DNA‐based asymmetric catalysis G Roelfes, BL Feringa Angewandte Chemie International Edition 44 (21), 3230-3232, 2005 | 475 | 2005 |
DNA-based asymmetric catalysis AJ Boersma, RP Megens, BL Feringa, G Roelfes Chemical Society Reviews 39 (6), 2083-2092, 2010 | 340 | 2010 |
End-on and side-on peroxo derivatives of non-heme iron complexes with pentadentate ligands: models for putative intermediates in biological iron/dioxygen chemistry G Roelfes, V Vrajmasu, K Chen, RYN Ho, JU Rohde, C Zondervan, ... Inorganic Chemistry 42 (8), 2639-2653, 2003 | 312 | 2003 |
Enantioselective Friedel–Crafts reactions in water using a DNA‐based catalyst AJ Boersma, BL Feringa, G Roelfes Angewandte Chemie International Edition 48 (18), 3346-3348, 2009 | 276 | 2009 |
Catalytic Oxidation with a Non‐Heme Iron Complex That Generates a Low‐Spin FeIIIOOH Intermediate G Roelfes, M Lubben, R Hage, L Que, Jr, BL Feringa Chemistry–A European Journal 6 (12), 2152-2159, 2000 | 260 | 2000 |
Catalytic enantioselective syn hydration of enones in water using a DNA-based catalyst AJ Boersma, D Coquière, D Geerdink, F Rosati, BL Feringa, G Roelfes Nature Chemistry 2 (11), 991-995, 2010 | 242 | 2010 |
Artificial metalloenzymes F Rosati, G Roelfes ChemCatChem 2 (8), 916-927, 2010 | 234 | 2010 |
DNA‐based catalytic enantioselective Michael reactions in water D Coquière, BL Feringa, G Roelfes Angewandte Chemie International Edition 46 (48), 9308-9311, 2007 | 233 | 2007 |
Raman evidence for a weakened OO bond in mononuclear low-spin iron (III)-hydroperoxides RYN Ho, JG Roelfes, BL Feringa, L Que, J Que Journal of the American Chemical Society 121 (1), 264-265, 1999 | 231 | 1999 |
Iron Chemistry of a Pentadentate Ligand That Generates a Metastable FeIII−OOH Intermediate G Roelfes, M Lubben, K Chen, RYN Ho, A Meetsma, S Genseberger, ... Inorganic chemistry 38 (8), 1929-1936, 1999 | 228 | 1999 |
The importance of catalytic promiscuity for enzyme design and evolution RB Leveson-Gower, C Mayer, G Roelfes Nature Reviews Chemistry 3 (12), 687-705, 2019 | 211 | 2019 |
Enantioselective artificial metalloenzymes by creation of a novel active site at the protein dimer interface J Bos, F Fusetti, AJM Driessen, G Roelfes Angewandte Chemie International Edition 30 (51), 7472-7475, 2012 | 197 | 2012 |
DNA-based asymmetric catalysis: sequence-dependent rate acceleration and enantioselectivity AJ Boersma, JE Klijn, BL Feringa, G Roelfes Journal of the American Chemical Society 130 (35), 11783-11790, 2008 | 183 | 2008 |
α, β-Unsaturated 2-acyl imidazoles as a practical class of dienophiles for the DNA-based catalytic asymmetric Diels− Alder reaction in water AJ Boersma, BL Feringa, G Roelfes Organic letters 9 (18), 3647-3650, 2007 | 178 | 2007 |
Novel artificial metalloenzymes by in vivo incorporation of metal-binding unnatural amino acids I Drienovská, A Rioz-Martínez, A Draksharapu, G Roelfes Chemical Science 6 (1), 770-776, 2015 | 175 | 2015 |
Asymmetric catalysis with helical polymers RP Megens, G Roelfes Chemistry–A European Journal 17 (31), 8514-8523, 2011 | 168 | 2011 |
Artificial metalloenzymes for enantioselective catalysis J Bos, G Roelfes Current opinion in chemical biology 19, 135-143, 2014 | 153 | 2014 |
Expanding the enzyme universe with genetically encoded unnatural amino acids I Drienovská, G Roelfes Nature Catalysis 3 (3), 193-202, 2020 | 151 | 2020 |
A designer enzyme for hydrazone and oxime formation featuring an unnatural catalytic aniline residue I Drienovská, C Mayer, C Dulson, G Roelfes Nature chemistry 10 (9), 946-952, 2018 | 148 | 2018 |
Highly enantioselective DNA-based catalysis G Roelfes, AJ Boersma, BL Feringa Chemical communications, 635-637, 2006 | 146 | 2006 |