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Implications of non-native metal substitution in carbonic anhydrase–engineered enzymes and models
The enzyme carbonic anhydrase has been intensely studied over decades as a means to
understand the role of zinc in hydrating CO2. The naturally occurring enzyme has also been …
understand the role of zinc in hydrating CO2. The naturally occurring enzyme has also been …
Synthesis, Characterization, and Reactivity of Bispidine-Iron (IV)-Tosylimido Species
Reported are the synthesis and detailed studies of the iron (IV)-tosylimido complexes of two
isomeric pentadentate bispidine ligands (bispidines are 3, 7-diazabicyclo [3.3. 1] nonane …
isomeric pentadentate bispidine ligands (bispidines are 3, 7-diazabicyclo [3.3. 1] nonane …
pH-/Viscosity-Activatable NIR Fluorescent Probes via Acceptor Engineering of Hemicyanine Dyes for High-Contrast Bioimaging
D Feng, L Guo, Y Zhao, F Yuan, L Ning, Y Guo… - Analytical …, 2025 - ACS Publications
Real-time monitoring of the lysosomal microenvironment using small-molecule probes is
critical for understanding the complex interactions between organelles and diseases …
critical for understanding the complex interactions between organelles and diseases …
Amphoteric reactivity of a putative Cu (ii)-m CPBA intermediate
In copper-based enzymes, Cu-hydroperoxo/alkylperoxo species are proposed as key
intermediates for their biological activity. A vast amount of literature is available on the …
intermediates for their biological activity. A vast amount of literature is available on the …
Unraveling Chlorite Oxidation Pathways in Equatorially Heteroatom-Substituted Nonheme Iron Complexes
The first-coordination sphere of catalysts is known to play a crucial role in reaction
mechanisms, but details of how equatorial ligands influence the reactivity remain unknown …
mechanisms, but details of how equatorial ligands influence the reactivity remain unknown …
Theoretical Insights into the Oxidation of Substrates by High‐Spin Iron (III)‐Acylperoxido Complexes
While the oxidation of organic substrates by FeIV‐oxido complexes has been studied
extensively, there are only few highly reactive FeIII‐alkylperoxido complexes. We report here …
extensively, there are only few highly reactive FeIII‐alkylperoxido complexes. We report here …
[CITÁCIA][C] Theoretical Insights into the Oxidation of Substrates by High‐Spin Iron (III)‐Acylperoxido Complexes
G Velmurugan - 2025 - Deutsche Nationalbibliothek