Link to bioRxiv paper: http://biorxiv.org/cgi/content/short/2020.08.20.258632v1?rss=1 Authors: Peissert, S., Schlosser, A., Kendel, R., Kuper, J., Kisker, C. Abstract: CDK7, Cyclin H, and MAT1 form the heterotrimeric CDK activating kinase (CAK) complex. CAK is a vital factor for the two essential processes of transcription and cell cycle control. When associated with the general transcription factor II H (TFIIH) it activates RNA polymerase II by hyperphosphorylation of its C-terminal domain (CTD). In the absence of TFIIH it phosphorylates the T-loop of CDKs that control cell cycle progression. CAK holds a special position among the CDK branch due to this dual activity and the dependence on the MAT1 protein for activation in addition to Cyclin H. We solved the structure of the CAK complex from the model organism C. thermophilum at 2.6 [A] resolution. Our structure reveals an intricate network of interactions between MAT1 and its two binding partners CDK7 and Cyclin H providing a structural basis for the mechanism of CDK7 activation and CAK activity regulation. In vitro activity measurements combined with functional mutagenesis show that CDK7 activation can occur independently of T-loop phosphorylation and is thus exclusively MAT1 dependent by positioning the CDK7 T-loop in its active conformation. Finally, our structure of the active CAK with a peptide model provides a molecular rationale for heptad repeat phosphorylation. Copy rights belong to original authors. Visit the link for more info