Recent advances in zinc enzymology WN Lipscomb, N Sträter Chemical Reviews 96 (7), 2375-2434, 1996 | 1530 | 1996 |
Cellular function and molecular structure of ecto-nucleotidases H Zimmermann, M Zebisch, N Sträter Purinergic signalling 8, 437-502, 2012 | 1102 | 2012 |
Two‐metal ion catalysis in enzymatic Acyl‐and phosphoryl‐transfer reactions N Sträter, WN Lipscomb, T Klabunde, B Krebs Angewandte Chemie International Edition in English 35 (18), 2024-2055, 1996 | 777 | 1996 |
Crystal structure of a purple acid phosphatase containing a dinuclear Fe (III)-Zn (II) active site N Sträter, T Klabunde, P Tucker, H Witzel, B Krebs Science 268 (5216), 1489-1492, 1995 | 550 | 1995 |
Mechanism of Fe (III)–Zn (II) purple acid phosphatase based on crystal structures T Klabunde, N Sträter, R Fröhlich, H Witzel, B Krebs Journal of molecular biology 259 (4), 737-748, 1996 | 487 | 1996 |
Structural and functional studies on a thermostable polyethylene terephthalate degrading hydrolase from Thermobifida fusca C Roth, R Wei, T Oeser, J Then, C Föllner, W Zimmermann, N Sträter Applied microbiology and biotechnology 98, 7815-7823, 2014 | 261 | 2014 |
Insect‐derived proline‐rich antimicrobial peptides kill bacteria by inhibiting bacterial protein translation at the 70 S ribosome A Krizsan, D Volke, S Weinert, N Sträter, D Knappe, R Hoffmann Angewandte Chemie International Edition 53 (45), 12236-12239, 2014 | 251 | 2014 |
Ecto-5’-nucleotidase: Structure function relationships N Sträter Purinergic signalling 2, 343-350, 2006 | 245 | 2006 |
Crystal structure of the human ecto-5′-nucleotidase (CD73): insights into the regulation of purinergic signaling K Knapp, M Zebisch, J Pippel, A El-Tayeb, CE Müller, N Sträter Structure 20 (12), 2161-2173, 2012 | 235 | 2012 |
Two-metal ion mechanism of bovine lens leucine aminopeptidase: active site solvent structure and binding mode of L-leucinal, a gem-diolate transition state analog, by X-ray … N Straeter, WN Lipscomb Biochemistry 34 (45), 14792-14800, 1995 | 231 | 1995 |
Vaspin inhibits kallikrein 7 by serpin mechanism JT Heiker, N Klöting, P Kovacs, EB Kuettner, N Sträter, S Schultz, M Kern, ... Cellular and Molecular Life Sciences 70, 2569-2583, 2013 | 182 | 2013 |
Crystal structure of the plasmid maintenance system ɛ/ζ: Functional mechanism of toxin ζ and inactivation by ɛ2ζ2 complex formation A Meinhart, JC Alonso, N Sträter, W Saenger Proceedings of the National Academy of Sciences 100 (4), 1661-1666, 2003 | 165 | 2003 |
X-ray structure of the Escherichia coli periplasmic 5'-nucleotidase containing a dimetal catalytic site T Knöfel, N Sträter Nature structural biology 6 (5), 448-453, 1999 | 160 | 1999 |
α,β-Methylene-ADP (AOPCP) Derivatives and Analogues: Development of Potent and Selective ecto-5′-Nucleotidase (CD73) Inhibitors S Bhattarai, M Freundlieb, J Pippel, A Meyer, A Abdelrahman, A Fiene, ... Journal of medicinal chemistry 58 (15), 6248-6263, 2015 | 157 | 2015 |
Structural studies on the forward and reverse binding modes of peptides to the chaperone DnaK M Zahn, N Berthold, B Kieslich, D Knappe, R Hoffmann, N Sträter Journal of molecular biology 425 (14), 2463-2479, 2013 | 145 | 2013 |
The X-ray crystal structure of human β-hexosaminidase B provides new insights into Sandhoff disease T Maier, N Strater, CG Schuette, R Klingenstein, K Sandhoff, W Saenger Journal of molecular biology 328 (3), 669-681, 2003 | 142 | 2003 |
Crystal structure of amylomaltase from Thermus aquaticus, a glycosyltransferase catalysing the production of large cyclic glucans I Przylas, K Tomoo, Y Terada, T Takaha, K Fujii, W Saenger, N Sträter Journal of Molecular Biology 296 (3), 873-886, 2000 | 140 | 2000 |
Low carbon footprint recycling of post‐consumer PET plastic with a metagenomic polyester hydrolase C Sonnendecker, J Oeser, PK Richter, P Hille, Z Zhao, C Fischer, ... ChemSusChem 15 (9), e202101062, 2022 | 139 | 2022 |
X‐ray structure of aminopeptidase A from Escherichia coli and a model for the nucleoprotein complex in Xer site‐specific recombination N Sträter, DJ Sherratt, SD Colloms The EMBO Journal, 1999 | 134 | 1999 |
Api88 is a novel antibacterial designer peptide to treat systemic infections with multidrug-resistant Gram-negative pathogens P Czihal, D Knappe, S Fritsche, M Zahn, N Berthold, S Piantavigna, ... ACS chemical biology 7 (7), 1281-1291, 2012 | 131 | 2012 |