Björn Burmann
Affiliations: | 2010-2012 | U of Bayreuth |
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| Aspholm EE, Lidman J, Burmann BM. (2024) Structural basis of substrate recognition and allosteric activation of the proapoptotic mitochondrial HtrA2 protease. Nature Communications. 15: 4592 |
| Lidman J, Sallova Y, Matečko-Burmann I, et al. (2023) Structure and dynamics of the mitochondrial DNA-compaction factor Abf2 from S. cerevisiae. Journal of Structural Biology. 215: 108008 |
| Šulskis D, Thoma J, Burmann BM. (2021) Structural basis of DegP protease temperature-dependent activation. Science Advances. 7: eabj1816 |
| Kawale AA, Burmann BM. (2021) Inherent backbone dynamics fine-tune the functional plasticity of Tudor domains. Structure (London, England : 1993). 29: 1253-1265.e4 |
| Burmann BM, Rösch P. (2021) The role of E. coli Nus-factors in transcription regulation and transcription:translation coupling: From structure to mechanism. Transcription. 2: 130-134 |
| Kawale AA, Burmann BM. (2020) Publisher Correction: UvrD helicase-RNA polymerase interactions are governed by UvrD's carboxy-terminal Tudor domain. Communications Biology. 3: 661 |
| Kawale AA, Burmann BM. (2020) UvrD helicase-RNA polymerase interactions are governed by UvrD's carboxy-terminal Tudor domain. Communications Biology. 3: 607 |
| Horvath I, Blockhuys S, Sulskis D, et al. (2019) Interaction between copper chaperone Atox1 and Parkinson's disease protein -synuclein includes metal-binding sites and occurs in living cells. Acs Chemical Neuroscience |
| Morgado L, Burmann BM, Sharpe T, et al. (2017) The dynamic dimer structure of the chaperone Trigger Factor. Nature Communications. 8: 1992 |
| Stanger FV, Burmann BM, Harms A, et al. (2016) Intrinsic regulation of FIC-domain AMP-transferases by oligomerization and automodification. Proceedings of the National Academy of Sciences of the United States of America. 113: E529-37 |