitro activity analysis of polysaccharides from sugarcane leaves[J]. Journal of Anhui Agricultural University, 2022, 49(6): 1022
Authors:WEI Qiaoyan  YAN Delin  CHEN Yuanfei  SU Xide  ZHAO Haiyan  QIN Yiming
Affiliation:College of Food & Biochemical Engineering, Guangxi Science & Technology Normal University, Laibin 546199;Guangxi Laibin Xianggui Sugar Industry Co., Ltd., Laibin 546199
Abstract:In this paper, the crude polysaccharides from sugarcane leaves were extracted by mechanical force assisted ultrasonic method. After deproteinization, decolorization and removal of small molecular impurities, the produced crude polysaccharide extracts were purified by DEAE-52 cellulose ion column and DEAE-Sepharose fast flow chromatography to obtain two fractions, SCLP-1 and SCLP-5. The infrared absorption characteristics, antibacterial and antioxidant properties of SCLP-1 and SCLP-5 were further studied, and the results showed that the extraction rate of crude polysaccharides from sugarcane leaves was 1.8%, the protein removal rate was 39.8%, and the decolorization rate was 67.9%; the polysaccharide retention rates of the two processes were 58.6% and 60.2%, respectively, while the polysaccharide retention rate of the process of removing small molecular impurities was 96.8%. Infrared (IR) spectroscopy analysis showed that both SCLP-1 and SCLP-5 exhibited typical absorption peaks of polysaccharides; the results of in vitro antioxidant test showed that the antioxidant activity of SCLP-5 was slightly higher than that of SCLP-1, but lower than VC; the results of bacteriostasis test showed that both SCLP-1 and SCLP-5 have antibacterial activity against Escherichia coli and Staphylococcus aureus, especially for E. coli.
Keywords:sugarcane leaves   polysaccharides   separation and purification   antioxidation   antibacterial activity   infrared (IR) spectroscopy
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