Journal Article (274)
199.
Journal Article
29 (4), pp. 717 - 726 (2010)
Architecture of the RNA polymerase II–TFIIF complex revealed by cross‐linking and mass spectrometry. EMBO Journal 200.
Journal Article
38 (10), pp. 3186 - 3195 (2010)
Preparation and topology of the Mediator middle module. Nucleic Acids Research 201.
Journal Article
16 (1), pp. 24 - 27 (2010)
10 Jahre RNA-Polymerase-Struktur – von Transkription zu Genregulation. BIOspektrum 202.
Journal Article
462 (7271), pp. 323 - 330 (2009)
RNA polymerase II–TFIIB structure and mechanism of transcription initiation. Nature 203.
Journal Article
19 (6), pp. 732 - 739 (2009)
RNA polymerase fidelity and transcriptional proofreading. Current Opinion in Structural Biology 204.
Journal Article
284 (46), pp. 31658 - 31663 (2009)
Molecular basis of transcriptional mutagenesis at 8-Oxoguanine. Journal of Biological Chemistry 205.
Journal Article
284 (32), pp. 21270 - 21279 (2009)
Torpedo nuclease Rat1 is insufficient to terminate RNA polymerase II in vitro. The Journal of Biological Chemistry 206.
Journal Article
37 (17), pp. 5803 - 5809 (2009)
Nano positioning system reveals the course of upstream and nontemplate DNA within the RNA polymerase II elongation complex. Nucleic Acids Research 207.
Journal Article
34 (6), pp. 710 - 721 (2009)
Structural basis of transcription: Mismatch-specific fidelity mechanisms and paused RNA polymerase II with frayed RNA. Molecular Cell 208.
Journal Article
19 (3), pp. 294 - 299 (2009)
A movie of the RNA polymerase nucleotide addition cycle. Current Opinion in Structural Biology 209.
Journal Article
389 (1), pp. 211 - 225 (2009)
Structure and in vivo requirement of the yeast Spt6 SH2 domain. Journal of Molecular Biology 210.
Journal Article
65 (2), pp. 112 - 120 (2009)
Structure–function studies of the RNA polymerase II elongation complex. Acta Crystallographica Section D: Biological Crystallography 211.
Journal Article
71 (4), pp. 989 - 1002 (2009)
The archaeal RNA polymerase subunit P and the eukaryotic polymerase subunit Rpb12 are interchangeable in vivo and in vitro. Molecular Microbiology 212.
Journal Article
28 (1), pp. 69 - 80 (2009)
Identification, structure, and functional requirement of the Mediator submodule Med7N/31. The EMBO Journal 213.
Journal Article
5 (11), pp. 965 - 971 (2008)
A nano-positioning system for macromolecular structural analysis. Nature Methods 214.
Journal Article
283, pp. 26423 - 26427 (2008)
Genome-associated RNA polymerase II includes the dissociable Rpb4/7 subcomplex. The Journal of Biological Chemistry 215.
Journal Article
37, pp. 337 - 352 (2008)
Structure of eukaryotic RNA polymerases. Annual Reviews of Biophysics 216.
Journal Article
64 (5), pp. 413 - 418 (2008)
Crystallization of RNA polymerase I subcomplex A14/A43 by iterative prediction, probing and removal of flexible regions. Acta Crystallographica Section F: Structural Biology and Crystallization Communications 217.
Journal Article
22 (7), pp. 872 - 877 (2008)
Structure–system correlation identifies a gene regulatory Mediator submodule. Genes and Development 218.
Journal Article
376 (2), pp. 303 - 307 (2008)
Structure of an archaeal RNA polymerase. Journal of Molecular Biology 219.
Journal Article
105 (1), pp. 135 - 140 (2008)
Single-molecule tracking of mRNA exiting from RNA polymerase II. Proceedings of the National Academy of Sciences of the United States of America 220.
Journal Article
15, pp. 811 - 818 (2008)
Structural basis of transcription inhibition by alpha-amanitin and implications for RNA polymerase II translocation. Nature Structural and Molecular Biology 221.
Journal Article
36 (3), pp. 793 - 802 (2008)
Site specific phosphorylation of yeast RNA polymerase I. Nucleic Acids Research 222.
Journal Article
190 (1), pp. 157 - 167 (2008)
Archaeal transcription: Function of an alternative transcription Factor B from Pyrococcus furiosus. Journal of Bacteriology 223.
Journal Article
80 (10), pp. 3584 - 3592 (2008)
Article Multiplexed proteomics mapping of yeast RNA polymerase II and III allows near-complete sequence coverage and reveals several novel phosphorylation sites. Analytical Chemistry 224.
