| 何聪芬,黄爱清,王巧娥,张贵友,余 磊,王洪钟.两种耐热磷酸化酶的构建及高效催化合成红景天苷[J].现代生物医学进展英文版,2019,19(10):1801-1806. |
| 两种耐热磷酸化酶的构建及高效催化合成红景天苷 |
| Efficient Synthesis of Salidroside by Two Kinds of Thermostable Phosphorylases |
| Received:December 08, 2018 Revised:January 10, 2019 |
| DOI:10.13241/j.cnki.pmb.2019.10.001 |
| 中文关键词: 耐热蔗糖磷酸化酶 耐热纤维二糖磷酸化酶 红景天苷 |
| 英文关键词: Thermostable cellobiose phosphorylase Thermostable sucrose phosphorylase Salidroside |
| 基金项目:北京工商大学北京市植物资源研究开发重点实验室开放课题基金资助项目;国家自然科学基金项目(21476124) |
| Author Name | Affiliation | E-mail | | HE Cong-fen | Beijing Key Lab of Plant Resource Research and Development, Beijing Technology and Business University, Beijing, 100048, China | hecf@th.btbu.edu.cn | | HUANG Ai-qing | School of Life Sciences, Tsinghua University, Beijing, 100084, China | | | WANG Qiao-e | Beijing Key Lab of Plant Resource Research and Development, Beijing Technology and Business University, Beijing, 100048, China | | | ZHANG Gui-you | School of Life Sciences, Tsinghua University, Beijing, 100084, China | | | YU Lei | School of Life Sciences, Tsinghua University, Beijing, 100084, China | | | WANG Hong-zhong | School of Life Sciences, Tsinghua University, Beijing, 100084, China | |
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| 中文摘要: |
| 摘要 目的:使用表达耐热蔗糖磷酸化酶的大肠杆菌重组工程菌E. coli BL21/pET-Spase和耐热纤维二糖磷酸化酶的大肠杆菌重组工程菌E. coli BL21/pET-Cpase,发酵培养后粗酶液作为催化剂,以价格低廉的蔗糖为原料合成红景天苷。方法:分别构建耐热蔗糖磷酸化酶和耐热纤维二糖磷酸化酶大肠杆菌重组菌,然后将重组菌、蔗糖、酪醇和磷酸混合,得到反应混合物,使反应混合物在45℃下转化,而产生红景天苷。结果:在耐热蔗糖磷酸化酶酶液1200 U/L、耐热纤维二糖磷酸化酶酶液500 U/L、蔗糖110 g/L、酪醇30 g/L和磷酸50 mM的浓度下,反应条件为pH 7.0、温度45 ℃、转速50转/分、反应时间32小时后,红景天苷浓度达到23.7 g/L。结论:本研究使用蔗糖磷酸化酶和纤维二糖磷酸化酶联合催化的工艺,成功地高收率合成了红景天苷。同时,本研究构建的耐热磷酸化酶酶活高,处理简单,为拓展糖苷类似物的合成提供了一种新的方法。 |
| 英文摘要: |
| ABSTRACT Objective: Thermostable cellobiose phosphorylase and sucrose phosphorylase were produced by recombinant strain E. coli BL21/pET-Spase and E. coliBL21/pET-Cpase. By combined use of these two phosphorylases, salidroside was efficiently synthesized from inexpensive sucrose. Methods: First, thermostable cellobiose phosphorylase and sucrose phosphorylase recombinant strains were constructed. Then two phosphorylases with sucrose, tyrosol and phosphoric acid were combined. Finally, the mixture was reacted and produced salidroside. Results: At optimal conditions, 23.7 g/L of salidroside was formed over 32 h from 1200 U/L thermostable sucrose phosphorylase, 500 U/L thermostable cellobiose phosphorylase, 110 g/L sucrose, 30 g/L Tyrosol and 50 mM phosphoric acid at the pH 7.0 and 45 ℃. Conclusion: In this study, thermostable cellobiose phosphorylase and sucrose phosphorylase were employed as the catalyst, and salidroside was successfully synthesized in high yield. And the thermostable phosphorylases constructed in this study had high activity, which offers a new way to expand the ability of phosphorylases in preparation of β-D-glucosides. |
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