Modulating Electron Transfer in Vanadium‐Based Artificial Enzymes for Enhanced ROS‐Catalysis and Disinfection

Abstract: The dramatically increasing demands in enzyme-like catalytic biosynthesis and biotherapeutics have promoted thrilling innovations to engineer artificial enzymes (AEs), [1][2][3][4][5][6][7][8] especially the haloperoxidase (HPO)-like AEs that can generate potent reactive oxygen species (ROS), [9][10][11][12] including • OH, • O 2 -, and HClO/HBrO, for antibacterial and antitumor applications. [13][14][15][16][17][18][19][20][21] Despite the fast flourishment of HPO-like AEs, further enhancing their biocatalyti… Show more

“…species, electronic states, and coordination modes could provide new opportunities to develop efficient catalysts for diverse chemical/biochemical reactions. [23][24][25][26][27][28] Evolution has produced enzymes incorporating transition metals, including Fe, Co, Mn, etc. Ru is a member of the iron group elements that shows low electronegativity and high metallic electronic structure.…”

Catalase‐Mimetic Artificial Biocatalysts with Ru Catalytic Centers for ROS Elimination and Stem‐Cell Protection

“…species, electronic states, and coordination modes could provide new opportunities to develop efficient catalysts for diverse chemical/biochemical reactions. [23][24][25][26][27][28] Evolution has produced enzymes incorporating transition metals, including Fe, Co, Mn, etc. Ru is a member of the iron group elements that shows low electronegativity and high metallic electronic structure.…”

Catalase‐Mimetic Artificial Biocatalysts with Ru Catalytic Centers for ROS Elimination and Stem‐Cell Protection

“…274–277 Scientists can gain inspiration from the metal architectures in the nanoparticles to design artificial biocatalysts or functionalized nanomaterials that are more stable, efficient, and specific. 222,223,278–285…”

What are inorganic nanozymes? Artificial or inorganic enzymes

“…It is highly urgent to develop alternative antimicrobial strategies and approaches to tackling this serious issue. Recently, both organic- and inorganic-based materials have been increasingly used to combat the crisis, such as molybdenum disulfide for releasing near-infrared light-induced nitric oxide and cobalt-doped nickel oxide nanoparticles for enhancing the catalytic effects of reactive oxygen species on bacterial biofilms [ [2] , [3] , [4] , [5] , [6] , [7] , [8] , [9] , [10] , [11] ]. It is noteworthy that bismuth as a relatively environmental-friendly heavy metal has been used for catalysis, energy storage and biomedicines [ [12] , [13] , [14] , [15] ].…”

Rapid synthesis of bismuth-organic frameworks as selective antimicrobial materials against microbial biofilms