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Liu Pu
Life Science
University of Chinese Academy of Sciences
Tianjin
Language: Chinese, English
Protein
Structure
Design
Engineering
Biotechnology
Computational Biology
Molecular Biology
Enzyme
Evolution
Synthetic Biology
Areas of Focus
- Protein Structure Design
Work Experience
- 2020-08 to Present - Chinese Academy of Sciences, Tianjin Institute of Industrial Biotechnology - Associate Researcher
- 2015-11 to 2020-06 - Chinese Academy of Sciences, Tianjin Institute of Industrial Biotechnology - Assistant Researcher
- 2012-09 to 2015-07 - Nankai University - Postdoctoral Researcher
Academic Background & Achievements
- 2005-09 to 2011-07 Ph.D. in Science: Nankai University
- 2002-09 to 2005-07 M.Sc. in Science: Nankai University
- 1998-09 to 2002-07 B.Sc. in Science: Nankai University
Publications
- Directed evolution of linker helix as an efficient strategy for engineering LysR-type transcriptional regulators as whole-cell biosensors, Liu Pu, 2023
- Protein Engineering of Glucosylglycerol Phosphorylase Facilitating Efficient and Highly Regio- and Stereoselective Glycosylation of Polyols in a Synthetic System, Liu Pu, 2022
- Directed evolution and rational design of mechanosensitive channel MscCG2 for improved glutamate excretion efficiency, Liu Pu, 2021
- Engineered LPMO Significantly Boosting Cellulase-Catalyzed Depolymerization of Cellulose, Liu Pu, 2020
- DNA Framework-Encoded Mineralization of Calcium Phosphate, Liu Pu, 2020
- A hybrid CO2 electroreduction system mediated by enzyme-cofactor conjugates coupled with Cu nanoparticle-catalyzed cofactor regeneration, Liu Pu, 2019
- Structural basis for neutralization of hepatitis A virus informs arational design of highly potent inhibitors, Liu Pu, 2019
- Complex silica composite nanomaterials templated with DNA origami, Liu Pu, 2018
- Biomimetic DNA Nanotubes: Nanoscale Channel Design and Applications., Liu Pu, 2018
- Correction: Simultaneous engineering of an enzyme’s entrance tunnel and active site: the case of monoamine oxidase MAO-N, Liu Pu, 2017
- Engineering a D-lactate dehydrogenase that can super-efficiently utilize NADPH and NADH as cofactors, Liu Pu, 2016
- Charge Neutralization Drives the Shape Reconfiguration of DNA Nanotubes, Liu Pu, 2016
