| Directed evolution of a halide methyltransferase enables biocatalytic synthesis of diverse SAM analogs Q Tang, CW Grathwol, AS Aslan‐Üzel, S Wu, A Link, IV Pavlidis, ... Angewandte Chemie International Edition 60 (3), 1524-1527, 2021 | 67 | 2021 |
| Lipase‐driven epoxidation is a two‐stage synergistic process Q Tang, GM Popowicz, X Wang, J Liu, IV Pavlidis, Y Wang ChemistrySelect 1 (4), 836-839, 2016 | 28 | 2016 |
| From natural methylation to versatile alkylations using halide methyltransferases Q Tang, IV Pavlidis, CPS Badenhorst, UT Bornscheuer ChemBioChem 22 (16), 2584-2590, 2021 | 16 | 2021 |
| Site‐directed mutagenesis studies of hydrophobic residues in the lid region of T1 lipase Q Tang, D Lan, B Yang, FI Khan, Y Wang European Journal of Lipid Science and Technology 119 (3), 1600107, 2017 | 16 | 2017 |
| A mechanistic study into the epoxidation of carboxylic acid and alkene in a mono, di-acylglycerol lipase X Wang, Q Tang, GM Popowicz, B Yang, Y Wang Biochemical and Biophysical Research Communications 460 (2), 392-396, 2015 | 15 | 2015 |
| Die gerichtete Evolution einer Halogenid‐Methyltransferase erlaubt die biokatalytische Synthese diverser SAM‐Analoga Q Tang, CW Grathwol, AS Aslan‐Üzel, S Wu, A Link, IV Pavlidis, ... Angewandte Chemie 133 (3), 1547-1551, 2021 | 14 | 2021 |
| Improving the catalytic activity and thermostability of MAS1 lipase by alanine substitution G Zhao, J Wang, Q Tang, D Lan, Y Wang Molecular biotechnology 60, 319-328, 2018 | 14 | 2018 |
| Influence of Substrate Binding Residues on the Substrate Scope and Regioselectivity of a Plant O‐Methyltransferase against Flavonoids Q Tang, YM Vianney, K Weisz, CW Grathwol, A Link, UT Bornscheuer, ... ChemCatChem 12 (14), 3721-3727, 2020 | 13 | 2020 |
| Specific Residues Expand the Substrate Scope and Enhance the Regioselectivity of a Plant O‐Methyltransferase Q Tang, UT Bornscheuer, IV Pavlidis ChemCatChem 11 (14), 3227-3233, 2019 | 13 | 2019 |
| Substrate-constituted three-liquid-phase system: a green, highly efficient and recoverable platform for interfacial enzymatic reactions Z Li, H Chen, W Wang, M Qu, Q Tang, B Yang, Y Wang Chemical communications 51 (65), 12943-12946, 2015 | 8 | 2015 |
| Biotechnology in future food lipids: opportunities and challenges Q Xu, Q Tang, Y Xu, J Wu, X Mao, F Li, S Wang, Y Wang Annual Review of Food Science and Technology 14, 225-246, 2023 | 7 | 2023 |
| Enhancement of Phospholipid Binding and Catalytic Efficiency of Streptomyces klenkii Phospholipase D by Increasing Hydrophobicity of the Active Site Loop R Hu, R Cui, Q Tang, D Lan, F Wang, Y Wang Journal of Agricultural and Food Chemistry 69 (37), 11110-11120, 2021 | 5 | 2021 |
| The role of residues 103, 104, and 278 in the activity of SMG1 lipase from Malassezia globosa: a site-directed mutagenesis study D Lan, Q Wang, GM Popowicz, B Yang, Q Tang, Y Wang Journal of microbiology and biotechnology 25 (11), 1827-1834, 2015 | 5 | 2015 |
| Engineering of Methyltransferases: Exploring Their Catalytic Promiscuity Q Tang | 1 | 2021 |
| Broad Spectrum Enantioselective Amide Bond Synthetase from Streptoalloteichus hindustanus Q Tang, M Petchey, B Rowlinson, TJ Burden, IJS Fairlamb, G Grogan ACS catalysis 14 (2), 1021-1029, 2024 | | 2024 |
| Enzymatic Photometric Assays for the Selective Detection of Halides Q Tang, AS Aslan-Üzel, ED Schuiten, CPS Badenhorst, IV Pavlidis, ... Multienzymatic Assemblies: Methods and Protocols, 361-375, 2022 | | 2022 |
| Front Cover: From Natural Methylation to Versatile Alkylations Using Halide Methyltransferases (ChemBioChem 16/2021) Q Tang, IV Pavlidis, CPS Badenhorst, UT Bornscheuer ChemBioChem 22 (16), 2582-2582, 2021 | | 2021 |
| SilE-R and SilE-S-DABB Proteins Catalyzing Enantiospecific Hydrolysis of Organosilyl Ethers LM Pick, V Oehme, J Hartmann, J Wenzlaff, Q Tang, G Grogan, ... Angewandte Chemie (International ed. in English), e202404105, 0 | | |
