Capping is targeted to pre-mRNAs through binding of the guanylyltransferase component of the capping apparatus to the phosphorylated CTD of RNA polymerase II. We report that mammalian guanylyltransferase binds synthetic CTD peptides containing phosphoserine at either position 2 or 5 of the YSPTSPS heptad repeat. CTD peptides containing Ser-5-PO4 stimulate guanylyltransferase activity by enhancing enzyme affinity for GTP and increasing the yield of the enzyme–GMP intermediate. A CTD peptide containing Ser-2-PO4 has no effect on guanylyltransferase activity. This implies an allosteric change in guanylyltransferase conformation that is specified by the position of phosphoserine in the CTD. Stimulation of guanylyltransferase increases with the number of Ser-5-phosphorylated heptads. Our results underscore how mRNA production may be regulated by the display of different CTD phosphorylation arrays during transcription elongation.
Copyright © 1999 Cell Press.
, Vol 3, 405-411, March 1999
Short Article
Distinct Roles for CTD Ser-2 and Ser-5 Phosphorylation in the Recruitment and Allosteric Activation of Mammalian mRNA Capping Enzyme
1Molecular Biology Program, Sloan-Kettering Institute, New York, New York 10021, USA
Corresponding author
Stewart Shuman
212 639 7143 (phone)
212 717 3623 (fax)
s-shuman@ski.mskcc.org
Summary
Articles that cite this article
- Integrating mRNA Processing with Transcription
Nick J. Proudfoot, Andre Furger and Michael J. Dye
Cell, 2002, 108:4:501-512[Summary] [Full Text] [PDF] - A Function of Yeast mRNA Cap Methyltransferase, Abd1, in Transcription by RNA Polymerase II
Stephanie C. Schroeder, Diego A.R. Zorio, Beate Schwer, Stewart Shuman and David Bentley
Molecular Cell, 2004, 13:3:377-387[Summary] [Full Text] [PDF] [Supplemental Data] - Coordination of Transcription, RNA Processing, and Surveillance by P-TEFb Kinase on Heat Shock Genes
Zhuoyu Ni, Brian E. Schwartz, Janis Werner, Jose-Ramon Suarez and John T. Lis
Molecular Cell, 2004, 13:1:55-65[Summary] [Full Text] [PDF] [Supplemental Data] - Phosphorylation of Serine 2 within the RNA Polymerase II C-Terminal Domain Couples Transcription and 3′ End Processing
Seong Hoon Ahn, Minkyu Kim and Stephen Buratowski
Molecular Cell, 2004, 13:1:67-76[Summary] [Full Text] [PDF] [Supplemental Data] - Structure of an mRNA Capping Enzyme Bound to the Phosphorylated Carboxy-Terminal Domain of RNA Polymerase II
Carme Fabrega, Vincent Shen, Stewart Shuman and Christopher D. Lima
Molecular Cell, 2003, 11:6:1549-1561[Summary] [Full Text] [PDF] - Early Formation of mRNP: License for Export or Quality Control?
Torben Heick Jensen, Ken Dower, Domenico Libri and Michael Rosbash
Molecular Cell, 2003, 11:5:1129-1138[Summary] [Full Text] [PDF] - The Yeast Capping Enzyme Represses RNA Polymerase II Transcription
Lawrence C. Myers, Lynne Lacomis, Hediye Erdjument-Bromage and Paul Tempst
Molecular Cell, 2002, 10:4:883-894[Summary] [Full Text] [PDF] [Supplemental Data] - Tat Stimulates Cotranscriptional Capping of HIV mRNA
Ya-Lin Chiu, C. Kiong Ho, Nayanendu Saha, Beate Schwer, Stewart Shuman and Tariq M. Rana
Molecular Cell, 2002, 10:3:585-597[Summary] [Full Text] [PDF] - Functional Coupling of Capping and Transcription of mRNA
Shin Moteki and David Price
Molecular Cell, 2002, 10:3:599-609[Summary] [Full Text] [PDF] - Functional Interaction of Yeast Pre-mRNA 3′ End Processing Factors with RNA Polymerase II
Donny D. Licatalosi, Gabrielle Geiger, Michelle Minet, Stephanie Schroeder, Kate Cilli, J. Bryan McNeil and David L. Bentley
Molecular Cell, 2002, 9:5:1101-1111[Summary] [Full Text] [PDF] - Interaction between a Poly(A)-Specific Ribonuclease and the 5′ Cap Influences mRNA Deadenylation Rates In Vitro
Min Gao, David T. Fritz, Lance P. Ford and Jeffrey Wilusz
2000, 5:3:479-488[Summary] [Full Text] [PDF] - Determinants for Dephosphorylation of the RNA Polymerase II C-Terminal Domain by Scp1
Yan Zhang, Youngjun Kim, Nicolas Genoud, Jianmin Gao, Jeffery W. Kelly, Samuel L. Pfaff, Gordon N. Gill, Jack E. Dixon and Joseph P. Noel
Molecular Cell, 2006, 24:5:759-770[Summary] [Full Text] [PDF] [Supplemental Data] - The Mammalian RNA Polymerase II C-Terminal Domain Interacts with RNA to Suppress Transcription-Coupled 3′ End Formation
Syuzo Kaneko and James L. Manley
Molecular Cell, 2005, 20:1:91-103[Summary] [Full Text] [PDF] [Supplemental Data] - Orientation-Dependent Regulation of Integrated HIV-1 Expression by Host Gene Transcriptional Readthrough
Yefei Han, Yijie B. Lin, Wenfeng An, Jie Xu, Hung-Chih Yang, Karen O'Connell, Dominic Dordai, Jef D. Boeke, Janet D. Siliciano and Robert F. Siliciano
Cell Host and Microbe, 2008, 4:2:134-146[Summary] [Full Text] [PDF] [Supplemental Data]
