Sun, Z.; Torres Salas, P.; Siirola, E.; Lonsdale, R.; Reetz, M. T. Exploring productive sequence space in directed evolution using binary patterning versus conventional mutagenesis strategies. Bioresources and Bioprocessing2016, 3, 1–8.
Sun, Z.; Li, G.; Ilie, A.; Reetz, M. T. Exploring the substrate scope of mutants derived from the robust alcohol dehydrogenase TbSADH. Tetrahedron Letters2016, 57, 3648–3651.
Wang, J.; Lonsdale, R.; Reetz, M. T. Exploring substrate scope and stereoselectivity of P450 peroxygenase OleTJE in olefin-forming oxidative decarboxylation. Chemical Communications2016, 52, 8131–8133.
Li, G.; Zhang, H.; Sun, Z.; Liu, X.; Reetz, M. T. Multiparameter Optimization in Directed Evolution: Engineering Thermostability, Enantioselectivity, and Activity of an Epoxide Hydrolase. ACS Catalysis2016, 6, 3679–3687.
Sun, Z.; Wikmark, Y.; Backvall, J.-E.; Reetz, M. T. New Concepts for Increasing the Efficiency in Directed Evolution of Stereoselective Enzymes. Chemistry – A European Journal2016, 22, 5046–5054.
Krone, K. M.; Warias, R.; Ritter, C.; Li, A.; Acevedo-Rocha, C. G.; Reetz, M. T.; Belder, D. Analysis of Enantioselective Biotransformations Using a Few Hundred Cells on an Integrated Microfluidic Chip. Journal of the American Chemical Society2016, 138, 2102–2105.
Sun, Z.; Lonsdale, R.; Li, G.; Li, A.; Wang, J.; Reetz, M. T. Structure-Guided Triple-Code Saturation Mutagenesis: Efficient Tuning of the Stereoselectivity of an Epoxide Hydrolase. ACS Catalysis2016, 6, 1590–1597.
Lonsdale, R.; Reetz, M. T. Reduction of α,β-Unsaturated Ketones by Old Yellow Enzymes: Mechanistic Insights from Quantum Mechanics/Molecular Mechanics Calculations. Journal of the American Chemical Society2015, 137, 14733–14742.
Lonsdale, R.; Reetz, M. T. Reduction of α,β-Unsaturated Ketones by Old Yellow Enzymes: Mechanistic Insights from Quantum Mechanics/Molecular Mechanics Calculations. Journal of the American Chemical Society2015, 137, 14733–14742.
Sun, Z.; Lonsdale, R.; Kong, X.-D.; Xu, J.-H.; Zhou, J.; Reetz, M. T. Reshaping an Enzyme Binding Pocket for Enhanced and Inverted Stereoselectivity: Use of Smallest Amino Acid Alphabets in Directed Evolution. Angewandte Chemie International Edition2015, 54, 12410–12415.
Sun, Z.; Lonsdale, R.; Kong, X.-D.; Xu, J.-H.; Zhou, J.; Reetz, M. T. Reshaping an Enzyme Binding Pocket for Enhanced and Inverted Stereoselectivity: Use of Smallest Amino Acid Alphabets in Directed Evolution. Angewandte Chemie International Edition2015, 54, 12410–12415.
Reetz, M. T.; Sun, Z.; Ilie, A. Towards the Production of Universal Blood by Structure-Guided Directed Evolution of Glycoside Hydrolases. Angewandte Chemie International Edition2015, 54, 9158–9160.
Den neuen Typ von OER-Elektrokatalysatoren entdeckten PD Dr. Harun Tüysüz (Max-Planck-Institut für Kohlenforschung) sowie Prof. Dr. Claudia Felser (Max-Planck-Institut für Chemische Physik fester Stoffe) und ihre Teams.
Gemeinsam mit seinem Projektpartner Prof. Dr. Joseph Moran von der Universität Straßburg erhielt er nun den Forcheurs Jean-Marie Lehn Preis 2020 für die gemeinsamen Arbeiten zur Katalyse in der präbiotischen Chemie.
Auszeichnung erfolgt für seine herausragenden Arbeiten zur Entwicklung von Katalysatoren, die sowohl für chemische Synthesen als auch zur Energieumwandlung genutzt werden können.