Publications
Journal Article (25)
1.
Journal Article
47, pp. 17 - 22 (2017)
Conserved RNA polymerase II initiation complex structure. Current Opinion in Structural Biology 2.
Journal Article
6, e32493 (2017)
The structure of the COPI coat determined within the cell. eLife 3.
Journal Article
171 (5), pp. 1072 - 1081 (2017)
Structural basis of mitochondrial transcription initiation. Cell 4.
Journal Article
171 (5), pp. 1082 - 1093 (2017)
Mechanism of transcription anti-termination in human mitochondria. Cell 5.
Journal Article
114 (46), pp. 12172 - 12177 (2017)
Mechanism of RNA polymerase II stalling by DNA alkylation. Proceedings of the National Academy of Sciences of the United States of America 6.
Journal Article
551 (7679), pp. 204 - 209 (2017)
Structures of transcription pre-initiation complex with TFIIH and Mediator. Nature 7.
Journal Article
23 (11), pp. 1648 - 1659 (2017)
Cis-regulatory elements explain most of the mRNA stability variation across genes in yeast. RNA 8.
Journal Article
550 (7677), pp. 539 - 542 (2017)
Nucleosome-Chd1 structure and implications for chromatin remodelling. Nature 9.
Journal Article
6, e29736 (2017)
CDK9-dependent RNA polymerase II pausing controls transcription initiation. eLife 10.
Journal Article
24 (10), pp. 809 - 815 (2017)
Structure of a transcribing RNA polymerase II-DSIF complex reveals a multidentate DNA-RNA clamp. Nature Structural and Molecular Biology 11.
Journal Article
13 (10), e1006664 (2017)
EBF1 binds to EBNA2 and promotes the assembly of EBNA2 chromatin complexes in B cells. PLoS Pathogens 12.
Journal Article
429 (17), pp. 2603 - 2610 (2017)
Structural molecular biology - A personal reflection on the occasion of John Kendrew's 100th birthday. Journal of Molecular Biology 13.
Journal Article
118 (7), pp. 1741 - 1755 (2017)
MCPIP1 exogenous overexpression inhibits pathways regulating MYCN oncoprotein stability in neuroblastoma. Journal of Cellular Biochemistry 14.
Journal Article
6, e26691 (2017)
9 angstrom structure of the COPI coat reveals that the Arf1 GTPase occupies two contrasting molecular environments. eLife 15.
Journal Article
8, 15741 (2017)
Architecture of the RNA polymerase II-Paf1C-TFIIS transcription elongation complex. Nature Communications 16.
Journal Article
6, e25637 (2017)
RNA-dependent chromatin association of transcription elongation factors and Pol II CTD kinases. eLife 17.
Journal Article
545 (7653), pp. 248 - 251 (2017)
Core Mediator structure at 3.4 Å extends model of transcription initiation complex. Nature 18.
Journal Article
356 (6334), pp. 194 - 197 (2017)
Architecture of a transcribing-translating expressome. Science 19.
Journal Article
66 (1), pp. 38 - 49 (2017)
Genome-wide analysis of RNA polymerase II termination at protein-coding genes. Molecular Cell 20.
Journal Article
66 (6), pp. 77 - 88 (2017)
Spt5 plays vital roles in the control of sense and antisense transcription elongation. Molecular Cell 21.
Journal Article
8, 14861 (2017)
The conserved protein Seb1 drives transcription termination by binding RNA polymerase II and nascent RNA. Nature Communications 22.
Journal Article
169 (1), pp. 120 - 131 (2017)
Structural basis of RNA polymerase I transcription initiation. Cell 23.
Journal Article
13 (3), 920 (2017)
TT-seq captures enhancer landscapes immediately after T-cell stimulation. Molecular Systems Biology 24.
Journal Article
6, e23006 (2017)
Using the Volta phase plate with defocus for cryo-EM single particle analysis. eLife 25.
Journal Article
12 (1), e0169249 (2017)
Accurate promoter and enhancer identification in 127 ENCODE and roadmap epigenomics cell types and tissues by GenoSTAN. PLoS One