Molecular architecture of the human Mediator-RNA polymerase II-TFIIF assembly
Bernecky C, Grob P, Ebmeier C, Nogales E, Taatjes D. 2011. Molecular architecture of the human Mediator-RNA polymerase II-TFIIF assembly. PLoS Biology. 9(3).
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Journal Article
| Published
| English
Author
Bernecky, CarrieISTA ;
Grob, Patricia;
Ebmeier, Christopher;
Nogales, Eva;
Taatjes, Dylan
Abstract
The macromolecular assembly required to initiate transcription of protein-coding genes, known as the Pre-Initiation Complex (PIC), consists of multiple protein complexes and is approximately 3.5 MDa in size. At the heart of this assembly is the Mediator complex, which helps regulate PIC activity and interacts with the RNA polymerase II (pol II) enzyme. The structure of the human Mediator-pol II interface is not well-characterized, whereas attempts to structurally define the Mediator-pol II interaction in yeast have relied on incomplete assemblies of Mediator and/or pol II and have yielded inconsistent interpretations. We have assembled the complete, 1.9 MDa human Mediator-pol II-TFIIF complex from purified components and have characterized its structural organization using cryo-electron microscopy and single-particle reconstruction techniques. The orientation of pol II within this assembly was determined by crystal structure docking and further validated with projection matching experiments, allowing the structural organization of the entire human PIC to be envisioned. Significantly, pol II orientation within the Mediator-pol II-TFIIF assembly can be reconciled with past studies that determined the location of other PIC components relative to pol II itself. Pol II surfaces required for interacting with TFIIB, TFIIE, and promoter DNA (i.e., the pol II cleft) are exposed within the Mediator-pol II-TFIIF structure; RNA exit is unhindered along the RPB4/7 subunits; upstream and downstream DNA is accessible for binding additional factors; and no major structural re-organization is necessary to accommodate the large, multi-subunit TFIIH or TFIID complexes. The data also reveal how pol II binding excludes Mediator-CDK8 subcomplex interactions and provide a structural basis for Mediator-dependent control of PIC assembly and function. Finally, parallel structural analysis of Mediator-pol II complexes lacking TFIIF reveal that TFIIF plays a key role in stabilizing pol II orientation within the assembly.
Publishing Year
Date Published
2011-03-01
Journal Title
PLoS Biology
Publisher
Public Library of Science
Volume
9
Issue
3
IST-REx-ID
Cite this
Bernecky C, Grob P, Ebmeier C, Nogales E, Taatjes D. Molecular architecture of the human Mediator-RNA polymerase II-TFIIF assembly. PLoS Biology. 2011;9(3). doi:10.1371/journal.pbio.1000603
Bernecky, C., Grob, P., Ebmeier, C., Nogales, E., & Taatjes, D. (2011). Molecular architecture of the human Mediator-RNA polymerase II-TFIIF assembly. PLoS Biology. Public Library of Science. https://doi.org/10.1371/journal.pbio.1000603
Bernecky, Carrie, Patricia Grob, Christopher Ebmeier, Eva Nogales, and Dylan Taatjes. “Molecular Architecture of the Human Mediator-RNA Polymerase II-TFIIF Assembly.” PLoS Biology. Public Library of Science, 2011. https://doi.org/10.1371/journal.pbio.1000603.
C. Bernecky, P. Grob, C. Ebmeier, E. Nogales, and D. Taatjes, “Molecular architecture of the human Mediator-RNA polymerase II-TFIIF assembly,” PLoS Biology, vol. 9, no. 3. Public Library of Science, 2011.
Bernecky C, Grob P, Ebmeier C, Nogales E, Taatjes D. 2011. Molecular architecture of the human Mediator-RNA polymerase II-TFIIF assembly. PLoS Biology. 9(3).
Bernecky, Carrie, et al. “Molecular Architecture of the Human Mediator-RNA Polymerase II-TFIIF Assembly.” PLoS Biology, vol. 9, no. 3, Public Library of Science, 2011, doi:10.1371/journal.pbio.1000603.