Molecular basis of human nuclear and mitochondrial tRNA 3'-processing |
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Cellular functions of eukaryotic RNA helicases and their links to human diseases | | Bohnsack KE, Yi S, Venus S, Jankowsky E, Bohnsack MT | Nature Reviews Molecular Cell Biology | 2023 | | |
Structure of the transcribing RNA polymerase II–Elongin complex |
| Chen Y, Kokic G, Dienemann C, Dybkov O, Urlaub H, Cramer P | Nature Structural & Molecular Biology | 2023 | | |
Structure of the multi-subunit chloroplast RNA polymerase |
| do Prado PF, Ahrens FM, (...), Hillen HS | Molecular Cell | 2024 | | |
Characterization of nucleolar SUMO isopeptidases unveils a general p53-independent checkpoint of impaired ribosome biogenesis |
| Dönig J, Mende H, (...), Müller S | Nature Communications | 2023 | | |
Structural mechanisms of autoinhibition and substrate recognition by the ubiquitin ligase HACE1 |
| Düring J, Wolter M, (...), Lorenz S | Nature Structural & Molecular Biology | 2024 | | |
PAE Viewer: A webserver for the interactive visualization of the predicted aligned error for multimer structure predictions and crosslinks |
| Elfmann C, Stülke J | bioRxiv | 2023 | | |
PAE viewer: a webserver for the interactive visualization of the predicted aligned error for multimer structure predictions and crosslinks |
| Elfmann C, Stülke J | Nucleic Acids Research | 2023 | | |
Structural basis of Integrator-dependent RNA polymerase II termination |
| Fianu I, Ochmann M, (...), Cramer P | Nature | 2024 | | |
Hypoxia-driven deSUMOylation of EXOSC10 promotes adaptive changes in the transcriptome profile |
| Filippopoulou C, Thome CC, (...), Chachami G | bioRxiv | 2023 | | |