Journal Article
36 (2), pp. 676 - 687 (2008)
Structure–function analysis of the RNA polymerase cleft loops elucidates initial transcription, DNA unwinding and RNA displacement. Nucleic Acids Research 225.
Journal Article
131 (7), pp. 1260 - 1272 (2007)
Functional architecture of RNA polymerase I. Cell 226.
Journal Article
14 (12), pp. 1127 - 1133 (2007)
Mechanism of transcriptional stalling at cisplatin-damaged DNA. Nature Structural and Molecular Biology 227.
Journal Article
450 (7168), pp. 445 - 449 (2007)
Molecular basis of RNA-dependent RNA polymerase II activity. Nature 228.
Journal Article
15 (10), pp. 1237 - 1245 (2007)
Structural biology of RNA polymerase III: Mass spectrometry elucidates subcomplex architecture. Structure 229.
Journal Article
14 (8), pp. 686 - 687 (2007)
Finding the right spot to start transcription. Nature Structural and Molecular Biology 230.
Journal Article
282 (30), pp. 21578 - 21582 (2007)
Multisubunit RNA polymerases melt only a single DNA base pair downstream of the active site. The Journal of Biological Chemistry 231.
Journal Article
448 (7150), pp. 142 - 143 (2007)
Gene transcription: Extending the message. Nature 232.
Journal Article
581 (15), pp. 2757 - 2760 (2007)
DNA photodamage recognition by RNA polymerase II. FEBS Letters 233.
Journal Article
315 (5813), pp. 859 - 862 (2007)
CPD damage recognition by transcribing RNA polymerase II. Science 234.
Journal Article
13 (12), pp. 1042 - 1044 (2006)
Deciphering the RNA polymerase II structure: a personal perspective. Nature Structural and Molecular Biology 235.
Journal Article
24 (2), pp. 257 - 266 (2006)
Template misalignment in multisubunit RNA polymerases and transcription fidelity. Molecular Cell 236.
Journal Article
13 (10), pp. 895 - 901 (2006)
Structure and TBP binding of the Mediator head subcomplex Med8–Med18–Med20. Nature Structural and Molecular Biology 237.
Journal Article
313 (5786), pp. 447 - 448 (2006)
Self-correcting messages. Science 238.
Journal Article
23 (1), pp. 71 - 81 (2006)
Structural biology of RNA polymerase III: Subcomplex C17/25 X-ray structure and 11 subunit enzyme model. Molecular Cell 239.
Journal Article
62 (2), pp. 146 - 150 (2006)
Fluorescence detection of nucleic acids and proteins in multi-component crystals. Acta Crystallographica Section D: Biological Crystallography 240.
Journal Article
281 (1), pp. 13 - 15 (2006)
Structure and carboxyl-terminal domain (CTD) binding of the Set2 SRI domain that couples histone H3 Lys36 methylation to transcription. The Journal of Biological Chemistry 241.
Journal Article
34 (6), pp. 1058 - 1061 (2006)
Recent structural studies of RNA polymerases II and III. Biochemical Society Transactions 242.
Journal Article
73, pp. 41 - 47 (2006)
Mechanistic studies of the mRNA transcription cycle. Biochemical Society Symposia 243.
Journal Article
350 (5), pp. 833 - 842 (2005)
Structure of the mediator subunit cyclin C and its implications for CDK8 function. Journal of Molecular Biology 244.
Journal Article
19 (12), pp. 1401 - 1415 (2005)
A structural perspective of CTD function. Genes and Development 245.
Journal Article
280 (18), pp. 18171 - 18178 (2005)
A conserved mediator hinge revealed in the structure of the MED7·MED21 (Med7·Srb7) heterodimer. The Journal of Biological Chemistry 246.
Journal Article
15 (2), pp. 197 - 203 (2005)
The dynamic machinery of mRNA elongation. Current Opinion in Structural Biology 247.
Journal Article
15 (2), pp. 185 - 187 (2005)
Macromolecular assemblages — from molecules to functional modules. Current Opinion in Structural Biology 248.
Journal Article
280 (8), pp. 7131 - 7134 (2005)
Structures of complete RNA polymerase II and its subcomplex, Rpb4/7. The Journal of Biological Chemistry 249.
Journal Article
11 (Sonderh.), pp. 523 - 525 (2005)
RNA als Koordinator und Regulator der Genexpression. BIOspektrum 250.
Journal Article
13 (1), pp. 44 - 48 (2005)
Structure of an RNA polymerase II–RNA inhibitor complex elucidates transcription regulation by noncoding RNAs. Nature Structural and Molecular Biology 251.
Journal Article
16 (6), pp. 955 - 965 (2004)
Complete RNA polymerase II elongation complex structure and its interactions with NTP and TFIIS. Molecular Cell 252.
