华中农业大学教师主页平台管理系统 Wu Ranran--Home--Home

吴冉冉

Supervisor of Master's Candidates

Name (Simplified Chinese):吴冉冉

Name (Pinyin):Wu Ranran

Professional Title:Associate professor

Status:Employed

Education Level:工学博士学位

Degree:Doctoral degree

Business Address:微生物农药国家工程研究中心313

E-Mail:

Alma Mater:中国科学院城市环境研究所

Teacher College:College of Life Sciences & Technology

School/Department:生命科学技术学院

Other Contact Information:

PostalAddress：

Telephone：

Email：

Profile

吴冉冉，华中农业大学副教授，湖北洪山实验室副研究员。主要研究领域为电能驱动生物催化与合成。面向饲料蛋白资源短缺、能源资源缺乏的重大需求，围绕生物催化与能量适配机制等关键科学问题，利用二氧化碳、甲醇等一碳原料和糖类等可再生资源，开发合成生物学使能技术，实现大宗化学品向高值氨基酸和蛋白的转化跃迁。近年来在Chemical Review、Angewandte Chemie等本领域重要期刊发表科技论文30余篇，授权发明专利3项。主持国家自然科学基金项目、国家重点研发项目子课题、中国科学院重点部署项目等。2023年入选中国科学院青年创新促进会会员。担任中国⽣物⼯程学会⼀碳⽣物技术专业委员会青年委员。

代表性论文（^#共同一作；^*通讯作者）：

(1) Wu R, Li F, Lian K, Liu D, Jiang H, Zhu Z^*. 2025. Glycine synthesis from methanol by a cofactor-neutral in vitro multienzyme cascade. Advanced Synthesis & Catalysis, 0:e70238.

(2) Ma C^#, Wang Y^#, Guo K, Wu R^*, Zhu Z^*. 2025. Enzymatic electrosynthesis system based on multi-enzyme catalysis or coupled with microbial transformation. Catalysis Science & Technology 15(5), 1390-1405.

(3) Li M^#, Wu R^#, Song H, Li F, Wang Y, Wang Y, Ma L, Zhu Z^*. 2024. Construction of a bioelectrocatalytic system with bacterial surface displayed enzyme-nanomaterial hybrids. Bioelectrochemistry 160: 108777.

(4) Wu R^#, Li F^#, Cui X, Li Z, Ma C, Jiang H, Zhang L, Zhang P J Y-H, Zhao T, Zhang Y, Li Y, Chen H, Zhu Z^*. 2023. Enzymatic electrosynthesis of glycine from CO₂ and NH₃. Angew Chem Int Edit 62: e202218387.

(5) Wang Y, Song Y, Ma C, Xia H-q, Wu R^*, Zhu Z^*. 2021. Electrochemical characterization of a truncated hydrogenase from Pyrococcus furiosus. Electrochimica Acta 387: 138502.

(6) Wu R, Yu Y-Y, Wang Y, Wang Y-Z, Song H, Ma C, Qu G, You C, Sun Z, Zhang W, Li A, Li C M^*, Yong Y-C^*, Zhu Z^*. 2021. Wastewater-powered high-value chemical synthesis in a hybrid bioelectrochemical system. iScience 24(12): 103401.

(7) Wu R, Ma C, Zhu Z^*. 2020. Enzymatic electrosynthesis as an emerging electrochemical synthesis platform. Current Opinion in Electrochemistry 19: 1-7.

(8) Wu R, Song H, Wang Y, Zhu Z^*. 2020. Multienzyme co-immobilization-based bioelectrode: design of principles and bioelectrochemical applications. Chinese Journal of Chemical Engineering 28: 2037-2050.

(9) Xiao X^#, Xia H^#, Wu R^#, Bai L, Yan L, Magner E, Cosnier S, Lojou E^*, Zhu Z^*, Liu A^*. 2019. Tackling the challenges of enzymatic (bio)fuel cells. Chemical Reviews 119: 9509-9558.

(10) Wu R, Tian X, Xiao Y, Ulstrup J, Christensen H E M, Zhao F^*, Zhang J^*. 2018. Selective electrocatalysis of biofuel molecular oxidation using palladium nanoparticles generated on Shewanella oneidensis MR-1. Journal of Materials Chemistry A 6(23): 10655-10662.

(11) Wu R, Zhu Z^*. 2018. Self-powered enzymatic electrosynthesis of L-3,4-Dihydroxyphenylalanine in a hybrid bioelectrochemical system. ACS Sustainable Chemistry & Engineering 6(10): 12593-12597.

(12) Wu R, Ma C, Zhang Y-H P, Zhu Z^*. 2018. Complete oxidation of xylose for bioelectricity generation by reconstructing a bacterial xylose utilization pathway in vitro. ChemCatChem 10(9): 2030-2035.

Educational Experience

[1] 2006.9——2009.7
山东大学 > 环境工程 > 学士 > 本科
[2] 2010.9——2015.7
中国科学院城市环境研究所 > 环境工程 > 工学博士 > 博士

Work Experience

[1] 2015.7-2016.7
丹麦技术大学 > 化学系 > 博士后
[2] 2016.11-2025.10
中国科学院天津工业生物技术研究所 > 助理研究员、副研究员
[3] 2025.11-Now
华中农业大学 > 生命科学技术学院 > 副教授

Research Focus

（1）创建人工生物合成新途径，赋能生物合成氨基酸和蛋白等高值产品。

（2）创制高性能人工酶元件，拓展生物电催化系统应用。