Abstract
The Mediator complex associates with RNA polymerase II (RNAPII) at least partly via the RNAPII C-terminal repeat domain (CTD). This association greatly stimulates the CTD kinase activity of general transcription factor TFIIH, and subsequent CTD phosphorylation is involved in triggering promoter clearance. Here, highly purified proteins and a protein dissociation assay were used to investigate whether the RNAPII.Mediator complex (holo-RNAPII) can be disrupted by CTD phosphorylation, thereby severing one of the bonds that stabilize promoter-associated initiation complexes. We report that CTD phosphorylation by the serine 5-specific TFIIH complex, or its kinase module TFIIK, is indeed sufficient to dissociate holo-RNAPII. Surprisingly, phosphorylation by the CTD serine 2-specific kinase CTDK1 also results in dissociation. Moreover, the Mediator-induced stimulation of CTD phosphorylation previously reported for TFIIH is also observed with CTDK1 kinase. An unrelated CTD-binding protein, Rsp5, is capable of stimulating this CTD kinase activity as well. These data shed new light on mechanisms that drive the RNAPII transcription cycle and suggest a mechanism for the enhancement of CTD kinase activity by the Mediator complex.
Highlights
The Mediator complex transduces signals from sequencespecific transcriptional regulators to the general transcription machinery (16 –18)
To investigate whether C-terminal repeat domain (CTD) phosphorylation per se is sufficient to disrupt the association between Mediator and RNA polymerase II (RNAPII), we used highly purified proteins in a defined biochemical assay system
This assay entailed adding highly purified kinase (TFIIH, TFIIK, or CTD kinase 1 (CTDK1)) to phosphorylate the CTD of Rpb1, with ATP-dependent appearance in the supernatant of Mediator subunits indicating that phosphorylation of the CTD caused holo-RNAPII dissociation
Summary
The mechanism that results in the release of the Mediator complex from holo-RNAPII has so far not been studied in a defined system containing only RNAPII holoenzyme and CTD kinase. We have investigated the stability of the holoRNAPII complex in relation to CTD phosphorylation using such a system. We investigated the mechanism underlying stimulation of CTD kinase activity by the Mediator complex
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