Toshiyuki Ueki

发稿时间：2023-05-31浏览次数：1832

姓名：Toshiyuki Ueki博士/教授

性别：男

E-mail：uekitoshiyuki@mail.neu.edu.cn

（1）学习经历

1994-1997年：日本东京工业大学，博士

1992–1994年：日本东京工业大学，硕士

1988-1992年：日本早稻田大学，本科

（2）工作经历

2022-至今：雷竞技官方主页，材料科学与工程学院，教授

2014-2022：美国马萨诸塞大学阿默斯特分校微生物学系，资深研究员

2005-2014：美国马萨诸塞大学阿默斯特分校微生物学系，高级研究员

2000-2005：美国新泽西州医学和牙科大学罗伯特·伍德·约翰逊医学院生物化学系，研究员

1997-2000：美国新泽西州医学和牙科大学罗伯特·伍德·约翰逊医学院生物化学系，博士后

（3）研究方向

1.微生物腐蚀分子机制

2.微生物蛋白质纳米线的生物技术应用

（4）学术论文和专利

代表论文

[1] Lekbach, Y., Ueki, T., Liu, X, Woodard, T. L., Yao, J., and Lovley, D. R. 2023. Microbial nanowires with genetically modified peptide ligands to sustainably fabricate electronic sensing devices.Biosensors and Bioelectronics. 226:115147.

[2] Woodard, T. L., Ueki, T., and Lovley, D. R. 2023. H₂Is a Major Intermediate inDesulfovibrio vulgarisCorrosion of Iron.mBio.

[3] Ueki, T., Woodard, T. L., and Lovley, D. R. 2022. Genetic Manipulation ofDesulfovibrioferrophilusand Evaluation of Fe(III) Oxide Reduction Mechanisms.Microbiology Spectrum. 10:e03922-22.

[4] Liu, X, Ueki, T., Gao, H, Woodard, T. L., Nevin, K. P., Fu, T., Fu, S., Sun, L., Lovley, D. R., Yao, J. 2022. Microbial biofilms for electricity generation from water evaporation and power to wearables.Nature Communications. 13:4369.

[5] Ueki, T. and Lovley, D. R. 2022.Desulfovibrio vulgarisas a Model Microbe for the Study of Corrosion Under Sulfate-Reducing Conditions.mLife. 1:13-20.

[6] Ueki, T. 2021. Cytochromes in extracellular electron transfer inGeobacter.Applied and Environmental Microbiology. 87:e03109-20.

[7] Tang, H.-Y., Yang, C., Ueki, T., Pittman, C. C., Xu, D., Woodard, T. L., Holmes, D. E., Gu, T., Wang, F., and Lovley, D. R. 2021. Stainless Steel Corrosion via Direct Iron-to-Microbe Electron Transfer byGeobacterSpecies.The ISME Journal. 15:3084-3093.

[8] Ueki, T., Walker, D. J. F., Woodard, T. L., Nevin, K. P., Nonnenmann, S. S., and Lovley, D. R. 2020. AnEscherichia coliChassis for Production of Electrically Conductive Protein Nanowires.ACS Synthetic Biology. 9:647-654.

[9] Ueki, T., Walker, D. J. F., Tremblay, P.-L., Nevin, K. P., Ward, J. E., Woodard, T. L., Nonnenmann, S. S., and Lovley, D. R. 2019. Decorating the Outer Surface of Microbially Produced Protein Nanowires with Peptides.ACS Synthetic Biology. 8:1809-1817.

[10] Tang, H.-Y., Holmes, D. E., Ueki, T., Palacios, P. A., and Lovley, D. R. 2019. Iron Corrosion via Direct Metal-Microbe Electron Transfer.mBio. 10:e00303-19.

专利

Lovley, D. R., Ueki, T., Lovley, K. N. 2020. Microbial strain for electrosynthesis and electrofermentation. Patent number: 10711318.