Journal Article
15 (3), pp. 399 - 407 (2004)
Structure and mechanism of RNA polymerase IICTD phosphatases. Molecular Cell 253.
Journal Article
430 (6996), pp. 223 - 226 (2004)
Recognition of RNA polymerase II carboxy-terminal domain by 3'-RNA-processing factors. Nature 254.
Journal Article
14 (2), pp. 218 - 226 (2004)
RNA polymerase II structure: From core to functional complexes. Opinion in Geneticsand Development 255.
Journal Article
5, 26 (2004)
The phosphatidylserine receptor from Hydra is a nuclear protein with potential Fe(II) dependent oxygenase activity. BMC Cell Biology 256.
Journal Article
67, pp. 1 - 42 (2004)
Structure and function of RNA polymerase II. Advances in Protein Chemistry 257.
Journal Article
11 (2), pp. 157 - 162 (2004)
Structure of a bifunctional DNA primase-polymerase. Nature Structural and Molecular Biology 258.
Journal Article
278 (48), pp. 48267 - 48274 (2003)
An extended winged helix domain in general transcription factor E/IIEα. The Journal of Biological Chemistry 259.
Journal Article
114 (3), pp. 347 - 357 (2003)
Architecture of the RNA polymerase II-TFIIS complex and implications for mRNA cleavage. Cell 260.
Journal Article
100 (12), pp. 6964 - 6968 (2003)
Architecture of initiation-competent 12-subunit RNA polymerase II. Proceedings of the National Academy of Sciences of the USA 261.
Journal Article
278 (18), pp. 15917 - 15921 (2003)
The mRNA transcription/processing factor Ssu72 Is a potential tyrosine phosphatase. Journal of Biological Chemistry 262.
Journal Article
24 (8), pp. 724 - 729 (2002)
Common structural features of nucleic acid polymerases. Bioessays 263.
Journal Article
99 (3), pp. 1218 - 1222 (2002)
Structural basis of transcription: α-Amanitin–RNA polymerase II cocrystal at 2.8 Å resolution. Proceedings of the National Academy of Sciences of the USA 264.
Journal Article
20 (22), pp. 6180 - 6190 (2001)
Crystal structure of the ankyrin repeat domain of Bcl‐3: a unique member of the IκB protein family. EMBO Journal 265.
Journal Article
292 (5523), pp. 1876 - 1882 (2001)
Structural basis of transcription: An RNA polymerase II elongation complex at 3.3 Å resolution. Science 266.
Journal Article
292 (5523), pp. 1863 - 1876 (2001)
Structural basis of transcription: RNA polymerase II at 2.8 Ångstrom resolution. Science 267.
Journal Article
9 (1), pp. R11 - R14 (2001)
Selenomethionine incorporation in Saccharomyces cerevisiae RNA polymerase II. Structure 268.
Journal Article
288 (5466), pp. 640 - 649 (2000)
Architecture of RNA polymerase II and implications for the transcription mechanism. Science 269.
Journal Article
7 (7), pp. 841 - 852 (1999)
Structure of the specificity domain of the Dorsal homologue Gambif1 bound to DNA. Structure 270.
Journal Article
7 (1), pp. R1 - R6 (1999)
A firm hand on NFκB: structures of the IκBα–NFκB complex. Structure 271.
Journal Article
16 (23), pp. 7078 - 7090 (1997)
Structure of the human NF‐κB p52 homodimer‐DNA complex at 2.1 Å resolution. EMBO Journal 272.
Journal Article
405 (3), pp. 373 - 377 (1997)
Engineering of diffraction-quality crystals of the NF-KB P52 homodimer:DNA complex. FEBS Letters 273.
Journal Article
35 (14), pp. 4298 - 4305 (1996)
Structural and energetic responses to cavity-creating mutations in hydrophobic cores: Observation of a buried water molecule and the hydrophilic nature of such hydrophobic cavities. Biochemistry 274.
Journal Article
13 (4), pp. 1058 - 1060 (1994)
Diastereoselective C-C bond formation by carbene insertions into Pt-CH3 bonds. Organometallics Book Chapter (1)
275.
Book Chapter
Purification of crystallization-grade RNA polymerase I from S. cerevisiae. In: The Nucleolus, pp. 85 - 97 (Ed. Németh, A.). Springer; Humana Pr., New York, N.Y. (2016)
Editorial (2)
276.
Editorial
21 (6), pp. 695 - 697 (2011)
Proteins: histones and chromatin. Current Opinion in Structural Biology 277.
Editorial
19 (6), pp. 680 - 682 (2009)
Proteins: how RNA polymerases work. Current Opinion in Structural Biology