Photoswitchable inhibitors of microtubule dynamics optically control mitosis and cell death M Borowiak, W Nahaboo, M Reynders, K Nekolla, P Jalinot, J Hasserodt, ... Cell 162 (2), 403-411, 2015 | 383 | 2015 |
PHOTACs enable optical control of protein degradation M Reynders, BS Matsuura, M Bérouti, D Simoneschi, A Marzio, M Pagano, ... Science advances 6 (8), eaay5064, 2020 | 212 | 2020 |
Oxidative approach enables efficient access to cyclic azobenzenes MS Maier, K Hüll, M Reynders, BS Matsuura, P Leippe, T Ko, ... Journal of the American Chemical Society 141 (43), 17295-17304, 2019 | 70 | 2019 |
Optical control of targeted protein degradation M Reynders, D Trauner Cell chemical biology 28 (7), 969-986, 2021 | 37 | 2021 |
Controlling the covalent reactivity of a kinase inhibitor with light M Reynders, A Chaikuad, BT Berger, K Bauer, P Koch, S Laufer, S Knapp, ... Angewandte Chemie International Edition 60 (37), 20178-20183, 2021 | 33 | 2021 |
PHOTACs enable optical control of protein degradation M Reynders, D Trauner Targeted Protein Degradation: Methods and Protocols, 315-329, 2021 | 20 | 2021 |
Multiply Nitrated High‐Energy Dense Oxidizers Derived from the Simple Amino Acid Glycine A Baumann, A Erbacher, C Evangelisti, TM Klapötke, B Krumm, SF Rest, ... Chemistry–A European Journal 19 (46), 15627-15638, 2013 | 20 | 2013 |
(2‐Fluoro‐2, 2‐dinitroethyl)‐2, 2, 2‐trinitroethylnitramine: A Possible High‐Energy Dense Oxidizer TM Klapötke, B Krumm, SF Rest, M Reynders, R Scharf European Journal of Inorganic Chemistry 2013 (34), 5871-5878, 2013 | 18 | 2013 |
Highly Efficient Synthesis of Hindered 3-Azoindoles via Metal-Free C–H Functionalization of Indoles N Jacob, L Guillemard, J Wencel-Delord Synthesis 52 (04), 574-580, 2020 | 10 | 2020 |
Optical control of membrane fluidity modulates protein secretion N Jiménez-Rojo, S Feng, J Morstein, SD Pritzl, T Harayama, A Asaro, ... bioRxiv, 2022.02. 14.480333, 2022 | 7 | 2022 |
Antimalarial 1, 2, 4-Triazine Dimers D Trauner, M Reynders Synfacts 2019 (05), 0564, 2019 | 3 | 2019 |
Photoactivated Protein Degrader for Optical Control of Synaptic Function T Ko, C Jou, AB Grau-Perales, M Reynders, AA Fenton, D Trauner ACS Chemical Neuroscience 14 (19), 3704-3713, 2023 | 2 | 2023 |
Azobenzenes can achieve near-infrared photocontrol in biological systems, with quantitative Z→ E photoisomerization, via singlet manifold photoredox B Baumgartner, V Glembockyte, R Mayer, A Gonzalez-Hernandez, ... | 2 | 2023 |
A photo-SAR study of photoswitchable azobenzene tubulin-inhibiting antimitotics identifying a general method for near-quantitative photocontrol M Reynders, M Garścia, A Müller-Deku, M Wranik, K Krauskopf, ... | | 2024 |
A general method for near-infrared photoswitching in biology, demonstrated by the> 700 nm photocontrol of GPCR activity in brain slices B Baumgartner, V Glembockyte, AJ Gonzalez-Hernandez, A Valavalkar, ... | | 2024 |
Light-controlled inhibition of the circadian regulator RORγ M Reynders, S Willems, JA Marschner, T Wein, D Merk, O Thorn-Seshold | | 2023 |
Photoswitchable Molecular Glues Enable Optical Control of Transcription Factor Degradation CJ Arp, M Reynders, V Sreekanth, P Kokkonda, M Pagano, A Choudhary, ... bioRxiv, 2023 | | 2023 |
Photoswitchable protacs and synthesis and uses thereof D Trauner, M Reynders, B Matsuura, M Berouti, M Pagano US Patent App. 17/432,750, 2022 | | 2022 |
Introducing Phosphorylation-Inducing Chimeric Small Molecules (PHICS) D Trauner, M Reynders Synfacts 16 (11), 1358, 2020 | | 2020 |
Bioluminescence Seeing Red D Trauner, M Reynders Synfacts 16 (11), 1364, 2020 | | 2020 |