原位生物转化法提高槐角中染料木素的含量

陈翔; 王萍萍; 吴霞; 陈才军; 李彬; 梅建凤<sup>*</sup>

引用本文:	陈翔,王萍萍,吴霞,陈才军,李彬,梅建凤.原位生物转化法提高槐角中染料木素的含量[J].中国现代应用药学,2020,37(18):2201-2205.
	CHEN Xiang,WANG Pingping,WU Xia,CHEN Caijun,LI Bin,MEI Jianfeng.Improvement of Genistein Content in Sophorae Fructus by in Situ Biotransformation[J].Chin J Mod Appl Pharm(中国现代应用药学),2020,37(18):2201-2205.

【打印本页】【HTML】【下载PDF全文】【查看/发表评论】【EndNote】【RefMan】【BibTex】

←前一篇|后一篇→

过刊浏览高级检索

本文已被：浏览 9325次下载 4493次	码上扫一扫！
分享到：微信更多字体:加大+\|默认\|缩小-
原位生物转化法提高槐角中染料木素的含量
陈翔¹, 王萍萍², 吴霞², 陈才军¹, 李彬¹, 梅建凤²
1.舟山市食品药品检验检测研究院, 浙江舟山 316021;2.浙江工业大学药学院, 杭州 310014

摘要:

目的开发一种生物转化工艺，将槐角中的槐角苷等糖苷转化为活性更高的染料木素，从而提高槐角的中药使用价值。方法用米根霉（Rhizopus oryzae）LJH3菌株的粗酶液生物转化处理槐角，考察料液比、体系pH、槐角粒径大小和转化时间对提高槐角中染料木素含量的影响。结果米根霉LJH3的粗酶液转化处理槐角后染料木素含量显著提高。在较优的转化条件下，即料液比5∶100，体系pH 5.0，槐角粒径0.2 mm，30℃条件下转化32 h，染料木素含量提高到36.3 mg·g^-1，较未转化时的含量提高了14.5倍。结论利用米根霉LJH3的粗酶液原位生物转化槐角的转化工艺具有方法简单和产率高的优点，有较好的工业化应用价值。

关键词: 染料木素槐角苷槐角生物转化米根霉

DOI：10.13748/j.cnki.issn1007-7693.2020.18.005

分类号:R284.1

基金项目:浙江省食品药品监管系统科技计划项目（2018014）

Improvement of Genistein Content in Sophorae Fructus by in Situ Biotransformation

CHEN Xiang¹, WANG Pingping², WU Xia², CHEN Caijun¹, LI Bin¹, MEI Jianfeng²

1.Zhoushan Institute for Food and Drug Control, Zhoushan 316021, China;2.College of Pharmaceutical Science, Zhejiang University of Technology, Hangzhou 310014, China

Abstract:

OBJECTIVE To develop a biotransformation process to improve the medicinal value of the Chinese herb Sophorae Fructus by converting sophoricoside and other glycosides into genistein. METHODS Sophorae Fructus was treated by biotransformation using crude enzyme from Rhizopus oryzae LJH3. The effects of substrate-enzyme solution ratio, pH, particle size of substrate and conversion time on improving the content of genistein in Sophorae Fructus were investigated. RESULTS The content of genistein in Sophorae Fructus was significantly improved after it was treated with crude enzyme from Rhizopus oryzae LJH3. The optimum biotransformation conditions were as followings:substrate-enzyme solution ratio 5:100, pH 5.0, particle size of substrate 0.2 mm, temperature 30℃ and time 32 h. Under these conditions, the content of genistein in the biotransformed Sophorae Fructus increased to 36.3 mg·g^-1, which was 14.5 times higher than that in the untreated one. CONCLUSION The process by in situ biotransformation of Sophorae Fructus using crude enzyme from Rhizopus oryzae LJH3 has the advantages of simple operations and high productivity, which shows the potential application in the pharmaceutical industry.

Key words: genistein sophoricoside Sophorae Fructus biotransformation Rhizopus oryzae