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Structural basis of transcription: RNA polymerase II at 2.8 Ångstrom resolution P Cramer, DA Bushnell, RD Kornberg Science 292 (5523), 1863-1876, 2001 | 1629 | 2001 |
Structural basis of transcription: an RNA polymerase II elongation complex at 3.3 Å resolution AL Gnatt, P Cramer, J Fu, DA Bushnell, RD Kornberg Science 292 (5523), 1876-1882, 2001 | 1143 | 2001 |
Real-time cryo-electron microscopy data preprocessing with Warp D Tegunov, P Cramer Nature methods 16 (11), 1146-1152, 2019 | 889 | 2019 |
Architecture of RNA polymerase II and implications for the transcription mechanism P Cramer, DA Bushnell, J Fu, AL Gnatt, B Maier-Davis, NE Thompson, ... science 288 (5466), 640-649, 2000 | 819 | 2000 |
Structure of replicating SARS-CoV-2 polymerase HS Hillen, G Kokic, L Farnung, C Dienemann, D Tegunov, P Cramer Nature 584 (7819), 154-156, 2020 | 761 | 2020 |
Mechanism of molnupiravir-induced SARS-CoV-2 mutagenesis F Kabinger, C Stiller, J Schmitzová, C Dienemann, G Kokic, HS Hillen, ... Nature structural & molecular biology 28 (9), 740-746, 2021 | 627 | 2021 |
Structural basis of transcription initiation by RNA polymerase II S Sainsbury, C Bernecky, P Cramer Nature reviews Molecular cell biology 16 (3), 129-143, 2015 | 575 | 2015 |
Organization and regulation of gene transcription P Cramer Nature 573 (7772), 45-54, 2019 | 571 | 2019 |
Uniform transitions of the general RNA polymerase II transcription complex A Mayer, M Lidschreiber, M Siebert, K Leike, J Söding, P Cramer Nature structural & molecular biology 17 (10), 1272-1278, 2010 | 560 | 2010 |
Mechanism of SARS-CoV-2 polymerase stalling by remdesivir G Kokic, HS Hillen, D Tegunov, C Dienemann, F Seitz, J Schmitzova, ... Nature communications 12 (1), 1-7, 2021 | 542 | 2021 |
RNA polymerase II clustering through carboxy-terminal domain phase separation M Boehning, C Dugast-Darzacq, M Rankovic, AS Hansen, T Yu, ... Nature structural & molecular biology 25 (9), 833-840, 2018 | 529 | 2018 |
Complete RNA polymerase II elongation complex structure and its interactions with NTP and TFIIS H Kettenberger, KJ Armache, P Cramer Molecular cell 16 (6), 955-965, 2004 | 508 | 2004 |
Conservation between the RNA polymerase I, II, and III transcription initiation machineries A Vannini, P Cramer Molecular cell 45 (4), 439-446, 2012 | 502 | 2012 |
A structural perspective of CTD function A Meinhart, T Kamenski, S Hoeppner, S Baumli, P Cramer Genes & development 19 (12), 1401-1415, 2005 | 479 | 2005 |
Dynamic transcriptome analysis measures rates of mRNA synthesis and decay in yeast C Miller, B Schwalb, K Maier, D Schulz, S Dümcke, B Zacher, A Mayer, ... Molecular systems biology 7 (1), 458, 2011 | 469 | 2011 |
Architecture of the RNA polymerase II–TFIIF complex revealed by cross‐linking and mass spectrometry ZA Chen, A Jawhari, L Fischer, C Buchen, S Tahir, T Kamenski, ... The EMBO journal 29 (4), 717-726, 2010 | 468 | 2010 |
TT-seq maps the human transient transcriptome B Schwalb, M Michel, B Zacher, K Frühauf, C Demel, A Tresch, J Gagneur, ... Science 352 (6290), 1225-1228, 2016 | 460 | 2016 |
Structure of eukaryotic RNA polymerases P Cramer, KJ Armache, S Baumli, S Benkert, F Brueckner, C Buchen, ... Annu. Rev. Biophys. 37, 337-352, 2008 | 451 | 2008 |
Architecture of the RNA polymerase II-TFIIS complex and implications for mRNA cleavage H Kettenberger, KJ Armache, P Cramer Cell 114 (3), 347-357, 2003 | 437 | 2003 |