@phdthesis{Uthe2018,
  author    = {Uthe, Henriette},
  title     = {Analyse des Interaktoms des Mediatorkomplexes und seiner posttranslationalen Modifikationen in \(Saccharomyces\) \(Cerevisae\) mittels Massenspektrometrie},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-162619},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2018},
  abstract  = {Eukaryotic messenger RNA (mRNA) synthesis catalyzed by the RNA Polymerase II is the central and critical process for the regulation of gene expression. Several decades of research unearthed many details about this essential process of high complexity and dynamic. The mediator complex turned out to be crucial for the regulation of Pol II mediated transcription, especially the process of initiation. It functions as an interface between the general transcription machinery and multiple DNA binding transcriptional regulators. Binding these regulators via its tail module and binding the polymerase II via its head module, the mediator forms a bridge between upstream activating sequences and the core promotor and initiates the assembling of the Pre-Initiation complex consisting of the polymerase II and the general transcription factors. However, particularly the last years of research suggest the mediator complex within many other functions including transcription elongation, gene looping and chromatin remodeling. Considering the facts, that the mediator (a) consist of 25 subunits, which are partially flexible associated, (b) shows a flexible intrinsic structure and (c) is highly and dynamically phosphorylated it becomes easy to imagineplausible that the mediator complex meets all this functions, by serving as a transcriptional platform. In context of this thesis, and it was possible to "illustrate" the mediator within its versatile tasks and functions by presenting the most comprehensive analysis of the Mediator complex interactome to date. By optimizing the conditions of cell lysis and co-immunoprecipitation it was possible to preserve even transient and labile protein-protein interactions. The use of metabolic labeling (15N) in the control experiment, allowed us to distinguish between specific and non-specific captured proteins. In combination with high performance mass spectrometry, more than 400 proteins and even complete protein complexes interacting with the mediator complex could be identified, naming RNA-Polymerase II, all general transcription factors the SAGA complex, chromatin remodeling complexes and highly acetylated histones. Furthermore, many candidates where identified playing a role in co-transcriptional processes of mRNA, such as splicing, mRNA-decapping, mRNA transport and decay. This analysis not only confirmed several interactions , already can be found in the literature, but furthermore provide clear evidence, that mediator complex interacts not only with the RNA-Polymerase II, but also with the RNA Polymerase I and III. Next to the high numbers of potential known and unknown interacting proteins, it could be shown, that the interactome is highly dynamic and sensitive to detergent.},
  subject      = {Mediator Komplex},
  language  = {de}
}