Browse by Basel Contributors ID
2021Joss, Daniel. Design, syntheses and performance evaluation of novel generations of lanthanide chelating tags and an NMR study of formylglycine-generating enzyme. 2021, Doctoral Thesis, University of Basel, Faculty of Science. 2020Joss, Daniel and Winter, Florine and Häussinger, Daniel. (2020) A novel, rationally designed lanthanoid chelating tag delivers large paramagnetic structural restraints for biomolecular NMR. Chemical Communications , 56 (84). pp. 12673-12870 . 2019Müntener, Thomas and Thommen, Fabienne and Joss, Daniel and Kottelat, Jérémy and Prescimone, Alessandro and Häussinger, Daniel. (2019) Synthesis of chiral nine and twelve-membered cyclic polyamines from natural building blocks. Chemical Communications , 55 (32). pp. 4715-4718. Zimmermann, Kaspar and Joss, Daniel and Muentener, Thomas and Nogueira, Elisa S. and Schaefer, Marc and Knoerr, Livia and Monnard, Fabien W. and Haussinger, Daniel. (2019) Localization of ligands within human carbonic anhydrase II using F-19 pseudocontact shift analysis. Chemical Science, 10 (19). pp. 5064-5072. Joss, Daniel and Haussinger, Daniel. (2019) P4T-DOTA - a lanthanide chelating tag combining a sterically highly overcrowded backbone with a reductively stable linker. Chemical Communications , 55 (71). pp. 10543-10546. Joss, Daniel and Bertrams, Maria-Sophie and Häussinger, Daniel. (2019) A Sterically Overcrowded, Isopropyl-Substituted, Lanthanide-Chelating Tag for Protein Pseudocontact Shift NMR Spectroscopy: Synthesis of its Macrocyclic Scaffold and Benchmarking on Ubiquitin S57 C and hCA II S166 C. Chemistry - A European Journal, 25 (51). pp. 11910-11917. Joss, Daniel and Häussinger, Daniel. (2019) Design and applications of lanthanide chelating tags for pseudocontact shift NMR spectroscopy with biomacromolecules. Progress in nuclear magnetic resonance spectroscopy, 114-115. pp. 284-312. 2018Joss, Daniel and Walliser, Roché M. and Zimmermann, Kaspar and Häussinger, Daniel. (2018) Conformationally locked lanthanide chelating tags for convenient pseudocontact shift protein nuclear magnetic resonance spectroscopy. Journal of Biomolecular NMR, 72 (1-2). pp. 29-38. |