孙新晓

发布时间:2019-10-31

姓名:孙新晓

 

职称:见习教授

 

邮箱:sunxx@mail.buct.edu.cn

 

办公地址:科技大厦西311


教育背景:

2004.09-2008.06   北京化工大学   工学学士

2008.09-2015.06   北京化工大学   化学工程与技术博士

2012.03-2015.03   美国佐治亚大学联合培养


工作经历:

2015.07 -2020.12       北京化工大学生命科学与技术学院,副教授

2021.01 –               北京化工大学生命科学与技术学院,见习教授


学术兼职:

中国生物工程协会青年工作委员会委员,生物化工青年学者工作委员会委员,合成生物学杂志编委


主要研究领域:

代谢工程和合成生物学


学术成绩:

主持国家自然科学基金面上项目、青年项目各1 项,国家重点研发任务子课题2 项,企业合作项目3项,并获得北京化工大学“青年英才百人计划”项目支持。

以第一/通讯作者在Nature CommunicationsMetabolic EngineeringBiotechnology and BioengineeringBiotechnology AdvancesChemical Society Reviews等期刊发表SCI论文30余 篇,H因子22。申请中国发明专利6项、授权2项,授权美国专利1 项。生物合成肌醇项目已实现工业应用。参编代谢工程英文专著2 部、参编《合成生物学》中文教材1 部。

代表性著作:

1. Li Wenna, Zhou Zhao, Li Xianglai, Ma Lin, Guan Qingyuan, Zheng Guojun, Liang Hao, Yan Yajun, Shen Xiaolin, Wang Jia, Sun Xinxiao* & Yuan Qipeng*.Biosynthesis of plant hemostatic dencichine in Escherichia coli. Nature Communications, 13(1), 5492 (2022).

2. Li X, Zhou Z, Li W, Yan Y, Shen X, Wang J, Sun X*, Yuan Q*. Design of stable and self-regulated microbial consortia for chemical synthesis. Nature Communications, 13, 1554 (2022).

3. Li W, Ma L, Shen X, Wang J, Feng Q, Liu L, Zheng G, Yan Y, Sun X*, Yuan Q*. Targeting metabolic driving and intermediate influx in lysine catabolism for high-level glutarate production. Nature Communications 10, 3337 (2019).

4. Li Xianglai#, Li Nan#, Zhao Mengyuan#, Zhou Zhao, Li Wenna, Shen Xiaolin, Wang Jia, Yan Yajun, Sun Xinxiao*, Yuan Qipeng. Engineering Escherichia coli native metabolism for efficient biosynthesis of orotate[J]. Biotechnology and Bioengineering, 120:503–510 (2023).

5. Zhang Yu, An Ning, Zhao Yan, Li Xueqi, Shen Xiaolin, Wang Jia, Sun Xinxiao*, Yuan Qipeng. Efficient biosynthesis of α‐aminoadipic acid via lysine catabolism in Escherichia coli[J]. Biotechnology and Bioengineering, 120:312–317 (2023).

6. Yang Meichen#, Meng Hao#, Li Xianglai, Wang Jia , Shen Xiaolin, Xinxiao Sun*, Qipeng Yuan. Coculture engineering for efficient production of vanillyl alcohol in Escherichia coli[J]. Abiotech, 3, 292–300 (2022)

7. Wang Hongyan#, Wang Shiyu#, Wang Jia, Shen Xiaolin, Feng Xudong, Yuan Shuguang*, Sun Xinxiao*, and Yuan Qipeng*. Engineering a Prokaryotic Non-P450 Hydroxylase for 3′-Hydroxylation of Flavonoids[J]. ACS Synthetic Biology, 2022, 11(11): 3865-3873.

8. Li W, Shen X, Wang J, Sun X*, Yuan Q*. Engineering microorganisms for the biosynthesis of dicarboxylic acids. Biotechnology  Advances 48, 107710 (2021).

9. Wu Y#, Sun X#, Lin Y, Shen X, Yang Y, Jain R, Yuan Q, Yan Y*. Establishing a synergetic carbon utilization mechanism for non-catabolic use of glucose in microbial synthesis of trehalose. Metabolic Engineering 39, 1-8 (2017).

10. Chen Z, Sun X*, Li Y, Yan Y, Yuan Q*. Metabolic engineering of Escherichia coli for microbial synthesis of monolignols. Metabolic Engineering 39, 102-109 (2017).

11. Lin Y#, Sun X#, Yuan Q, Yan Y. Extending shikimate pathway for the production of muconic acid and its precursor salicylic acid in Escherichia coli. Metabolic Engineering 23, 62-69 (2014).

12. Sun X, Lin Y, Yuan Q, Yan Y*. Biological production of muconic acid via a prokaryotic 2,3-dihydroxybenzoic acid decarboxylase. ChemSusChem 7, 2478-2481 (2014).

13. Li Y, Wang M, Zhao Q, Shen X, Wang J, Yan Y, Sun X*, Yuan Q*. Shunting phenylacetic acid catabolism for tropone biosynthesis. ACS Synthetic Biology 8, 876-883 (2019).

14. Li X, Chen Z, Wu Y, Yan Y, Sun X*, Yuan Q*. Establishing an Artificial Pathway for Efficient Biosynthesis of Hydroxytyrosol. ACS Synthetic Biology 7, 647-654 (2018).

15. Wang S#, Sun X#, Yuan Q*. Strategies for enhancing microbial tolerance to inhibitors for biofuel production: a review. Bioresource Technology 258, 302-309 (2018).

16. Sun X#, Shen X#, Jain R#, Lin Y, Wang J, Sun J, Wang J, Yan Y, Yuan Q. Synthesis of chemicals by metabolic engineering of microbes. Chemical Society Reviews 44, 3760-3785 (2015).


教师寄语:

兴趣是最好的老师。


招生要求:

勤于思考,善于合作。