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Xiaohong Liu
Life Science
University of Chinese Academy of Sciences
Beijing
Language: Chinese, English
Chemical Biology
Biophysical Chemistry
Enzyme Catalysis
Photocatalysis
Protein Engineering
Genetic Code Expansion
Metalloenzymes
Biocatalysis
Synthetic Biology
Molecular Biology
Areas of Focus
- Chemical Biology and Biophysical Chemistry
Work Experience
- 2002-09--2005-07 - Tsinghua University - PhD in Science
Academic Background & Achievements
- 2002-09--2005-07 PhD in Science: Tsinghua University
Publications
- Whole-cell-catalyzed hydrogenation/deuteration of aryl halides with a genetically repurposed photodehalogenase, CHEM, 2023
- Genetically Encoded Phosphine Ligand for Metalloprotein Design, JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2022
- Excited-state intermediates in a designer protein encoding a phototrigger caught by an X-ray free-electron laser, NATURE CHEMISTRY, 2022
- A Genetically Encoded Two-Dimensional Infrared Probe for Enzyme Active-Site Dynamics, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2021
- Rational Design of a Miniature Photocatalytic CO2-Reducing Enzyme, ACS CATALYSIS, 2021
- Single-molecule FRET and conformational analysis of beta-arrestin-1 through genetic code expansion and a Se-click reaction, CHEMICAL SCIENCE, 2021
- Biocatalytic Cross-Coupling of Aryl Halides with a Genetically Engineered Photosensitizer Artificial Dehalogenase, JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2021
- Photo induced carbon dioxide reduction by laccase, 河北工业大学学报, 2021
- Single-molecule FRET and conformational analysis of betaarrestin- 1 through genetic code expansion and Se-Click reaction, Chemical Science, 2021
- Electrostatics affect the glow, SCIENCE, 2020
- Coupling natural systems with synthetic chemistry for light-driven enzymatic biocatalysis, PHOTOSYNTHESIS RESEARCH, 2020
- Expansion of Redox Chemistry in Designer Metalloenzymes, ACCOUNTS OF CHEMICAL RESEARCH, 2019
- A genetically engineered Escherichia coli that senses and degrades tetracycline antibiotic residue, SYNTHETIC AND SYSTEMS BIOTECHNOLOGY, 2018
- Significant expansion and red-shifting of fluorescent protein chromophore determined through computational design and genetic code expansion, Biophysics Reports, 2018
- A genetically encoded photosensitizer protein facilitates the rational design of a miniature photocatalytic CO2-reducing enzyme, NATURE CHEMISTRY, 2018
- Heme copper oxidase design using genetic code expansion, ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2016
- Synthetic Model of the Oxygen-Evolving Center: Photosystem II under the Spotlight, CHEMBIOCHEM, 2015
- Significant improvement of oxidase activity through the genetic incorporation of a redox-active unnatural amino acid, CHEMICAL SCIENCE, 2015
- A DesignedMetalloenzyme Achieving the Catalytic Rateof a Native Enzyme, JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2015
- Ultrafast Photoinduced Electron Transfer in Green Fluorescent Protein Bearing a Genetically Encoded Electron Acceptor, JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2015
- Significant Expansion of Fluorescent Protein Sensing Ability through the Genetic Incorporation of Superior Photo-Induced Electron-Transfer Quenchers, JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2014
- Significant Expansion of the Fluorescent Protein Chromophore through the Genetic Incorporation of a Metal-Chelating Unnatural Amino Acid, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2013
- Significant Increase of Oxidase Activity through the Genetic Incorporation of a Tyrosine-Histidine Cross-Link in a Myoglobin Model of Heme-Copper Oxidase, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2012
- Genetic Incorporation of a Metal-Chelating Amino Acid as a Probe for Protein Electron Transfer, ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2012
