55直播

55直播» 师资队伍» 教师名录» W
W

基本信息

个人简介


学术兼职

中国微生物学会分子微生物学及生物工程专业委员会委员、中国化工学会生物化工青年工作委员会委员

Synthetic and Systems Biotechnology期刊编委

《生物工程学报》期刊编委

《合成生物学》期刊编委

荣誉奖励

第五届中国科协“青年人才托举工程”

第五届“闵恩泽能源化工奖”青年进步奖


研究领域和方向

以天然产物、生物材料等化合物的微生物合成为研究目标,变革传统生产模式,利用代谢工程、合成生物学、酶工程等手段,构建微生物细胞工厂,解决生物合成的关键科学问题,提高生产效率,旨在实现上述高附加值产品的绿色生物制造,推动工业化生产。主要研究包括:

1. 解析天然产物在微生物中的合成途径,实现新化合物的微生物合成

2. 开发高效基因组装和基因组编辑技术

3. 代谢途径构建与调控

4. 开发针对特定化合物的底盘细胞改造技术,构建高效微生物细胞工厂

5. 生物材料的微生物生产

教育背景

2010/09-2015/07:清华大学,生命科学55直播 ,理学博士

2006/09-2010/06:山东大学,生命科学55直播 ,理学学士

工作履历

2024/01 - 至今:55直播-美女直播 ,55直播 ,长聘副教授/特别研究员

2018/05-2023/12: 55直播-美女直播 ,55直播 ,预聘副教授/特别研究员

2016/10-2017/11:美国麻省理工55直播 ,化学工程系,博士后

2015/07-2018/04:55直播-美女直播 ,化学工程与技术,师资博士后

研究成果

主持国家自然科学基金等55直播项目4项、国家重点研发计划子课题2项;参与国家自然科学基金项目、973项目等4项。迄今在Metabolic Engineering, ACS Catalysis, Trends in Biotechnology, Biotechnology Advances等国内外本领域高水平期刊发表学术论文30余篇,获授权发明专利 5项。参编出版《合成生物学》教材,参与出版学术专著4部。

主要55直播 项目

1. 大肠杆菌耐受单萜的动态调控系统建立及产物合成强化,国家自然科学基金面上项目,主持

2. 酵母合成三萜化合物关键酶的量效关系与协同调控,国家自然科学基金面上项目,主持

3. 合成植物天然产物的微生物细胞工厂构建及应用示范,国家重点研发计划,子课题负责人

4. 新天然与人工产物的定向挖掘和高效合成的平台技术,国家重点研发计划,子课题负责人

5. 中国科协“青年人才托举工程”,主持

6. 酵母生产五环三萜类化合物的胞外转运与合成强化,国家自然科学基金青年基金,主持

7. 55直播-美女直播 创新人才专项计划项目,主持

代表性论文

1. Yu Yuan, Rasool Aamir, Liu Haoran, Lv Bo, Chang Pengcheng, Song Hao, Wang Ying*, Li Chun*. Engineering Saccharomyces cerevisiae for High Yield Production of α-amyrin via Synergistic Remodeling of α-amyrin Synthase and Expanding the Storage Pool. Metabolic Engineering, 2020, 62: 72-83 (IF=8.8)

2. Tan Dan#, Wang Ying#, Tong Yi, Chen Guo-Qiang*. Grand Challenges for Industrializing Polyhydroxyalkanoates (PHAs), Trends in Biotechnology, 2021, 39:953-963 (ESI高被引论文,IF=21.9)

3. Sun Wentao, Xue Haijie, Liu Hu, Lv Bo, Yu Yang*, Wang Ying*, Huang Meilan, Li Chun*. Controlling Chemo- and Regioselectivity of a Plant P450 in Yeast Cell toward Rare Licorice Triterpenoid Biosynthesis, ACS Catalysis, 2020, 10: 4253-4260 (IF=13.7)

4. Zhu Ying, Zhou Chen, Liu Xia, Li Xinying, Shi Caifang, Zhang Yapeng, Wang Ying*, Li Chun*. Aided‐efflux and high production of β‐amyrin realized by β‐cyclodextrin in situ synthesized on surface of Saccharomyces cerevisiae, Biotechnology and Bioengineering, 2023, 120: 1147-1158(IF=4.4)

5. Wang Ying, Ling Chen, Chen Yong, Jiang Xiaoran, Chen Guo-Qiang *. Microbial engineering for easy downstream processing. Biotechnology Advances, 2019, 37: 107365 (IF=17.7)

6. Zhang Xu, Lin Yina, Wu Qiong, Wang Ying*, Chen Guo-Qiang*. Synthetic Biology and Genome Editing Tools for Improving PHA Metabolic Engineering, Trends in Biotechnology, 2019, 38: 689-700 (IF=21.9)

7. Li Chenyi#, Gao Xiaopeng#, Peng Xiao, Li Jinlin, Bai Wenxin, Zhong Jiadong, He Mengchao, Xu Ke, Wang Ying*, Li Chun*, Intelligent microbial cell factory with genetic pH shooting (GPS) for cell selfresponsive base/acid regulation. Microbial Cell Factories, 2020, 19: 202 (IF=6.4)

8. Luo Yan, Jiang Yaozhu, Chen Linhao, Li Chun, Wang Ying*. Applications of protein engineering in the microbial synthesis of plant triterpenoids. Synthetic and Systems Biotechnology, 2023, 8: 20-32 (IF=4.7)

9. Zhu Ying, Zhou Chen, Wang Ying*, Li Chun*, Transporter Engineering for Microbial Manufacturing. Biotechnology Journal, 2020, 15, 1900494 (IF=5.7)

10. Alkhadrawi Adham M., Wang Ying*, Li Chun*. In-silico screening of potential target transporters for glycyrrhetinic acid (GA) via deep learning prediction of drug-target interactions. Biochemical Engineering Journal, 2022, 181:108375 (IF=4.4)

11. Jia Nan#, Li Jingzhi#, Zang Guowei, Yu Yuan, Jin Xiaojv, He Yuna, Feng Meilin, Na Xuemei, Wang Ying*, Li Chun*. Engineering Saccharomyces cerevisiae for high-efficient production of ursolic acid via cofactor engineering and acetyl-CoA optimization. Biochemical Engineering Journal, 2024, 109189. (IF=4.4)

12. Li Jinling#, Wang Shuai#, Miao Yinan, Wan Ya, Li Chun*, Wang Ying*. Mining and modification of Oryza sativa-derived squalene epoxidase for improved β-amyrin production in Saccharomyces cerevisiae. Journal of Biotechnology, 2023, 375:1-11(IF=4.1)

13. Wang Ying#, Chung Ahleum#, Chen Guo-Qiang*. Synthesis of medium-chain-length polyhydroxyalkanoate homopolymers, random copolymers, and block copolymers by an engineered strain of Pseudomonas entomophila. Advanced Healthcare Materials, 2017, 6: 1601017 (IF=11.1)

14. Wang Ying, Wu Hong, Jiang Xiaoran, Chen Guo-Qiang*. Engineering Escherichia coli for enhanced production of poly(3-hydroxybutyrate-co-4-hydroxybutyrate) in larger cellular space. Metabolic Engineering, 2014, 25: 183-193 (IF=8.8)

15. Wang Ying#, Li Yan#, Xua Tuan, Shi Zhenyu*, Wu Qiong*. Experimental evidence for growth advantage and metabolic shift stimulated by photophosphorylation of proteorhodopsin expressed in Escherichia coli at anaerobic condition. Biotechnology and Bioengineering, 2015, 112: 947-956 (IF=4.4)