BACKGROUND: The general transcription factor TFIIH plays important roles in initiation and the transition to elongation steps of transcription by RNA polymerase II (PolII). Both roles are dependent on the protein kinase, DNA-dependent ATPase and DNA helicase activities of TFIIH. However, how these enzyme activities of TFIIH contribute to transcription has remained elusive. TFIIH consists of nine subunits, and one of them, Cdk7, possesses kinase activity. Here the substrate specificities of TFIIH and two forms of the Cdk7-containing kinase complex are compared, and the relationship between transcription activity and the TFIIH-dependent phosphorylation of the carboxy terminal domain of the largest subunit of PolII (CTD) is studied. RESULTS: We prepared TFIIH and two Cdk7-containing kinase complexes, Cdk7/Cyclin H and CAK (Cdk7/Cyclin H/MAT1). Consistent with previous reports, CAK strongly phosphorylated Cdk2, Cdk4, CTD and intact PolII. In contrast, Cdk7/Cyclin H, which lacks MAT1, did not phosphorylate these substrates, except for weak phosphorylation of Cdk2. The kinase activity of TFIIH displayed stronger substrate preference for Cdk4 than did CAK. In addition, TFIIH phosphorylation of PolII was stimulated by TFIIE both in solution and during preinitiation complex formation, whereas Cdk7/Cyclin H and CAK phosphorylation of PolII was not. In combination with other general transcription factors, TFIIH, but not Cdk7/CycH or CAK, promoted transcription on a linear DNA template. This transcription was well correlated with TFIIE stimulated TFIIH phosphorylation of serine at position 5 (Ser-5) within the heptapeptide repeat of the PolII CTD. CONCLUSION: These results provide clues about the roles of CTD phosphorylation at Ser-5 in transcription.
BACKGROUND: The general transcription factor TFIIH plays important roles in initiation and the transition to elongation steps of transcription by RNA polymerase II (PolII). Both roles are dependent on the protein kinase, DNA-dependent ATPase and DNA helicase activities of TFIIH. However, how these enzyme activities of TFIIH contribute to transcription has remained elusive. TFIIH consists of nine subunits, and one of them, Cdk7, possesses kinase activity. Here the substrate specificities of TFIIH and two forms of the Cdk7-containing kinase complex are compared, and the relationship between transcription activity and the TFIIH-dependent phosphorylation of the carboxy terminal domain of the largest subunit of PolII (CTD) is studied. RESULTS: We prepared TFIIH and two Cdk7-containing kinase complexes, Cdk7/Cyclin H and CAK (Cdk7/Cyclin H/MAT1). Consistent with previous reports, CAK strongly phosphorylated Cdk2, Cdk4, CTD and intact PolII. In contrast, Cdk7/Cyclin H, which lacks MAT1, did not phosphorylate these substrates, except for weak phosphorylation of Cdk2. The kinase activity of TFIIH displayed stronger substrate preference for Cdk4 than did CAK. In addition, TFIIH phosphorylation of PolII was stimulated by TFIIE both in solution and during preinitiation complex formation, whereas Cdk7/Cyclin H and CAK phosphorylation of PolII was not. In combination with other general transcription factors, TFIIH, but not Cdk7/CycH or CAK, promoted transcription on a linear DNA template. This transcription was well correlated with TFIIE stimulated TFIIH phosphorylation of serine at position 5 (Ser-5) within the heptapeptide repeat of the PolII CTD. CONCLUSION: These results provide clues about the roles of CTD phosphorylation at Ser-5 in transcription.
Authors: Nicholas J Fuda; Martin S Buckley; Wenxiang Wei; Leighton J Core; Colin T Waters; Danny Reinberg; John T Lis Journal: Mol Cell Biol Date: 2012-06-25 Impact factor: 4.272
Authors: S Yamamoto; Y Watanabe; P J van der Spek; T Watanabe; H Fujimoto; F Hanaoka; Y Ohkuma Journal: Mol Cell Biol Date: 2001-01 Impact factor: 4.272
Authors: Md Sohail Akhtar; Martin Heidemann; Joshua R Tietjen; David W Zhang; Rob D Chapman; Dirk Eick; Aseem Z Ansari Journal: Mol Cell Date: 2009-05-15 Impact factor: 17.970
Authors: Nicholas Kwiatkowski; Tinghu Zhang; Peter B Rahl; Brian J Abraham; Jessica Reddy; Scott B Ficarro; Anahita Dastur; Arnaud Amzallag; Sridhar Ramaswamy; Bethany Tesar; Catherine E Jenkins; Nancy M Hannett; Douglas McMillin; Takaomi Sanda; Taebo Sim; Nam Doo Kim; Thomas Look; Constantine S Mitsiades; Andrew P Weng; Jennifer R Brown; Cyril H Benes; Jarrod A Marto; Richard A Young; Nathanael S Gray Journal: Nature Date: 2014-06-22 Impact factor: 49.962