| Nickel-Substituted Rubredoxin as a Minimal Enzyme Model for Hydrogenase JW Slater, HS Shafaat The Journal of Physical Chemistry Letters, 3731-3736, 2015 | 81 | 2015 |
| Going beyond structure: Nickel-substituted rubredoxin as a mechanistic model for the [NiFe] hydrogenases JW Slater, SC Marguet, HA Monaco, HS Shafaat Journal of the American Chemical Society 140 (32), 10250-10262, 2018 | 63 | 2018 |
| Power of the secondary sphere: modulating hydrogenase activity in nickel-substituted rubredoxin JW Slater, SC Marguet, ME Gray, HA Monaco, M Sotomayor, HS Shafaat ACS Catalysis 9 (10), 8928-8942, 2019 | 42 | 2019 |
| Experimental and DFT investigations reveal the influence of the outer coordination sphere on the vibrational spectra of nickel-substituted rubredoxin, a model hydrogenase enzyme JW Slater, SC Marguet, SL Cirino, PT Maugeri, HS Shafaat Inorganic chemistry 56 (7), 3926-3938, 2017 | 36 | 2017 |
| A mixed-valent Fe (II) Fe (III) species converts cysteine to an oxazolone/thioamide pair in methanobactin biosynthesis YJ Park, RJ Jodts, JW Slater, RM Reyes, VJ Winton, RA Montaser, ... Proceedings of the National Academy of Sciences 119 (13), e2123566119, 2022 | 18 | 2022 |
| Robust carbon-based electrodes for hydrogen evolution through site-selective covalent attachment of an artificial metalloenzyme RE Treviño, JW Slater, HS Shafaat ACS Applied Energy Materials 3 (11), 11099-11112, 2020 | 13 | 2020 |
| Substrate-Triggered μ-Peroxodiiron(III) Intermediate in the 4-Chloro-l-Lysine-Fragmenting Heme-Oxygenase-like Diiron Oxidase (HDO) BesC: Substrate … MJ McBride, MA Nair, D Sil, JW Slater, ME Neugebauer, MCY Chang, ... Biochemistry 61 (8), 689-702, 2022 | 12 | 2022 |
| Synergistic Binding of the Halide and Cationic Prime Substrate of l-Lysine 4-Chlorinase, BesD, in Both Ferrous and Ferryl States JW Slater, CY Lin, ME Neugebauer, MJ McBride, D Sil, MA Nair, BJ Katch, ... Biochemistry 62 (16), 2480-2491, 2023 | 1 | 2023 |
| Capturing a bis-Fe(IV) State in Methylosinus trichosporium OB3b MbnH AC Manesis, JW Slater, K Cantave, J Martin Bollinger Jr, C Krebs, ... Biochemistry 62 (5), 1082-1092, 2023 | 1 | 2023 |
| Structure and assembly of the diiron cofactor in the heme-oxygenase-like domain of theN-nitrosourea-producing enzyme SznF MJ McBride, SR Pope, K Hu, JW Slater, CD Okafor, EP Balskus, ... | 1 | 2020 |
| Synergistic Binding of the Halide and Cationic Prime Substrate of l-Lysine 4-Chlorinase, BesD, in Both Ferrous and Ferryl States D SIL, JW Slater American Chemical Society, 2023 | | 2023 |
| Nickel-Substituted Rubredoxin as a Protein-Based Enzymatic Mimic for [NiFe] Hydrogenase JW Slater The Ohio State University, 2018 | | 2018 |
| Spectroscopic insight into the mechanism of nickel‐substituted rubredoxin, a bioinspired hydrogenase mimic MJ Stevenson, JW Slater, SC Marguet, HS Shafaat The FASEB Journal 31, 764.3-764.3, 2017 | | 2017 |
| Transforming workhorse electron transfer proteins into energy-converting metalloenzymes H Shafaat, J Slater, A Manesis, H Monaco, C Schneider ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 252, 2016 | | 2016 |
| Developing functional metalloenzyme mimics using model protein scaffolds H Shafaat, J Slater, A Manesis, H Monaco ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 250, 2015 | | 2015 |
| Electrocatalytic hydrogen production performed by model protein scaffolds H Shafaat, J Slater, A Manesis, S Cirino, H Monaco ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 249, 2015 | | 2015 |
| Small molecule activation in bioinorganic systems: From characterization of Nature's active sites to design of next-generation enzymes HS Shafaat, JW Slater, AC Manesis ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 248, 2014 | | 2014 |
