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#Jiangyun Wang
Expansion of Redox Chemistry in Designer Metalloenzymes
金属蛋白设计研究组 , 北京理工大学
Artificial Metalloenzyme Design with Unnatural Amino Acids and Non-Native Cofactors
金属蛋白设计研究组 , 北京理工大学
Improving artificial metalloenzymes' activity by optimizing electron transfer
金属蛋白设计研究组 , 北京理工大学
Biosynthetic approach to modeling and understanding metalloproteins using unnatural amino acids
金属蛋白设计研究组 , 北京理工大学
A Designed Metalloenzyme Achieving the Catalytic Rate of a Native Enzyme
金属蛋白设计研究组 , 北京理工大学
Significant improvement of oxidase activity through the genetic incorporation of a redox-active unnatural amino acid
金属蛋白设计研究组 , 北京理工大学
Defining the Role of Tyrosine and Rational Tuning of Oxidase Activity by Genetic Incorporation of Unnatural Tyrosine Analogs
金属蛋白设计研究组 , 北京理工大学
Ultrafast Photoinduced Electron Transfer in Green Fluorescent Protein Bearing a Genetically Encoded Electron Acceptor
金属蛋白设计研究组 , 北京理工大学
Significant Increase of Oxidase Activity through the Genetic Incorporation of a Tyrosine-Histidine Cross-Link in a Myoglobin Model of Heme-Copper Oxidase
金属蛋白设计研究组 , 北京理工大学
A genetically engineered Escherichia coli that senses and degrades tetracycline antibiotic residue
金属蛋白设计研究组 , 北京理工大学
Engineering the metal-binding loop at a type 1 copper center by circular permutation
金属蛋白设计研究组 , 北京理工大学
Significant Enhancement of hPrx1 Chaperone Activity through Lysine Acetylation
金属蛋白设计研究组 , 北京理工大学