李瑞娟
+
Gender:Female
Paper Publications
- [31] 李爱英. 战“疫”时期“病毒生物学”课程的教学调整与思考. 《微生物学通报》, 2020.
- [32] 宋超逸. RedEx: a method for seamless DNA insertion and deletion in large multimodular polyketide synthase gene clusters. Nucleic Acids Research, 48, 2020.
- [33] liruijuan , zhangyouming , fujun , Xiaoying Bian , liaiying and 李瑞娟. Expressing cytotoxic compounds in Escherichia coli Nissle 1917 for tumor-targeting therapy. RESEARCH IN MICROBIOLOGY, 170, 74, 2019.
- [34] Hailong Wang , liyuezhong , zhangyouming , fujun , luanji , liruijuan , liaiying , shenyuemao and 王海龙. Enhanced heterologous spinosad production from a 79-kb synthetic multi-operon assembly. ACS Synthetic Biology, 2018.
- [35] zhangyouming , liruijuan , Xiaoying Bian , liaiying and 符军. Expressing Cytotoxic Compounds in Escherichia coli Nissle 1917 for Tumor-targeting Therapy. RESEARCH IN MICROBIOLOGY, 2018.
- [36] wangxue , liyuezhong , shenyuemao , zhangyouming , Xiaoying Bian , Liujie Huo , zhouhaibo , jingxiaoshu , liruijuan , fujun and 王雪. Discovery of recombinases enables genome mining of cryptic biosynthetic gene clusters in Burkholderiales species. Proceedings of the National Academy of Sciences of the United States of America, 115, E4255, 2018.
- [37] liyuezhong , luanji , zhangyouming , fujun , Hailong Wang , liruijuan , liaiying , shenyuemao and 宋超逸. Enhanced Heterologous Spinosad Production from a 79-kb Synthetic Multioperon Assembly. ACS Synthetic Biology, 8, 137, 2018.
- [38] liyuezhong , zhangyouming , fujun , luanji , liruijuan , liaiying , shenyuemao and 王海龙. Enhanced heterologous spinosad production from a 79-kb synthetic multi-operon assembly. ACS Synthetic Biology, 2018.
- [39] liyuezhong , zhangyouming , fujun , Hailong Wang , luanji , liruijuan , liaiying , shenyuemao and 宋超逸. Enhanced Heterologous Spinosad Production from a 79-kb Synthetic Multioperon Assembly. ACS Synthetic Biology, 8, 137, 2018.
- [40] shenyuemao , liyuezhong , zhangyouming , fujun , luanji , liruijuan , liaiying and 王海龙. Enhanced heterologous spinosad production from a 79-kb synthetic multi-operon assembly. ACS Synthetic Biology, 2018.