Citation Impact
Citing Papers
Computational Stabilization of a Non‐Heme Iron Enzyme Enables Efficient Evolution of New Function
2024 StandoutNobel
Exploiting and engineering hemoproteins for abiological carbene and nitrene transfer reactions
2017 StandoutNobel
Enzymatic assembly of carbon–carbon bonds via iron-catalysed sp3 C–H functionalization
2018 StandoutNatureNobel
Diverse Engineered Heme Proteins Enable Stereodivergent Cyclopropanation of Unactivated Alkenes
2018 StandoutNobel
New hypotheses for the health-protective mechanisms of whole-grain cereals: what is beyond fibre?
2010 Standout
Biofortification of crops with seven mineral elements often lacking in human diets – iron, zinc, copper, calcium, magnesium, selenium and iodine
2009 Standout
Phytate: impact on environment and human nutrition. A challenge for molecular breeding
2008
Design and evolution of enzymes for non-natural chemistry
2017 StandoutNobel
Improving Protein Expression, Stability, and Function with ProteinMPNN
2024 StandoutNobel
Directed Evolution: Bringing New Chemistry to Life
2017 StandoutNobel
Molecular genetic approaches to increasing mineral availability and vitamin content of cereals
2007
Stereoselective Enzymatic Synthesis of Heteroatom-Substituted Cyclopropanes
2018 StandoutNobel
Enzymatic construction of highly strained carbocycles
2018 StandoutScienceNobel
Fluorescent Sensors for Measuring Metal Ions in Living Systems
2014 Standout
Gerichtete Evolution: Wie man neue Chemie zum Leben erweckt
2017 StandoutNobel
Repurposing Nonheme Iron Hydroxylases To Enable Catalytic Nitrile Installation through an Azido Group Assistance
2019
Chemistry Takes a Bath: Reactions in Aqueous Media
2018 StandoutNobel
Alternate Heme Ligation Steers Activity and Selectivity in Engineered Cytochrome P450-Catalyzed Carbene-Transfer Reactions
2018 StandoutNobel
Design of Heme Enzymes with a Tunable Substrate Binding Pocket Adjacent to an Open Metal Coordination Site
2023 StandoutNobel
Iron speciation in the cytosol: an overview
2012
Works of Nicolás Veiga being referenced
The behaviour of myo-inositol hexakisphosphate in the presence of magnesium(II) and calcium(II): Protein-free soluble InsP6 is limited to 49 μM under cytosolic/nuclear conditions
2006
“Chelatable iron pool”: inositol 1,2,3-trisphosphate fulfils the conditions required to be a safe cellular iron ligand
2008
Characterization ofmyo‐inositol hexakisphosphate deposits from larvalEchinococcus granulosus
2006
Toluene Dioxygenase‐Catalysed Oxidation of Benzyl Azide to Benzonitrile: Mechanistic Insights for an Unprecedented Enzymatic Transformation
2015